कѨሞܼڀ࣪ᄺᴃӮ䆂ਞ᮹ঞӮഎᅝᥦ - 科学网
कѨሞܼڀ࣪ᄺᴃӮ䆂ਞ᮹ঞӮഎᅝᥦ - 科学网
कѨሞܼڀ࣪ᄺᴃӮ䆂ਞ᮹ঞӮഎᅝᥦ - 科学网
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A B C<br />
D E F
PL-01 2010 11 29 9:40 – 10:40<br />
Johannes Lercher Technische Universität München<br />
Transport, Sorption and Catalysis in zeolites: from<br />
Molecular Understanding to New Opportunities<br />
<br />
PL-02 2010 11 29 10:40 – 11:40<br />
<br />
<br />
—<br />
<br />
PL-03 2010 12 2 2:00 – 3:00<br />
<br />
<br />
<br />
PL-04 2010 12 2 3:00 – 4:00<br />
<br />
— <br />
<br />
<br />
KA-03 2010 11 30 9:55 – 10:35<br />
<br />
<br />
KC-03 2010 12 1 8:00 – 8:40
PL-01 9:40 – 10:40<br />
<br />
<br />
11 29 <br />
<br />
<br />
Johannes Lercher <br />
Technische Universität München<br />
Transport, Sorption and Catalysis in<br />
zeolites: from Molecular Understanding to<br />
New Opportunities<br />
<br />
PL-02 10:40 – 11:40<br />
<br />
<br />
<br />
—
11 29 <br />
Session 1 A: ——<br />
<br />
14:00 KA-01 <br />
* <br />
<br />
14:40 OA-01 * <br />
15:00 OA-02 <br />
*<br />
15:20 OA-03 <br />
15:40 15:55 <br />
* <br />
<br />
<br />
Session 2 A: ——<br />
<br />
15:55 OA-04 <br />
<br />
* <br />
16:15 OA-05 Se^Pt/C * <br />
16:35 OA-06 * <br />
16:55 OA-07 Al-SBA-15 * <br />
17:15 OA-08 SBA-15 <br />
<br />
* <br />
17:35 OA-09 SBA-1 Grubbs <br />
<br />
* <br />
Session 1 B: ——<br />
<br />
14:00 IB-01 FeOx Pt, Pd CO CO+H2 <br />
<br />
* <br />
<br />
14:20 OB-01 * <br />
14:40 KB-01 Pt- * <br />
<br />
15:20 IB-02 * <br />
15:40 15:55 <br />
Session 2 B: ——<br />
<br />
15:55 OB-02 Ag CeO2(111) * <br />
16:15 OB-03 * <br />
<br />
16:35 KB-02 XAFS * <br />
<br />
17:15 OB-04 BRIM - * Haldor Topsoe<br />
<br />
A/S<br />
17:35 OB-05 MoO3/CeO2 Raman * <br />
K: I O
11 29 <br />
Session 1 D——<br />
<br />
14:00 KD-01 <br />
* <br />
<br />
14:40 OD-01 * <br />
<br />
15:00 OD-02 * <br />
15:20 OD-03 Knoevenagel/oxo-Diels Alder <br />
<br />
15:40 15:55 <br />
* <br />
Session 2 D——<br />
<br />
15:55 KD-02 Asymmetric Cooperative and Relay Catalysis by<br />
Organo/Metal Binary Systems<br />
* <br />
<br />
16:35 OD-04 * <br />
<br />
16:55 OD-05 <br />
* <br />
<br />
17:15 OD-06 Asymmetric Borane Reduction of Prochiral Ferrocenyl Wang Rong <br />
Ketones in the Presence of Chiral Spiroborate Ester *<br />
17:35 OD-07 * <br />
1,4-<br />
<br />
Session 1 F: <br />
Chang Gung University <br />
14:00 OF-01 CFD * <br />
14:20 OF-02 * <br />
14:40 KF-01 * <br />
15:20 OF-03 ZSM-22/ZSM-23 * <br />
<br />
15:40 15:55 <br />
<br />
Session2 F: <br />
<br />
15:55 OF-04 * ()<br />
16:15 OF-05 “” * <br />
16:35 OF-06 Cu/Zn * <br />
16:55 OF-07 SBA-15-SO3H * <br />
<br />
*<br />
17:15 OF-08 MIBK * <br />
<br />
17:35 OF-09 * <br />
<br />
K: I O
11 29 <br />
Session 1 E: ——<br />
Griffith University <br />
14:00 KE-01 * <br />
14:40 OE-01 * <br />
15:00 OE-02 Ag3VO4/TiO2 * <br />
<br />
<br />
15:20 IE-01 Photocatalysts for near-infrared applications<br />
15:40 15:55 <br />
* <br />
Session 2 E: ——<br />
<br />
15:55 IE-02 Anatase Titanium Dioxide Crystals with Exposed {001}<br />
Facets for Water Oxidation and Solar Cells<br />
* Griffith University<br />
16:15 OE-03 Comparative Study of Visible-light–Driven Photocatalytic Wanjun Wang The Chinese<br />
Dye Decolorization and Bacterial<br />
B-Ni-codoped TiO2 Microspheres<br />
Disinfection by *<br />
University of<br />
Hong Kong<br />
16:35 OE-04 Promotion of Sm2Ti2S2O5 for H2 Evolution from<br />
Na2S-Na2SO3 Solution under Visible Light: Discussion on<br />
the Effect of Ag and Mg additives<br />
* <br />
16:55 OE-05 CdS * <br />
<br />
17:15 OE-06 Supported Noble Nanoparticles as Photocatalysts under * Queensland<br />
both Visible and Ultraviolet Light<br />
University of<br />
Technology<br />
17:35 OE-07 ZnxCd1-xS <br />
<br />
* <br />
K: I O
11 30 <br />
Session 1 A: ——<br />
<br />
08:00 KA-02 <br />
* <br />
<br />
08:40 OA-10 * <br />
<br />
<br />
09:00 OA-11 * <br />
<br />
09:20 OA-12 * <br />
<br />
09:40 09:55 <br />
<br />
Session 2 A: ——<br />
<br />
09:55 KA-03 <br />
* <br />
<br />
10:35 OA-13 - * <br />
10:55 OA-14 * <br />
*<br />
<br />
11:15 OA-15 - * <br />
11:35 OA-16 * <br />
Session 1 B: ——<br />
<br />
08:00 OB-06 Ti-MWW * <br />
08:20 OB-07 * <br />
08:40 KB-03 DFT * <br />
<br />
09:20 OB-08 325 nm Nd2O3 Sm2O3 <br />
**<br />
09:40 09:55 <br />
<br />
Session 2 B: ——<br />
<br />
09:55 OB-09 * <br />
10:15 OB-10 FTIR * -<br />
<br />
10:35 KB-04 sp 3 * <br />
<br />
11:15 OB-11 * <br />
11:35 OB-12 VOx/Pt(111) * <br />
K: I O
11 30 <br />
Session 1 D——<br />
<br />
08:00 KD-03 * <br />
08:40 OD-08 IV * <br />
09:00 ID-01 C-H * <br />
<br />
09:30 OD-09 /<br />
<br />
09:50 10:00 <br />
* <br />
Session 2 D——<br />
<br />
10:00 KD-04 Endeavors towards Bridging the Gap between Homo and<br />
Heterogeneous<br />
Organometallics<br />
Asymmetric Catalysis with<br />
* <br />
<br />
10:40 OD-10 — * <br />
11:00 KD-05 PtCl2-Catalyzed Tandem Triple Migration Reaction toward Ke-Gong Ji <br />
(Z)-1,5-Dien-2-yl Esters<br />
*<br />
11:40 OD-11 - * <br />
Session 1 F: <br />
<br />
08:00 IF-01 * <br />
08:20 OF-10 ** <br />
<br />
08:40 OF-11 MCM-49 * <br />
<br />
*<br />
<br />
09:00 OF-12 MFI * <br />
09:20 OF-13 CO+H2 <br />
09:40 09:55 <br />
* <br />
Session 2 F: <br />
<br />
09:55 IF-02 Application of hydrogen spillover/surface diffusion for Y. H. Tsai* Chang Gung<br />
palladium membrane reactor<br />
University<br />
10:15 OF-14 ZSM-5 <br />
* <br />
<br />
10:35 OF-15 * <br />
<br />
10:55 OF-16 * <br />
11:15 OF-17 V2O5/CexZr1-xO2 CO2 * <br />
11:35 IF-03 Molecular Design, Function, and Commercial Application<br />
of Shape-Selective Catalysts for the Petrochemical<br />
Industry<br />
(John Ou)* ExxonMobil Corp.<br />
K: I O
11 30 <br />
Session 1 C: ——<br />
<br />
08:00 IC-01 * <br />
08:20 OC-01 * <br />
08:40 IC-02 - * <br />
09:00 OC-02 * <br />
<br />
<br />
09:20 OC-03 ZrO2 V2O5/TiO2 * <br />
<br />
09:40 09:55 <br />
<br />
Session 2 C: ——<br />
<br />
09:55 KC-01 <br />
* <br />
<br />
10:35 OC-04 Ni/Al2O3-AlN * <br />
10:55 IC-03 * <br />
<br />
11:15 OC-05 TeMo5O16 <br />
<br />
* <br />
11:35 OC-06<br />
HZSM-5/<br />
*<br />
*<br />
<br />
K: I O
11 30 <br />
Session 1 A: ——<br />
<br />
14:00 KA-04 * <br />
14:40 OA-17 Co/SiO2 CO2 * <br />
15:00 OA-18 * <br />
15:20 OA-19 * <br />
15:40 15:55 <br />
Session 1 D——<br />
<br />
14:00 OD-12 - * <br />
<br />
14:20 OD-13 * <br />
<br />
<br />
14:40 KD-06 * <br />
15:20 OD-14 CoOx <br />
<br />
15:40 15:55 <br />
* <br />
Session 1 D——<br />
<br />
14:00 KD-07 ——<br />
<br />
* <br />
14:40 ID-02 * * <br />
15:10 ID-03 <br />
15:40 15:55 <br />
* <br />
Session 1 E: ——<br />
<br />
14:00 IE-03 NH3 * <br />
NOx <br />
<br />
14:20 OE-08 * <br />
NOx<br />
*<br />
<br />
14:40 OE-09 Ni CeO2-ZrO2 <br />
Pd <br />
* <br />
15:00 OE-10 NOx / Pt-BaO/Al2O3 ** <br />
15:20 IE-04 NOx NH3 <br />
15:40 15:55 <br />
* <br />
K: I O
11 30 <br />
Session 1 C: <br />
<br />
14:00 KC-02 * <br />
14:40 OC-07 * <br />
15:00 OC-08 * <br />
15:20 OC-09 NiW/P-USY+Al2O3 <br />
<br />
15:40 15:55 <br />
* <br />
15:40 ~ 21:00<br />
<br />
<br />
PA001 - PA221, PB001 - PB077, PC001 - PC144, PD001 -<br />
K: I O<br />
<br />
PD118, PE001 - PE104, PF001 - PF040<br />
13:00 21:00
12 1 <br />
Session 1 A: ——<br />
<br />
08:00 KA-05 - * <br />
08:40 OA-20 <br />
<br />
* <br />
09:00 OA-21 - * <br />
<br />
<br />
09:20 OA-22 8-VI <br />
<br />
09:40 09:55 <br />
*<br />
Session 2 A: ——<br />
<br />
09:55 KA-06 * <br />
10:35 OA-23 PtAg H2 CO * <br />
10:55 OA-24 TS-1 * <br />
11:15 OA-25 * <br />
11:35 IA-01 <br />
* <br />
<br />
<br />
Session 1 D: ——<br />
<br />
08:00 ID-04 * <br />
<br />
08:20 OD-15 - * <br />
08:40 OD-16 m-ZrO2 RuOx <br />
<br />
* <br />
09:00 OD-17 *<br />
*<br />
<br />
09:20 OD-18 CuOx <br />
09:40 09:55 <br />
* <br />
Session 2 D: ——<br />
<br />
09:55 ID-05 * <br />
10:15 OD-19 * <br />
10:35 OD-20 K, Cu Mo Ru * <br />
<br />
10:55 OD-21 Ni-Cu/Al2O3 1,4- * <br />
11:15 OD-22 * <br />
11:35 OD-23 PtSn/Al2O3<br />
<br />
* <br />
K: I O
12 1 <br />
Session 1 D——<br />
<br />
08:00 ID-06 Brønsted * <br />
08:30 OD-24 salen Mn(III)<br />
1-<br />
* <br />
08:50 OD-25 - * <br />
09:10 OD-26 SiO2 <br />
<br />
* <br />
09:30 OD-27 Cross-Aldol * <br />
<br />
09:50 09:55 <br />
<br />
Session 2 B——<br />
<br />
09:55 KB-05 A theoretical view of bridging model and real catalysts * <br />
<br />
10:35 IB-03 Theoretical Studies of the Geometry Structures and<br />
Catalytic Properties of Gold Nanoclusters<br />
* <br />
10:55 OB-13 * <br />
11:15 IB-04 CO Activation and Reaction on Fe-based Catalysts Chunfang Huo <br />
*<br />
<br />
11:35 IB-05 <br />
<br />
* <br />
Session 1 E: ——<br />
<br />
08:00 KE-02 <br />
<br />
* <br />
08:40 OE-11 RuOx SCR <br />
<br />
* <br />
09:00 OE-16 SSOV NO+CO * <br />
09:20 OE-13 Fe/HBEA NOx<br />
09:40 09:55 <br />
* <br />
Session 2 E: ——<br />
<br />
09:55 OE-14 1,2- * <br />
10:15 OE-15 VOCs <br />
<br />
* <br />
10:35 KE-03 * <br />
<br />
11:15 OE-12 Fe/Cr-Mn NH3-SCR NOx <br />
<br />
* <br />
11:35 OE-17 Cr(VI) * <br />
<br />
K: I O
12 1 <br />
Session 1 C: ——<br />
<br />
08:00 KC-03 * <br />
08:40 IC-04 CO <br />
<br />
* <br />
09:00 OC-10 <br />
* <br />
<br />
09:20 IC-05 <br />
09:40 09:55 <br />
* <br />
<br />
Session 2 C: ——<br />
<br />
09:55 KC-04 * <br />
10:35 OC-11 <br />
<br />
* <br />
10:55 OC-12 Cu/SiO2 1,2- * <br />
<br />
11:15 OC-13 Cu-ZnO <br />
<br />
* <br />
11:35 OC-14 Pd/Fe3O4 * <br />
K: I O
12 1 <br />
Session 1 A: ——<br />
<br />
14:00 KA-07 111 * <br />
14:40 OA-26 * <br />
15:00 OA-27 CaO * <br />
15:20 OA-28 salen Mn(III)<br />
<br />
15:40 15:55 <br />
* <br />
Session 1 <br />
<br />
14:00 OE-18 CO2 TiO2 Au <br />
<br />
* <br />
14:20 OE-19 Au-Pd/IE-Resin Ullmann * <br />
<br />
14:40 OE-20 * <br />
<br />
15:00 OE-21 Oxidation of formaldehyde at room temperature with * The University of<br />
Au/TiO2 catalysts<br />
Hong Kong<br />
15:20 OE-22 NiAu Au/NiO * <br />
CO <br />
15:40 15:55 <br />
<br />
Session 1 B——<br />
<br />
14:00 IB-06 * <br />
14:20 OB-14 * <br />
14:40 IB-07 PdZn * <br />
15:00 OB-15 NOx H2O Al2O3 Ga Al2O3<br />
<br />
* <br />
15:20 OB-16 B SCR<br />
15:40 15:55 <br />
* <br />
Session 1 E: ——<br />
<br />
14:00 IE-05 A New Strategy for Application of Heterogeneous Fenton-like<br />
Catalytic Process to Degradation of Organic Pollutants<br />
14:20 OE-23 Cr()<br />
<br />
14:40 OE-24 A highly active Pd on Ni-B bimetallic catalyst for<br />
liquid-phase hydrodechlorination of 4-chlorophenol under<br />
mild conditions<br />
15:00 OE-25 Nanostructured TiO2 photoanodes for sensing organic<br />
pollutants in waters<br />
15:20 OE-26 TiO2/ 2#<br />
<br />
15:40 15:55 <br />
K: I O<br />
<br />
* <br />
* <br />
Chongxia Sun<br />
*<br />
<br />
* Griffith University<br />
*
12 1 <br />
Session 1 C: ——<br />
<br />
14:00 KC-05 * <br />
14:40 OC-15 * <br />
15:00 OC-16 * <br />
15:20 OC-17 CO * <br />
15:40 15:55 <br />
15:40 ~ 21:00<br />
<br />
<br />
PA222 - PA442, PB078 - PB153, PC145 - PC289, PD119 -<br />
K: I O<br />
PD235, PE105 - PE208, PF041 - PF080<br />
13:00 21:00
12 2 <br />
Session 1 A: ——<br />
<br />
08:00 KA-08 - * <br />
08:40 OA-29 - * <br />
<br />
09:00 OA-30 UZM-8 * <br />
<br />
09:20 OA-31 * <br />
09:40 09:55 <br />
Session 2 A: ——<br />
<br />
09:55 KA-09 Au Pt <br />
<br />
* <br />
10:35 OA-32 *<br />
*<br />
<br />
10:55 OA-33 * <br />
11:15 OA-34 TiO2 <br />
<br />
*<br />
11:35 OA-35 CO * <br />
Session 1 <br />
<br />
08:00 OE-27 Au/Ni-fiber <br />
<br />
* <br />
08:20 OE-28 Au ZrO2 * <br />
08:40 KE-04 * <br />
09:20 OE-29 <br />
<br />
09:40 09:55 <br />
* <br />
Session 2 <br />
<br />
09:55 OE-30 * <br />
10:15 OE-31 3DOM Ce0.7Zr0.3O2 Au <br />
<br />
* <br />
10:35 OE-32 Benzyl alcohol oxidation over Au-Pd nanoparticles<br />
confined in mesoporous molecular sieves<br />
<br />
<br />
Yuanting Chen<br />
*<br />
Nanyang<br />
Technological<br />
University<br />
10:55 OE-33 AuPd/CMK-5 * <br />
11:15 OE-34 * <br />
K: I O
12 2 <br />
Session 1 A: ——<br />
<br />
08:00 OA-36 * <br />
08:20 OA-37 Pt-Ni/-Al2O3 1, 3 <br />
<br />
* <br />
08:40 OA-38 Fe3O4@CuMgAl-LDH <br />
<br />
* <br />
09:00 OA-39 CO2 * <br />
<br />
*<br />
09:20 OA-40 Mg CeO2 <br />
09:40 09:55 <br />
*<br />
*<br />
<br />
Session 2 A: ——<br />
<br />
09:55 KA-10 <br />
* <br />
<br />
10:35 OA-41 ZSM-5 silicalite-1 <br />
<br />
* <br />
10:55 OA-42 (N-TS-1) * <br />
<br />
11:15 OA-43 P /Ni SiO2 ZSM-5 <br />
<br />
* <br />
11:35 OA-44 * <br />
Session 1 E: ——<br />
<br />
08:00 OE-35 * <br />
08:20 OE-36 TiO2 *,<br />
*<br />
<br />
08:40 OE-37 TiO2 * <br />
<br />
09:00 OE-38 TiO2 <br />
* <br />
<br />
09:20 OE-39 Ag/AgI/Bi2WO6 -<br />
<br />
09:40 09:55 <br />
* <br />
Session 2 A: <br />
<br />
09:55 OA-45 * <br />
10:15 OA-46 TS-1 * <br />
10:35 OA-47 * <br />
10:55 OA-48 CrOx/VOx/meso-MgO: * <br />
11:15 OA-49 <br />
<br />
K: I O<br />
*
12 2 <br />
Session 1 C: ——<br />
<br />
08:00 IC-06 * <br />
08:20 OC-18 Pd Pt/C * <br />
08:40 IC-07 <br />
<br />
* <br />
09:00 OC-19 * * <br />
09:20 OC-20 Pt/C <br />
09:40 09:55 <br />
* <br />
Session 2 C: ——<br />
<br />
09:55 IC-08 Cu/CeO2-MnOx CO <br />
<br />
* <br />
10:15 OC-21 <br />
<br />
* <br />
10:35 IC-09 Pt/Nafion/MMT * <br />
10:55 OC-22 <br />
* <br />
<br />
11:15 OC-23 MnOx-Co3O4 CO * <br />
11:35 OC-24 Ni CH4-CO2 <br />
<br />
* <br />
K: I O
PL-03 2:00 – 3:00<br />
<br />
12 2 <br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
PL-04 3:00 – 4:00<br />
<br />
<br />
—
PA-001<br />
PA-002<br />
PA-003<br />
PA-004<br />
PA-005<br />
PA-006<br />
PA-007<br />
PA-008<br />
PA-009<br />
PA-010<br />
PA-011<br />
PA-012<br />
PA-013<br />
PA-014<br />
PA-015<br />
PA-016<br />
A New Combinatorial Study of Mesoporous Transition-metal-oxide Catalysts: From Ink-jet Printing Synthesis to<br />
Wavelength Analysis Algorithm<br />
Xiaonao Liu, Lei Shi, Yi Shen, Sha Li, Liping Xiao, Jie Fan <br />
Aromatic Nitro-group Hydrogenations with Precious Metal Powder Catalysts - Influence of Modifier on Selectivity<br />
and Activity<br />
Konrad Möbus, , Dorit Wolf, <br />
Brij56 <br />
,,, <br />
CeO2-SiO2 <br />
<br />
CHO-MCFs <br />
,,,,, <br />
CNT Cu-SiO2 <br />
,,, ,, <br />
Cr/AlF3 <br />
,, <br />
CTAB <br />
,,,,,, <br />
CTAB ZnO <br />
,, <br />
CuMnCo/-Al2O3 <br />
,,,,,,, <br />
CuO-ZnO@MCM-41 <br />
,,,,,, <br />
CuO-ZnO-ZrO2 <br />
,,,, <br />
Cu-Zn/AC <br />
, <br />
Cu-Zn-Al/PS <br />
,, <br />
Fe3O4 <br />
,,,,, <br />
Ge Au/TS-1 <br />
,,
PA-017<br />
<br />
HPW <br />
, <br />
PA-018 HZSM-5/<br />
,,, <br />
PA-019<br />
PA-020<br />
PA-021<br />
PA-022<br />
PA-023<br />
PA-024<br />
PA-025<br />
PA-026<br />
PA-027<br />
PA-028<br />
PA-029<br />
PA-030<br />
PA-031<br />
PA-032<br />
MCM-41/ -<br />
,,, <br />
MFI Cu-SiO2 <br />
,, <br />
Mo Raney-Ni Mo <br />
,,,, <br />
N- Pd_C <br />
,,,, <br />
Pd@Co-B <br />
,,,, <br />
PtSnNa/ZSM-5 <br />
,,, , <br />
Raw material effects on organic template-free synthesis of zeolites<br />
Ling Zhang, Shenglin Liu, Sujuan Xie, Longya Xu <br />
Room-temperature synthesis of hollow structured SnO2 catalyst for CO Oxidation<br />
Qingrui Zhao, Li Ke, Jing Feng, Mingsen Zhang <br />
SDBS SO42-/CeO2-SnO2 <br />
*,, <br />
<br />
Selective Hydrogenation of 4,4’-Dinitrostilbene-2,2’-disulfonic Acid (DNS) over Pt-M(M=Zn, Mn, Co, Au, Sn)/C<br />
Catalyst<br />
Feng-Jin TANG, Nan WANG, Gui-Ping CAO <br />
Thermally-Reduced Ru Nanoparticles as Highly Active Heterogeneous Catalysts<br />
, X. S. Zhao <br />
ZSM-34 MTO <br />
,,, <br />
ZSM-5/AlPO4-5 <br />
,, <br />
SiO2 <br />
, <br />
PA-033 /<br />
,,,,, <br />
PA-034<br />
PA-035<br />
Pd 10%Pd/C Pd <br />
,, <br />
SBA-15 <br />
, , , <br />
PA-036 <br />
,,, <br />
PA-037<br />
Fe-ZSM-5 <br />
,,,
PA-038<br />
PA-039<br />
PA-040<br />
3DOM LaMn0.9Fe0.1O3 <br />
,,,, <br />
CuY <br />
,,,, <br />
CuZnAl <br />
,,, <br />
PA-041 <br />
,,,,,, <br />
PA-042 <br />
,, <br />
PA-043<br />
PA-044<br />
PA-045<br />
pH Ru/Ba-MgO <br />
, , , , <br />
- ZrO2-SiO2 <br />
,,,, <br />
Fe3O4 <br />
, <br />
PA-046 <br />
,,, <br />
PA-047<br />
PA-048<br />
PA-049<br />
NaY <br />
,, <br />
, -Al2O3 <br />
,, <br />
Ni <br />
,,,,,, <br />
PA-050 <br />
,,,, <br />
PA-051<br />
NaY <br />
,*, <br />
PA-052 <br />
,,, <br />
PA-053<br />
Cs2O-Sb2O5/SiO2<br />
,, <br />
PA-054 <br />
, <br />
PA-055<br />
Pd Suzuki <br />
,,,, <br />
PA-056 <br />
,, <br />
PA-057<br />
PA-058<br />
Mn/RE <br />
,,,, <br />
Rh-Au CO <br />
,,, <br />
PA-059 Sonogashira
,,,, <br />
PA-060 <br />
<br />
PA-061 <br />
, <br />
PA-062 <br />
<br />
PA-063<br />
PA-064<br />
PA-065<br />
PA-066<br />
Co/SiO2 <br />
, <br />
MoS2 <br />
,,, <br />
CO Ni-Fe <br />
,,, <br />
Ru-B <br />
,,,,, <br />
PA-067 <br />
,,, <br />
PA-068<br />
PA-069<br />
-<br />
,,,,, <br />
Ru/AC <br />
,,, <br />
PA-070 <br />
, <br />
PA-071<br />
PA-072<br />
ZSM-5 <br />
,,, <br />
ZSM-5 <br />
,,,, <br />
PA-073 <br />
,,, <br />
PA-074<br />
pH Mo-V-Te-Nb-O <br />
,, <br />
PA-075 <br />
,, <br />
PA-076<br />
PA-077<br />
PA-078<br />
ZSM-5/MCM-41 <br />
,,,, <br />
Pd/Cr2O3<br />
,,, <br />
Pt/Al2O3 <br />
,, <br />
PA-079 <br />
,, <br />
PA-080 <br />
,
PA-081 <br />
,,,, <br />
PA-082 <br />
,, <br />
PA-083<br />
PA-084<br />
Fe-MFI <br />
, , ,,, <br />
Ni-Al2O3 <br />
,,, <br />
PA-085 <br />
, <br />
PA-086 <br />
,,, <br />
PA-087 <br />
, <br />
PA-088 <br />
,,, <br />
PA-089 <br />
,,,,, <br />
PA-090<br />
Co3O4/Al2O3 <br />
, <br />
PA-091 -<br />
,,,,, <br />
PA-092<br />
PA-093<br />
PA-094<br />
PA-095<br />
Pd <br />
,,, <br />
TiO2 <br />
, <br />
- MCM-48<br />
,, <br />
pH <br />
,,,, <br />
PA-096 <br />
, <br />
PA-097<br />
FCC C4 <br />
, ,, <br />
PA-098 -<br />
,, <br />
PA-099 <br />
,,, <br />
PA-100 <br />
,, <br />
PA-101 <br />
,,, <br />
PA-102 -Mo2C
PA-103<br />
PA-104<br />
<br />
,, ,,, <br />
MFI <br />
,,, <br />
ZSM-5 <br />
,,* <br />
PA-105 <br />
,,,, <br />
PA-106 <br />
, ,,, <br />
PA-107 <br />
,,,, <br />
PA-108 <br />
,,,,, <br />
PA-109 <br />
, <br />
PA-110<br />
Ni-SiO2 <br />
,,,,, <br />
PA-111 <br />
, ,,, <br />
PA-112 <br />
, <br />
PA-113 <br />
,, , <br />
PA-114 <br />
, <br />
PA-115 <br />
,,,,, <br />
PA-116 <br />
,,,,,, <br />
PA-117<br />
PA-118<br />
PA-119<br />
PA-120<br />
PA-121<br />
PtSnNa/ZSM-5 <br />
,,, , <br />
Pd C-S <br />
<br />
Henrry <br />
, <br />
ZSM-5 <br />
,, , ,, <br />
MnOX -CeO2 SCR <br />
,,, <br />
PA-122 <br />
,, <br />
PA-123<br />
- SAPO-11 <br />
,, ()
PA-124<br />
TS-1 <br />
,, <br />
PA-125 <br />
,,, <br />
PA-126 <br />
,,,, <br />
PA-127<br />
PA-128<br />
PA-129<br />
AuPt AuPt/C <br />
,,,, <br />
Pd-Co <br />
,, <br />
Ag/-Al2O3 <br />
,,,, <br />
PA-130 <br />
, ,, <br />
PA-131 <br />
,,, <br />
PA-132<br />
PA-133<br />
PA-134<br />
PA-135<br />
PA-136<br />
PA-137<br />
PA-138<br />
SAPO-31 <br />
,,,, <br />
TS-1 <br />
,, <br />
ZSM-5 <br />
,,, <br />
GICs <br />
,, <br />
ZSM-5 <br />
,, <br />
Ni-PMo12-MCM-41 <br />
,, <br />
MFI <br />
, ,* <br />
PA-139 <br />
,,,, <br />
PA-140 <br />
,, <br />
PA-141 <br />
,,, <br />
PA-142<br />
PA-143<br />
PA-144<br />
Cu <br />
, <br />
Beta <br />
, , <br />
ZSM-5 <br />
,,, <br />
PA-145 2# Al-MCM-41
, <br />
PA-146 <br />
,,,,,, <br />
PA-147<br />
PA-148<br />
PA-149<br />
PA-150<br />
TiO2 <br />
,,,,,, <br />
MgO-Al2O3 <br />
,,,, <br />
CO <br />
,, <br />
SAPO-34 <br />
, <br />
PA-151 <br />
, <br />
PA-152<br />
PA-153<br />
Al2O3 <br />
, <br />
C-SiO2-Al2O3 <br />
, <br />
PA-154 <br />
, <br />
PA-155 <br />
,,, <br />
PA-156<br />
PA-157<br />
Co-Mo <br />
,, <br />
CuO/CeO2-ZrO2 CO <br />
,, , <br />
PA-158 <br />
, ,, <br />
PA-159<br />
A <br />
,, <br />
<br />
PA-160<br />
PA-161<br />
PA-162<br />
PA-163<br />
PA-164<br />
PA-165<br />
“”<br />
, ,,,,,,<br />
<br />
Al-SBA-15 <br />
,,,,, <br />
ZSM-5 <br />
<br />
CNT-Al2O3 <br />
,*,,,,, <br />
CuI/P(OCH2CH3)3 Sonogashira Reaction<br />
,,,,, <br />
Fe-Cu <br />
,,,
PA-166<br />
PA-167<br />
PA-168<br />
PA-169<br />
PA-170<br />
PA-171<br />
<br />
<br />
<br />
Hydrogenation of Polystyrene to Produce Poly(vinylcyclohexane) over Noble Metal Supported Porous Ceramic<br />
Catalyst<br />
Kai-Yue Han, Hao-Ran Zuo, Lei Lu, Jia-Xing Yin, Chen Meng, Wen-Ting Xu, Gui-Ping Cao <br />
Model-aided design of three metals catalyst for selective hydrogenation of cinnamaldehyde<br />
Zhen Guo, Wenjin Yan, Tao Chen, Yanhui Yang <br />
MOF <br />
<br />
MoO3/Al2O3 <br />
,,,,, <br />
MxFe1-xVO4 <br />
,,,, <br />
Ni <br />
,, <br />
PA-172 N-<br />
,,,, <br />
PA-173<br />
PA-174<br />
PA-175<br />
PA-176<br />
PA-177<br />
PA-178<br />
PA-179<br />
PA-180<br />
PdSn@Pt/C <br />
,,,, <br />
PEG CuO-CeO2 <br />
,,, <br />
pH <br />
,,, <br />
Silicalite-1/ZSM-5 <br />
, , , <br />
SnCl2 <br />
, ,, , <br />
Uniform Single-Crystalline Zinc Oxide Nanodisks, Cuprous Oxide Microcrystals with Controlled Morphology and<br />
Their Photocatalytic Activity<br />
Jing Hui Zeng, Bin Bin Jin, Tian Jun Lou <br />
ZSM-23 <br />
,, <br />
ZSM-5@Silicalite-1 <br />
,, <br />
PA-181 <br />
,, <br />
PA-182 <br />
,,, <br />
PA-183<br />
PA-184<br />
CuZnOx/Al2O3 <br />
, , , , <br />
Fe -<br />
,,, <br />
PA-185 <br />
,, <br />
PA-186 /<br />
,,
PA-187 <br />
,,,, <br />
PA-188 <br />
,,,,,, <br />
PA-189<br />
<br />
HZSM-5 <br />
, Roberta Olindo, Johannes A. Lercher <br />
PA-190 <br />
, <br />
PA-191 <br />
,,,, <br />
PA-192 <br />
,,,,,, <br />
PA-193<br />
PA-194<br />
CoMoS/-Al2O3 <br />
<br />
Au/ZrO2 <br />
,,,,, <br />
PA-195 <br />
<br />
PA-196 <br />
,, <br />
PA-197 <br />
, <br />
PA-198<br />
PA-199<br />
PA-200<br />
PA-201<br />
PA-202<br />
PA-203<br />
PA-204<br />
- LaOCl OCM <br />
,,,, <br />
SiC/ZSM-5 <br />
,,, <br />
?-Al2O3 <br />
,, <br />
MTBE <br />
,, <br />
Ru/ZrO2 <br />
,,, ,, <br />
Ni <br />
,,, <br />
N TiO2 <br />
,, <br />
PA-205 <br />
,,, <br />
PA-206<br />
Pt-PdCu/CNT <br />
,,, <br />
PA-207 <br />
, <br />
PA-208 Y
PA-209<br />
PA-210<br />
PA-211<br />
PA-212<br />
,,,, <br />
CH4/CO2 <br />
,,,,, <br />
F-T <br />
,, <br />
Rh-P C6~C10 <br />
, <br />
<br />
<br />
<br />
SBA-16 <br />
,,,, <br />
PA-213 <br />
,,,,, <br />
PA-214 -<br />
,,,, <br />
PA-215 <br />
,,,,, <br />
PA-216 <br />
,,,,, <br />
PA-217<br />
MoVTeNbO <br />
,, <br />
PA-218 /<br />
,,,,, <br />
PA-219<br />
PA-220<br />
PA-221<br />
PA-222<br />
(Salen)Ni <br />
, ,,, <br />
La2O3-MgO <br />
,,,,, <br />
ZSM-5 <br />
,,,,,, <br />
ZSM-5 <br />
,,,,,,, <br />
PA-223 <br />
,,, <br />
PA-224 @<br />
,,, <br />
PA-225 <br />
,,,, <br />
PA-226 <br />
, /<br />
PA-227<br />
Aldol <br />
, <br />
PA-228 <br />
,,, <br />
PA-229 <br />
,,,,
PA-230<br />
PA-231<br />
<br />
ERB-1 <br />
,, <br />
CuO <br />
,,,,,, /<br />
PA-232 <br />
,,,,, <br />
PA-233 <br />
,,,,,, <br />
PA-234<br />
CuO/ CeO2 <br />
,,,,, <br />
PA-235 <br />
,,,, <br />
PA-236<br />
Heck <br />
, ,,, , <br />
PA-237 <br />
,,, <br />
PA-238<br />
PA-239<br />
<br />
,,,,,, <br />
PPh3-Rh/SiO2 <br />
,, ,, <br />
PA-241 <br />
, <br />
PA-242<br />
CTAB -<br />
, <br />
PA-243 <br />
,,, <br />
PA-244<br />
Au <br />
,, <br />
PA-245 <br />
,,,,, <br />
PA-246<br />
PA-247<br />
PA-248<br />
TiO2/<br />
, <br />
“” TiO2 <br />
,,,, <br />
Suzuki <br />
,,,,, <br />
PA-249 <br />
,,,, <br />
PA-250<br />
PA-251<br />
-Fe2O3 <br />
,,,,,, <br />
Au/CeO2 <br />
,,,, <br />
PA-252 Aldol
, <br />
PA-253 <br />
,,,, <br />
PA-254<br />
PA-255<br />
Mo–V–Te–Sb <br />
,,, <br />
Suzuki <br />
,,,,,, <br />
PA-256 <br />
,,,, <br />
PA-257 <br />
, ,, <br />
PA-258 <br />
,,,,,, <br />
PA-259<br />
Sonogashira <br />
,,,, <br />
PA-260 --*<br />
,, <br />
PA-261 <br />
,,,,, <br />
PA-262<br />
EU-1/MCM-41 <br />
,,,,,, <br />
PA-263 -/<br />
,, <br />
PA-264 <br />
,,,,,, <br />
PA-265 <br />
,,,,,,, <br />
PA-266<br />
Ag/AgCl@<br />
, <br />
PA-267 ,<br />
, <br />
PA-268<br />
PA-269<br />
Heck <br />
,,,, <br />
/ Suzuki <br />
,,,, <br />
PA-270 <br />
,,,, <br />
PA-271 <br />
,,,, <br />
PA-272<br />
Pd/Au <br />
, <br />
PA-273 <br />
,,,
PA-274 <br />
,,,, <br />
PA-275 <br />
,,,,, <br />
PA-276 <br />
,,, <br />
PA-277 <br />
/<br />
PA-278<br />
PA-279<br />
<br />
Pd <br />
, <br />
ZSM-5 <br />
,, , <br />
PA-280 ,<br />
,,, <br />
PA-281 <br />
,,,,,,,, <br />
PA-282<br />
<br />
ZSM-5 <br />
,,,,,* <br />
PA-283 <br />
, , <br />
PA-284<br />
PA-285<br />
PA-286<br />
PA-287<br />
PA-288<br />
PA-289<br />
PA-290<br />
3--4-<br />
,,, <br />
AgCeY <br />
,, <br />
Al-ITQ-13 <br />
,,,,, <br />
Au/OMC <br />
,, <br />
Au/PVP-SiO2 <br />
,,,,, <br />
AuAg <br />
,,, <br />
Beta-MCM-48 <br />
,,,, <br />
PA-291 Bi2O3-ZnO-Nb2O5(BZN)<br />
,,, <br />
PA-292<br />
PA-293<br />
Bi2O3 Co3O4 CO <br />
,,,,,, <br />
<br />
Bimetallic Au-Cu/CeO2 catalysts for the WGS reaction<br />
Yusheng She, Xing Fang, Yingying Zhan, Xingyi Lin, Qi Zheng <br />
PA-294 CNx@MO(M=)<br />
,,,
PA-295<br />
PA-296<br />
PA-297<br />
PA-298<br />
PA-299<br />
PA-300<br />
PA-301<br />
PA-302<br />
PA-303<br />
PA-304<br />
PA-305<br />
PA-306<br />
PA-307<br />
PA-308<br />
PA-309<br />
PA-310<br />
PA-311<br />
PA-312<br />
PA-313<br />
PA-314<br />
CoNiSr/Al2O3 <br />
,,,, <br />
Convenient Synthesis of Au/AgBr Core–Shell Nanorods and their Superior Catalytic Properties<br />
Xia Guo, Qiao Zhang, Jian Yang, Renxian Zou, Feng Peng, Hao Yu, HongjuanWang <br />
Fe2O3/In2O3 <br />
,,,,, <br />
Fe2O3 SO42-/SnO2 <br />
, , , <br />
HDS and HDA of LCO using W-Ni/Al2O3 catalysts containing Ti-AlPO4-5<br />
Shoutao Ma, Ye Zhao, Wencheng Zhang <br />
In-B Barbier <br />
,,,,, <br />
<br />
<br />
<br />
Intercalation of Aggregation-Free and Well-Dispersed Gold Nanoparticles into The Walls of Mesoporous Silica as an<br />
Efficient Catalyst for n-Alkanes Oxidation<br />
<br />
MCM-41 <br />
,, ,,, <br />
MCM-41 <br />
,,, <br />
MCM-41 OMS-2 <br />
,,,,, <br />
MgO/h-BN <br />
, ,, <br />
Mg Pt/SAPO-11 <br />
,,,,, <br />
Mn-ZSM-5 KA <br />
,,,, <br />
MOR/Beta <br />
,,, <br />
Nanoparticle/Nanoporous Catalysts for Alcohol Selective Oxidation<br />
<br />
Pd-Ag <br />
,, <br />
Pt/Al2O3@SBA-15 EOPB <br />
,,,, <br />
PtRuNiIr/C <br />
,,,,, <br />
SiO2/RuO2/CNT <br />
,,,,, <br />
Sn-MWW Baeyer–Villiger <br />
,,, <br />
PA-315 SO42-/SnO2—<br />
, ,,
PA-316<br />
PA-317<br />
PA-318<br />
PA-319<br />
PA-320<br />
PA-321<br />
PA-322<br />
PA-323<br />
<br />
SO42-/Zr-SBA-15 <br />
,,,, <br />
The synthesis and hydrodesulfurization performance of supported noble metal phosphides RuP and Ru2P<br />
Xiaoqian Yin, Linxi Zhou, Yan Cai, Minghui Zhang <br />
TiO2 CeO2 Ni2P <br />
,,, <br />
USYASA <br />
,,,,, <br />
Y/ASA <br />
,,,,, <br />
Y-SAPO4-5 <br />
,,, <br />
-Al2O3 <br />
,, <br />
MOF <br />
, <br />
PA-324 <br />
,,**,, <br />
PA-325<br />
PA-326<br />
PA-327<br />
Ag-Cu <br />
,,,,, <br />
ITQ-6 <br />
,,,, <br />
Beta-MCM-48 <br />
,,,, <br />
PA-328 <br />
,,,,,,, <br />
PA-329<br />
PA-330<br />
TiO2 <br />
,,,,, <br />
TS-1<br />
, <br />
PA-331 <br />
,, <br />
PA-332<br />
PA-333<br />
PA-334<br />
PA-335<br />
PA-336<br />
Ti-Fe-MCM-41 <br />
,,, <br />
Bi2WO6 <br />
,,, <br />
BINAPO <br />
, , , <br />
Cu3BiS3 <br />
,,,,, <br />
ZSM-5 <br />
,, <br />
PA-337 CuZnTi
,,,, <br />
PA-338 <br />
,,,, <br />
PA-339<br />
PA-340<br />
BiOI 3D <br />
, <br />
Fe@CNT <br />
,, ,, <br />
PA-341 <br />
, <br />
PA-342 <br />
,, <br />
PA-343 <br />
,, <br />
PA-344 <br />
,,, <br />
PA-345 <br />
,,,, <br />
PA-346 <br />
,** <br />
PA-347<br />
PA-348<br />
P123 <br />
,, <br />
Pt <br />
, <br />
PA-349 <br />
,,,, <br />
PA-350<br />
Grubbs RCM <br />
,,, <br />
PA-351 <br />
,,, <br />
PA-352<br />
Beta <br />
,, <br />
PA-353 <br />
,,,,, <br />
PA-354 <br />
,,,,, <br />
PA-355<br />
PA-356<br />
PA-357<br />
PA-358<br />
Y <br />
,, <br />
Ni@MOCP <br />
,, <br />
<br />
,,,, <br />
Ru/MgO-CeO2 <br />
, ,,,,
PA-359<br />
PA-360<br />
PA-361<br />
<br />
Au/FeOx-HAP <br />
,,,, <br />
SBA-15 NiBr2(PPh3)2 MMA ATRP <br />
,,,* <br />
Y <br />
,,,, <br />
PA-362 <br />
,,,,, <br />
PA-363<br />
Mn (II)-<br />
,,,,, <br />
PA-364 -<br />
,,,, <br />
PA-365 <br />
,, <br />
PA-366<br />
MCM-41 <br />
,,,, <br />
PA-367 <br />
,,,,, <br />
PA-368<br />
Pt <br />
,,, <br />
PA-369 <br />
,,,, <br />
PA-370<br />
PA-371<br />
PA-372<br />
TS-1 <br />
,, <br />
CO <br />
,,Ferdi Schthb, <br />
Co3O4-CeO2 CO <br />
,, <br />
PA-373 <br />
,,, <br />
PA-374 -<br />
,, <br />
PA-375 -<br />
, , <br />
PA-376 <br />
,,, <br />
PA-377 <br />
,,,, <br />
PA-378<br />
PA-379<br />
Cr/ZSM-5 CO2 <br />
, , , <br />
EU-1/ZSM-5 <br />
,, <br />
PA-380 Al-SBA-15
PA-381<br />
,, <br />
ZSM-5 <br />
,,,, <br />
PA-382 <br />
,,, <br />
PA-383 —<br />
<br />
PA-384 <br />
,,,,, <br />
PA-385<br />
PA-386<br />
PA-387<br />
PA-388<br />
PA-389<br />
PMO-<br />
,,,, <br />
ZK-1<br />
, , <br />
<br />
<br />
<br />
1-<br />
,,,,,, <br />
Ship-in-bottle RuO2 <br />
, <br />
MoS2/-Al2O3 <br />
,,,,, <br />
PA-390 <br />
, ,, <br />
PA-391 <br />
,,, <br />
PA-392<br />
PA-393<br />
PA-394<br />
MOF <br />
, <br />
Ni3V2O8 <br />
, <br />
ZSM-5 <br />
,,, <br />
PA-395 <br />
,,, <br />
PA-396 <br />
,,,, <br />
PA-397<br />
ZSM-5 <br />
,,, <br />
PA-398 <br />
,,,, <br />
PA-399<br />
DAY <br />
, <br />
PA-400 <br />
,, <br />
PA-401 <br />
,,
PA-402<br />
PA-403<br />
PA-404<br />
<br />
-Fe2O3 <br />
, <br />
LaMnO3 <br />
,,,,,, <br />
Y <br />
<br />
PA-405 -<br />
,,, <br />
PA-406 <br />
,,,, <br />
PA-407 <br />
,,,,,, <br />
PA-408<br />
MnOx-CeO2 CO <br />
,, <br />
PA-409 <br />
, <br />
PA-410<br />
PA-411<br />
PA-412<br />
PA-413<br />
PA-414<br />
PA-415<br />
<br />
,, , <br />
AlPO4-5/Al2O3 <br />
,, <br />
/TiO2 <br />
,,,,* <br />
/ MCM-41 <br />
,, <br />
TiO2 <br />
,,,,,, <br />
SAS <br />
,,,, <br />
PA-416 <br />
,,,, <br />
PA-417 <br />
,,,,, <br />
PA-418<br />
Zr-P-Al <br />
,,, <br />
PA-419 <br />
, <br />
PA-420 <br />
,,,, <br />
PA-421<br />
PA-422<br />
La, Ce, Y SnO2 *<br />
,,,,, <br />
Ziegler-Natta <br />
,, <br />
PA-423
,,,, <br />
PA-424 <br />
,, <br />
PA-425 ,<br />
<br />
PA-426 <br />
, <br />
PA-427 <br />
, <br />
PA-428 <br />
,, <br />
PA-429 <br />
,,, <br />
PA-430<br />
ZSM-5 <br />
, ,, <br />
PA-431 <br />
,, <br />
PA-432<br />
Mn(III)/ SBA-15 <br />
,,, <br />
PA-433 <br />
,,,, <br />
PA-434 <br />
,, <br />
PA-435<br />
CTAB NiMoS <br />
,,,, <br />
PA-436 <br />
,,,,,, <br />
PA-437 <br />
,,,, <br />
PA-438<br />
PA-439<br />
PA-440<br />
PA-441<br />
PA-442<br />
<br />
<br />
<br />
-P123 <br />
,,, <br />
<br />
<br />
<br />
CO2 Cr <br />
, ,,, <br />
<br />
NiMo/Al2O3 <br />
,,,, (<br />
CeO2 Au/CeO2 <br />
,,, <br />
Cu2O/MWCNTs
PB-001<br />
PB-002<br />
PB-003<br />
PB-004<br />
PB-005<br />
PB-006<br />
PB-007<br />
PB-008<br />
PB-009<br />
PB-010<br />
PB-011<br />
PB-012<br />
PB-013<br />
PB-014<br />
PB-015<br />
PB-016<br />
PB-017<br />
PB-018<br />
PB-019<br />
PB-020<br />
<br />
Ag6Mo10O33 <br />
,,, <br />
Au PVP Au@Cu2O AuCu <br />
, <br />
BaO Ru/MgO CO <br />
,,**,, <br />
C8A NH3 <br />
, ,,, <br />
CO2 CuO-ZnO-TiO2 <br />
,, <br />
Effect of reaction mixtures on Al distribution in ZSM-5<br />
Guoliang Zhao,Jie Zhu,Xuebing Li,Johannes A. Lercher <br />
EPR N <br />
,,,, <br />
FCC CO <br />
,,, <br />
FeTiOx XAFS <br />
,,,,,<br />
<br />
Fe CuZnMn <br />
,, <br />
Grafting Ti/BMMs <br />
,, <br />
<br />
HZSM-5 <br />
, , , , , <br />
Improved sulfated vanadia-based catalysts for the selective oxidation of methanol to dimethoxymethane<br />
Hongying Zhao,Simona Bennici, Aline Auroux <br />
In situ DRIFTS SCR <br />
,,, <br />
La, Ce Ni@SiO2 <br />
,,,, <br />
MoVTeO M2 Te <br />
, ,, <br />
NH3.H2O TS-1 <br />
,,, <br />
NiAl-HTLcs <br />
, <br />
Pt/Al2O3 Ir/SiO2 <br />
,,,,,, <br />
Pt/CeO2 Pt/NaCl/ZrO2 <br />
,,,, <br />
PB-021 Pt-M (M= 3d-) CO
PB-022<br />
PB-023<br />
PB-024<br />
PB-025<br />
PB-026<br />
PB-027<br />
PB-028<br />
,, <br />
RIPP 3D-TEM <br />
,,,, <br />
SAPO-46 MTO <br />
,,, <br />
SO42-/TiO2 <br />
,, <br />
Z-N EB MgCl2 <br />
,,,,, <br />
ZSM-5 <br />
, <br />
Ru/Al2O3 <br />
,,,,, <br />
V-Mo-O <br />
,,,,, <br />
PB-029 <br />
,, <br />
PB-030 <br />
,,, <br />
PB-031<br />
PB-032<br />
Pt/Al2O3 <br />
,,,, <br />
SAPO-34 <br />
,,,, <br />
PB-033 <br />
,, , , , <br />
PB-034<br />
HTiNbO5HNbMoO6 HNbWO6 <br />
,,, <br />
PB-035 /<br />
,,,, <br />
PB-036 <br />
,, <br />
PB-037<br />
XRD ZSM-5 <br />
**, <br />
PB-038 <br />
,,, <br />
PB-039 <br />
,,,,, <br />
PB-040 <br />
,, <br />
PB-041<br />
Y-MCM-41 <br />
, <br />
PB-042 <br />
,,,
PB-043<br />
PB-044<br />
<br />
X <br />
, ,, <br />
<br />
M-SiW12/SiO2(M = Ru, Rh, Pd, Ir, Pt, Ni, Cu)<br />
,, <br />
PB-045 <br />
,,,,, <br />
PB-046<br />
PB-047<br />
CO <br />
,,,, <br />
Pt/TiO2 C3H6 NOx in situ FTIR <br />
,,, <br />
PB-048 <br />
, , , <br />
PB-049 <br />
,,, <br />
PB-050<br />
PB-051<br />
PB-052<br />
PB-053<br />
PB-054<br />
PB-055<br />
HZSM-5 <br />
<br />
Raman <br />
,,, <br />
Fe N2O <br />
a,,,, <br />
Operando Raman <br />
,,,,, <br />
8-VI,<br />
,,, <br />
AlPO-11 <br />
,,,,, <br />
PB-056 <br />
, <br />
PB-057<br />
CeO2 <br />
, <br />
PB-058 --<br />
,,, <br />
PB-059<br />
CO <br />
,, <br />
PB-060 <br />
,,, <br />
PB-061 <br />
,Aline Auroux <br />
PB-062 <br />
,, <br />
PB-063 <br />
, <br />
PB-064 FCC
PB-065<br />
PB-066<br />
,, <br />
Pd-Ag/Al2O3 Pd/Al2O3 <br />
,,, <br />
XAFS <br />
<br />
<br />
PB-067<br />
PB-068<br />
PB-069<br />
PB-070<br />
PB-071<br />
PB-072<br />
PB-073<br />
PB-074<br />
PB-075<br />
PB-076<br />
PB-077<br />
PB-078<br />
PB-079<br />
PB-080<br />
PB-081<br />
PB-082<br />
“”<br />
,,,, <br />
Au/Al2O3 CO 1,3-<br />
,,, <br />
CO Oxidation at Surface Defect Sites over CeO2 Surfaces<br />
Yang-Gang Wang, Yadong Li, and Jun Li <br />
CO2 Ni <br />
, <br />
CO <br />
,,,, <br />
H-ZSM-5 DMC <br />
,,, <br />
Ir(111)<br />
,, , ,, <br />
Mo-V-Bi-O/AlPO4 <br />
, , <br />
MTO <br />
,,, <br />
NH3 V2O5 <br />
,, <br />
Pt/Al2O3 <br />
,,,,, <br />
Rh2-(esp)2 C-H <br />
,,, <br />
<br />
<br />
<br />
The active structure, catalytic activity and self-cycle mechanism of tungsten peroxo complexes for the green<br />
oxidation of cyclohexene: A combined computational and experimental study<br />
Peng Jin, Donghui Wei, Yiqiang Wen, Huijuan Wei, Mingsheng Tang, Xiangyu Wang <br />
TiO2 <br />
, <br />
Ti PhillipsCrO3/SiO2<br />
, ,, <br />
V2O5 NH3 SCO<br />
,,, <br />
PB-083 <br />
,, <br />
PB-084 <br />
,,
PB-085 <br />
,,,, <br />
PB-086<br />
PB-087<br />
<br />
MTP <br />
,,,, <br />
Mo <br />
*,, , , <br />
PB-088 <br />
, <br />
PB-089<br />
CuFe2O4 CO2 <br />
, <br />
PB-090 <br />
,,,,,, <br />
PB-091 <br />
,,,,, <br />
PB-092 <br />
,,,,, <br />
PB-093 <br />
,,,, <br />
PB-094 <br />
, <br />
PB-095 <br />
,,, <br />
PB-096<br />
<br />
,,, <br />
<br />
PB-097 <br />
,,Nathan J. Deyonker,,,,, David Lee Phillips<br />
PB-098 <br />
,,,,, <br />
PB-099<br />
Fe/ZSM-5 <br />
,,, <br />
PB-100 <br />
,,,, <br />
PB-101<br />
PB-102<br />
CO2 <br />
,,,,Carol Creutz,Etsuko Fujita <br />
MoS2/-Al2O3 <br />
,,,, <br />
PB-103 <br />
,,,, <br />
PB-104<br />
Mo/HBeta <br />
,,,,, <br />
PB-105 <br />
,
PB-106<br />
PB-107<br />
Pd6/Au111<br />
,,,,, <br />
C-H /<br />
,,, <br />
PB-108 <br />
,,,, <br />
PB-109 <br />
,, <br />
PB-110 <br />
,,,, <br />
PB-111 <br />
,,,,, <br />
PB-112 <br />
,,,,, <br />
<br />
PB-113<br />
Ag CeO2(111)<br />
,,,, <br />
PB-114 CeO2(110)<br />
,, <br />
PB-115<br />
PB-116<br />
PB-117<br />
COH2 Co(0001)<br />
,,,, <br />
CO2 MgO <br />
,,, <br />
Copper and Gold Clusters Adsorption on -alumina Surfaces<br />
Gang Feng, Maria Verónica Ganduglia-Pirovano,Chun-Fang Huo,Haijun Jiao,Joachim Sauer<br />
<br />
PB-118 Fe(111)<br />
,, <br />
PB-119<br />
PB-120<br />
PB-121<br />
PB-122<br />
PB-123<br />
PB-124<br />
PB-125<br />
Fe3C CxHy <br />
,, <br />
Fe5C2010 H2O <br />
,, <br />
H2O Co(0001)<br />
,,,,,, <br />
H2 FeS2 <br />
,, <br />
Rh/Cu(111) C2 <br />
, <br />
SAPO-34 MTO <br />
,,,, <br />
TiO2-CeO2 <br />
, , <br />
PB-126 XPS
PB-127<br />
PB-128<br />
PB-129<br />
<br />
, <br />
/ Ullmann <br />
,,, <br />
ZSM-5 Monte Carlo <br />
,,, <br />
1,2-<br />
,, <br />
PB-130 <br />
,, <br />
PB-131 <br />
,,,,, <br />
PB-132<br />
PB-133<br />
Pd-Au -<br />
,,,,, <br />
DFT volcano <br />
,, <br />
PB-134 <br />
,,, <br />
PB-135 <br />
,, <br />
PB-136 <br />
,, <br />
PB-137<br />
PB-138<br />
PB-139<br />
PB-140<br />
PB-141<br />
PB-142<br />
PB-143<br />
PB-144<br />
ONIOM (XO)<br />
,,,, <br />
<br />
NO2 Au(997)<br />
, , , , , , ,, <br />
CO2 CH4 -Al2O3 <br />
,,, <br />
RTH <br />
,, <br />
B <br />
, <br />
Mo10S18 Mo <br />
,,,,, <br />
Y <br />
,,,, <br />
LaSrO3 DFT <br />
, <br />
PB-145 <br />
, , <br />
PB-146<br />
Y Lewis <br />
,,,,,, <br />
PB-147
PB-148<br />
, ,,, <br />
V DFT <br />
, ,,,, <br />
PB-149 <br />
, ,,,, <br />
PB-150<br />
PB-151<br />
PB-152<br />
Raman MoVTeO TeOx <br />
, ,, <br />
Fe3O4 <br />
, <br />
CdS <br />
<br />
PB-153 <br />
<br />
<br />
<br />
PC-001<br />
PC-002<br />
PC-003<br />
A Sr1+xCo0.8Fe0.2O3-d? (x=-0.2?+0.2) <br />
,, <br />
Au/CexZr1-xO2 <br />
,, <br />
b MFI <br />
, <br />
PC-004 Cd1-xGaxS<br />
,, Hong Kong Baptist University<br />
PC-005<br />
PC-006<br />
PC-007<br />
PC-008<br />
PC-009<br />
PC-010<br />
PC-011<br />
PC-012<br />
PC-013<br />
CeO2 Ir <br />
,,,C. Mirodatos, <br />
Co/La2O3 <br />
, , <br />
Co-Ce/Al2O3 <br />
,, , <br />
Co-Pt/CNT CO <br />
,,, <br />
CuO/CeO2 <br />
,,,, <br />
Cu- N-<br />
,, <br />
DMFC Pt/RuO2-MnO2/CNT <br />
,,,,,, <br />
DMFC Pd CNTs <br />
,, <br />
H2S Ni/MgO/Al2O3 <br />
, , , <br />
<br />
<br />
<br />
PC-014 Highly Dispersed Pt Nanoparticles on Multi-Wall Carbon Nanotubes (MWCNTs) and Their Hydrogen Storage
PC-015<br />
PC-016<br />
PC-017<br />
PC-018<br />
PC-019<br />
PC-020<br />
PC-021<br />
PC-022<br />
PC-023<br />
<br />
Applications<br />
Yong-Ming Dai and Jih-Mirn Jehng National Chung Hsing University<br />
Ni/Mg(Al)O <br />
,,, <br />
Ni-Cu-Ce-O CO <br />
, <br />
Pd/C <br />
,,,, <br />
Pt-CeO2/CNTs <br />
,,, <br />
Ptm^Au/C <br />
,,,, <br />
Pt-Ni/MgO--Al2O3 <br />
,, <br />
Pt <br />
,, <br />
Reformer design for low CO hydrogen fuel of fuel cell power generation<br />
Harvey H. F. Wang, S.C. Chen, S.Y. Yang and M. H. Rei Chang Gung University<br />
Ru <br />
,,, <br />
PC-024 <br />
,,, <br />
PC-025 /<br />
,,,, <br />
PC-026<br />
PC-027<br />
PC-028<br />
Co CuFe2O4 DME-SR <br />
, <br />
MnO2/CNT <br />
,,,, <br />
Ir *<br />
,,,,,, <br />
PC-029 <br />
,, <br />
PC-030<br />
Ni-CeO2/Al2O3 <br />
,,, <br />
PC-031 <br />
, , , , <br />
PC-032 -<br />
,, <br />
PC-033<br />
PEMFC <br />
,,,,,, <br />
PC-034 <br />
,,, <br />
PC-035
PC-036<br />
, , ,,,,<br />
<br />
Li2BNH6 <br />
,,, ,,, <br />
PC-037 <br />
,,,, <br />
PC-038<br />
Ln-V- O(Ln=Y, Gd)<br />
,,,, <br />
PC-039 <br />
, <br />
PC-040 <br />
,,, <br />
PC-041<br />
PC-042<br />
<br />
<br />
<br />
The use of the catalytic cracking of methane to produce graphitic nanocarbons and hydrogen with no CO2 emission<br />
Weike Zhang, Guanghuan Liu, Lizhen Gao,*, Andrew Cornejo, Hui-Tong Chua, Colin Raston<br />
<br />
Cu-Ce-O <br />
,,,, <br />
PC-043 <br />
,,,,, <br />
PC-044 <br />
,,, <br />
PC-045 <br />
<br />
PC-046 <br />
,,, <br />
PC-047 -<br />
,,,,, <br />
PC-048<br />
PC-049<br />
CeO2-ZnO <br />
,,,, <br />
Pt <br />
,,,, <br />
PC-050 <br />
,,,, <br />
PC-051<br />
PC-052<br />
PC-053<br />
PC-054<br />
PtRuMo <br />
,,,, <br />
Pt/C <br />
,, <br />
CO <br />
,,, <br />
CO <br />
, , <br />
PC-055 <br />
,,,
PC-056<br />
PC-057<br />
PC-058<br />
PC-059<br />
PC-060<br />
<br />
Ni/CexZr1-xO2 <br />
,, <br />
Nafion <br />
, , <br />
Co-PPy/C <br />
,*,, <br />
Pt(NO3)2 Pt/C <br />
,, <br />
Pd-Co/C <br />
,, <br />
PC-061 <br />
,,,,,, <br />
PC-062 <br />
,, <br />
PC-063 <br />
<br />
PC-064 <br />
, <br />
PC-065 <br />
,, <br />
PC-066 <br />
, <br />
<br />
PC-067<br />
PC-068<br />
PC-069<br />
PC-070<br />
PC-071<br />
PC-072<br />
PC-073<br />
PC-074<br />
PC-075<br />
PC-076<br />
Br?nsted <br />
,, <br />
Catalytic Conversion of Renewable Oils into Diesel-like Hydrocarbons<br />
Hui Lou, Junxing Han, Xiaoming Zheng <br />
Ca Ir/La2O3 <br />
,,,, <br />
Cu/MgO 1,2-<br />
,,,,,, <br />
Cu/SiO2-Al2O3 3-<br />
,,, <br />
Cu-Ce/HZSM-5 <br />
,,,,, <br />
Cu 1,2-<br />
,,,,, <br />
Cu <br />
,, , <br />
Hydrotreatment of sunflower oil over different Pd catalysts<br />
Jinzhao Duan , Junxing Han, Hui Lou <br />
Keggin <br />
,,,
PC-077<br />
PC-078<br />
PC-079<br />
PC-080<br />
PC-081<br />
PC-082<br />
PC-083<br />
PC-084<br />
PC-085<br />
PC-086<br />
PC-087<br />
PC-088<br />
PC-089<br />
PC-090<br />
PC-091<br />
PC-092<br />
PC-093<br />
PC-094<br />
Mo RQ NiMo 1,2-<br />
,,, <br />
Na2HPO4 NaY <br />
, , , , , <br />
Ni/CexGd1-xO2 <br />
,,, <br />
Ni/MgO CO2 <br />
,, <br />
<br />
<br />
<br />
One-pot synthesized mesoporous Ca/SBA-15 solid base for transesterification of sunflower oil with methanol<br />
Hui Sun, Hui Lou, and Xiaoming Zheng <br />
Pd/C <br />
,, <br />
Pt/SBA15-PrSO3H :<br />
,,,, <br />
PVA —<br />
,,, , , <br />
Ru-Re <br />
, <br />
Ru :<br />
, <br />
S2O82-/ZrO2-SiO2 <br />
<br />
SO42-/ZrO2 <br />
,,, <br />
Synthesis of Supported Nanoparticles using Supercritcial CO2 and Application for Transformation of<br />
Biomass-derived Monomers<br />
Fei Qin, Kai Yan, Junwei Wang, Maoqing Kang, Yulei Zhu,Nils Theyssen and Walter Leitner<br />
<br />
Transesterification of sunflower oil to biodiesel on ZrO2-La2O3 mixed oxide as a solid basic catalyst<br />
Yuqi Ding, Hui Lou, and Xiaoming Zheng <br />
Upgrading of high-boiling components of bio-oil in super-critical methanol<br />
Wang Li, Chunyan Pan, Zhen Liu, Hui Lou<br />
Institute of Catalysis, Department of Chemistry, Zhejiang University<br />
ZrO2 <br />
,,, <br />
-Al2O3 <br />
,,,,,,, <br />
5-<br />
,, <br />
PC-095 <br />
, , <br />
PC-096<br />
CaO, Ca(OH)2,Ca(NO3)2 CaCO3 <br />
, , <br />
PC-097 NiMo/Ti(Zr)-Al2O3
,, , , <br />
PC-098 <br />
<br />
PC-099 <br />
,,,, <br />
PC-100<br />
PC-101<br />
PC-102<br />
Cu-Cr <br />
,,, <br />
KF/HTlcs <br />
,, <br />
C-O C-C <br />
,,,,, <br />
PC-103 <br />
,,,,, <br />
PC-104<br />
<br />
,,,,,,,,,,<br />
<br />
PC-105 <br />
,,, <br />
PC-106 <br />
,,, , , <br />
PC-107 <br />
,, <br />
PC-108 <br />
, ,, <br />
PC-109 <br />
, , <br />
PC-110<br />
Co/SiO2 1,2-<br />
,,, <br />
PC-111 <br />
, , , <br />
PC-112 <br />
,,,,, <br />
PC-113<br />
5-<br />
,,, <br />
PC-115 <br />
,,,,, <br />
PC-116 <br />
,,,,, <br />
PC-117<br />
-<br />
,, <br />
PC-118 <br />
,,, <br />
PC-119
,, , , <br />
PC-120 <br />
, , , , <br />
PC-121 <br />
,,,,, <br />
PC-122 <br />
,,, <br />
PC-123 <br />
, Esben Taarning, Bodil Voss, Finn Joensen Haldor Topsoe A/S<br />
PC-124 <br />
, ,, <br />
PC-125<br />
ZnCl2 <br />
,,, <br />
PC-126 <br />
,, <br />
PC-127 <br />
,, <br />
PC-128 <br />
,, <br />
PC-129 <br />
,,,,,, <br />
PC-130<br />
PC-131<br />
Cu/FeOX/SiO2 <br />
, <br />
5-<br />
,, , <br />
PC-132 <br />
,,, <br />
PC-133 <br />
,,, <br />
PC-134 <br />
,,,,,,,, <br />
<br />
PC-135<br />
PC-136<br />
PC-137<br />
PC-138<br />
PC-139<br />
, CuNi/Al2O3 <br />
<br />
Brnsted <br />
,,,, <br />
C4 <br />
, , <br />
CeO2 Ni2P <br />
,,, <br />
Ce Ni2P/SBA-15 <br />
,,,,,
PC-140<br />
PC-141<br />
PC-142<br />
PC-143<br />
PC-144<br />
PC-145<br />
PC-146<br />
PC-147<br />
PC-148<br />
PC-149<br />
PC-150<br />
PC-151<br />
PC-152<br />
PC-153<br />
<br />
Cr/MSU-1 CO2 50ml<br />
, ,, <br />
FCC Y <br />
, ,,, , <br />
Fe Pt/KL n-C6 <br />
,,,,,,, <br />
HPMoTiO2 <br />
,,, <br />
Ni/ZnO S-XANES <br />
,,,,, <br />
Preparation and catalytic performance of CHC-20 hydrocracking catalyst<br />
Ma shoutao, Guo shuzhi, Dai baoqin, Zhang wanyi, Li Ruifeng <br />
Ru/SO42-/TiO2 <br />
,,,,,,,,, <br />
Study and Applications of Nano Hydrorefining Catalyst for Pyrolysis Gasoline<br />
Yuanlin Cheng, Kangjian Tang, Junhua Zhu, Siqin Li, Xiaohong Yuan,and Yi Tang<br />
<br />
Ti <br />
,,, <br />
WO3/ZrO2 SO42-/ZrO2 <br />
,,, <br />
XTL-6 <br />
, , <br />
ZSM-12 <br />
,,,, <br />
ZSM-22 <br />
,,,, <br />
ZSM-57 <br />
, , <br />
PC-154 <br />
, , ,,, <br />
PC-155<br />
SO2 <br />
,,, <br />
PC-156 <br />
,, <br />
PC-157<br />
PC-158<br />
D001-cc <br />
, ,,,, <br />
Ni/Al2O3 <br />
,, <br />
PC-159 <br />
, , , , <br />
PC-160 <br />
,,,,,
PC-161<br />
<br />
,,,,,,,,<br />
<br />
PC-162 <br />
,,, <br />
PC-163 <br />
,,,,,, <br />
PC-164<br />
PC-165<br />
NiO <br />
,,,,,, <br />
L FCC <br />
,,,,,,, <br />
PC-166 <br />
, , <br />
PC-167<br />
PC-168<br />
HDS <br />
,, ,, <br />
ZSM-5 <br />
,,,, <br />
PC-169 <br />
,, <br />
PC-170 <br />
,,,,, <br />
PC-171 <br />
, , , <br />
PC-172 <br />
,,,,, <br />
PC-173<br />
PC-174<br />
ZSM-5 <br />
,,,,, <br />
SAPO-31 <br />
,, ,, <br />
PC-175 <br />
,*,,,,,, <br />
PC-176<br />
MoO3/SiO2 <br />
,,, <br />
PC-177 <br />
,,,,, <br />
PC-178<br />
PC-179<br />
PC-180<br />
PC-181<br />
CoMoHZSM-5 <br />
,,,,, <br />
GaHZSM-5 <br />
,,,, <br />
EU-1 <br />
,,, <br />
PtSnNa/ZSM-5 <br />
,,,,,
PC-182 <br />
,, <br />
PC-183<br />
PC-184<br />
<br />
ZSM-5 <br />
,,,,,,, <br />
FCC <br />
, , , <br />
PC-185 ,<br />
,,, <br />
PC-186<br />
PC-187<br />
ZSM-5 <br />
,,,,, <br />
FCC <br />
,,,,,, <br />
<br />
PC-188<br />
PC-189<br />
PC-190<br />
PC-191<br />
PC-192<br />
PC-193<br />
PC-194<br />
PC-195<br />
PC-196<br />
PC-197<br />
PC-198<br />
PC-199<br />
PC-200<br />
PC-201<br />
<br />
1-butene metathesis and isomerization reaction over Mo/HMOR-Al2O3 catalyst: Factors influencing product<br />
distribution and reaction induction period<br />
Xiujie Li, Dazhou Zhang, Xiangxue Zhu, Shengjun Huang, Shenglin Liu, Longya Xu <br />
<br />
AlF3 HZSM-5 <br />
,,, <br />
AlPO-18 Si SAPO-18 <br />
,,,,, <br />
Ce <br />
,,,, <br />
Cl <br />
,, <br />
Co2C CO <br />
, , , , <br />
CO2 <br />
,,, <br />
Co-M/ZSM-5 Fischer-Tropsch <br />
,,,,,,, <br />
CoZr/HZSM-5 <br />
,,,,,, <br />
Cu CO2 <br />
, , <br />
Fe(CO)5 <br />
,,,, <br />
Fe1-xO <br />
,,,, , <br />
Fe2O3-Al2O3 <br />
,, <br />
FT Co-Y <br />
,,
PC-202<br />
PC-203<br />
PC-204<br />
PC-205<br />
PC-206<br />
PC-207<br />
PC-208<br />
PC-209<br />
PC-210<br />
PC-211<br />
PC-212<br />
PC-213<br />
PC-214<br />
PC-215<br />
PC-216<br />
PC-217<br />
PC-218<br />
PC-219<br />
PC-220<br />
F-T TPR<br />
,,,, <br />
H2/CO Fe-Zn-Cu-K /SiO2 <br />
,,,,, <br />
K2O Cu/MgO-La2O3 <br />
,,,,, <br />
La1-xBaxFeO3 (x=0, 0.1, 0.2, 0.5)<br />
, <br />
MgO Ni-Mo/SBA-15 CH4-CO2 <br />
,, <br />
Mg CO <br />
,,,,, <br />
Mn Fe/CNT CO <br />
,,,, <br />
Mo-Ga <br />
,,, <br />
Ni-MgO-Al2O3-CeO2 CH4-CO2 <br />
,,, <br />
Ni-Mg-ZrO2 <br />
, , , , <br />
POM / Ni <br />
, , <br />
Ru/CNT Ru <br />
,,,,, <br />
Si/Al <br />
,,, <br />
SiO2 Rh-Mn-Li/SiO2 CO <br />
,,,, <br />
TeMo5O16 <br />
,,, <br />
<br />
<br />
ZrO2 CO2 <br />
,,, <br />
ZrO2 <br />
,, <br />
ZrO2 <br />
,,, <br />
PC-221 <br />
,,, <br />
PC-222<br />
F-T <br />
,,,, <br />
PC-223 Cu-Mg-Ce
PC-224<br />
PC-225<br />
PC-226<br />
PC-227<br />
<br />
, <br />
CoZr/MFI -<br />
,,,,,, <br />
Fe/SiO2 <br />
, ,,,,, <br />
Ni CO2 <br />
,,<br />
SiO2 <br />
, <br />
PC-228 <br />
,,,, <br />
PC-229<br />
Ni/Al2O3 CO2 <br />
, , , , <br />
PC-230 <br />
,,, <br />
PC-231<br />
Co/Al2O3 POM <br />
,,,,, <br />
PC-232 <br />
,, <br />
PC-233<br />
ZSM-5 MTA/MTG <br />
, , <br />
PC-234 <br />
,, , , <br />
PC-235<br />
PC-236<br />
F-T <br />
,,,,,, <br />
Brnsted <br />
,,, <br />
PC-237 -<br />
, <br />
PC-238 <br />
,,,, <br />
PC-239<br />
FeMnK <br />
,, <br />
PC-240 <br />
,, <br />
PC-241 <br />
,, <br />
PC-242<br />
PC-243<br />
LPG DME <br />
, , <br />
Ni <br />
,, <br />
PC-244 -<br />
,,,,, ,,,
PC-245<br />
PC-246<br />
Zn <br />
,,,,,, <br />
Fe/Cu <br />
, , ,,, <br />
PC-247 <br />
,,,,,,,,, <br />
PC-248<br />
DMM VOx/TiO2 <br />
,,,, , <br />
PC-249 <br />
, <br />
PC-250 <br />
,,,, <br />
PC-251<br />
PC-252<br />
PC-253<br />
W-Mn/SiO2 1000ml <br />
,,,, <br />
PtSnK/Al2O3 <br />
,,,, <br />
NiO <br />
,, <br />
PC-254 <br />
,,,, <br />
PC-255<br />
MoVTeNbO M1 <br />
, ,, <br />
PC-256 <br />
,,, <br />
PC-257 <br />
,,,, <br />
PC-258 <br />
, <br />
PC-259<br />
PC-260<br />
NiO <br />
,,,, <br />
Rh/SiO2 <br />
,, <br />
PC-261 <br />
,,,, <br />
PC-262 <br />
,,,, <br />
PC-263<br />
PC-264<br />
PC-265<br />
F-T <br />
,,,, <br />
H[Zn, Al]ZSM-5 <br />
,,,, , <br />
ZSM-5 <br />
, ,,, , , <br />
PC-266 ZSM-5
PC-267<br />
PC-268<br />
PC-269<br />
PC-270<br />
<br />
,,,, , <br />
Cu/SiO2 <br />
,,,, <br />
KIT-6 <br />
, <br />
Co/ZrO2 -<br />
,, <br />
CO2 <br />
, <br />
PC-271 <br />
,,, <br />
PC-272<br />
PC-273<br />
Pt-Sn/Al2O3 <br />
,, <br />
Mo 1-<br />
,,,,,, <br />
PC-274 -<br />
,,,, <br />
PC-275<br />
PC-276<br />
V/TNT <br />
,,, <br />
CO2 <br />
,, <br />
PC-277 <br />
,,,, <br />
PC-278 <br />
, ,, , <br />
PC-279<br />
PC-280<br />
Cu-Fe <br />
,,, <br />
ZSM-5 <br />
,, <br />
PC-281 <br />
,,, <br />
PC-282<br />
CeO2 CuO-ZnO-ZrO2/HZSM-5 <br />
,, ,, <br />
PC-283 <br />
,, <br />
PC-284 <br />
,, ,, , ,, <br />
PC-285<br />
PC-286<br />
PC-287<br />
Ni <br />
,, <br />
NH4NO3 Co/SiO2 <br />
,,, <br />
Cu-Fe CO2 <br />
,,,,
PC-288<br />
PC-289<br />
Ni-CaO-ZrO2 CH4-CO2 <br />
,,,,,,, <br />
NPRA <br />
,,, <br />
<br />
<br />
PD-001<br />
PD-002<br />
PD-003<br />
PD-004<br />
PD-005<br />
PD-006<br />
PD-007<br />
PD-008<br />
PD-009<br />
PD-010<br />
PD-011<br />
PD-012<br />
PD-013<br />
PD-014<br />
PD-015<br />
PD-016<br />
PD-017<br />
PD-018<br />
3--3--1-<br />
,,,, , <br />
3- 1.3- CuO/SiO2 *<br />
,,, <br />
Ag-MCM-41 <br />
,,,,, <br />
Al2O3 ,-<br />
, ,, <br />
AlCl3/SBA-15 MDI <br />
,,,, <br />
Al-MCM-41 <br />
,,, <br />
Al-SBA-15 2- 2-<br />
, , , <br />
Au/ TiO2- La2O3 <br />
, <br />
Au/C <br />
,,,, <br />
Au/Fe2O3 CO2<br />
, , , , , <br />
Au-Ag/TiO2 <br />
, <br />
Au-Cu <br />
,,, <br />
CaO/ZrO2 1,4- 3--1-<br />
, <br />
CO2 <br />
,,, <br />
CoAPO-5 <br />
, , , , <br />
CoOx/SiO2 <br />
,,, <br />
Cu(II)NaX Prins <br />
, <br />
Fast, Two-Steps Syntheses and Characterization of Octa(aminopropylsilsesquioxane)<br />
Yonggang Houa, Qiuyu Zhang, Jiuli Sun, Hepeng Zhang
PD-019<br />
PD-020<br />
PD-021<br />
PD-022<br />
PD-023<br />
PD-024<br />
PD-025<br />
PD-026<br />
PD-027<br />
PD-028<br />
PD-029<br />
PD-030<br />
PD-031<br />
PD-032<br />
PD-033<br />
PD-034<br />
PD-035<br />
PD-036<br />
PD-037<br />
PD-038<br />
PD-039<br />
<br />
<br />
Heteropolyacid Salts as Self-Separation and Recyclable Catalysts for Transesterification of Trimethylolpropane<br />
Kaixin Li, Li Chen, Zongcheng Yan, Honglin Wang, Weibin Lin <br />
HY 1,1-<br />
,,,,,, <br />
Ir/AlO(OH)<br />
, <br />
Keggin <br />
,,, <br />
K Pd/Al2O3 <br />
, <br />
MCM-41 <br />
,,, <br />
4-(4'-)<br />
, , <br />
Mn MCM-48 <br />
,,,,, <br />
MWW <br />
<br />
NHPI 8-(IV)<br />
,,,,, ,,, <br />
Ni/TiO2-SiO2 <br />
,,, <br />
Oxidation of glucose over gold nanoparticles deposited on mesoporous carbon<br />
Chun Yan Ma, Wei Xing, Zheng Ping Hao <br />
Pd(II)<br />
, <br />
Pd/C <br />
,,,,,, <br />
Pd-CS/MCM-41 -<br />
,,, <br />
Pt/MCNT 3--2-<br />
,,,, <br />
PtPdNi/TiO2-V2O5-Al2O3 <br />
,,,, <br />
Pt Au/TiO2 <br />
,,,, <br />
PW/TiO2 PW/SiO2 <br />
, ,,, , <br />
SO3H-<br />
, ,,,,,Urs Welz-Biermanna <br />
VOx/AC <br />
,, , , <br />
PD-040 ZnMo HZSM-5
PD-041<br />
PD-042<br />
PD-043<br />
PD-044<br />
PD-045<br />
PD-046<br />
PD-047<br />
PD-048<br />
PD-049<br />
PD-050<br />
PD-051<br />
PD-052<br />
PD-053<br />
PD-054<br />
PD-055<br />
PD-056<br />
PD-057<br />
PD-059<br />
PD-060<br />
PD-061<br />
,,, <br />
ZrO2 <br />
,,, <br />
- - PET<br />
,,,,, <br />
,CO2 <br />
,,,,,,,<br />
<br />
<br />
,, <br />
RuMB/ZrO2 <br />
,,, <br />
<br />
,,, <br />
SBA-15 Au <br />
, , <br />
Fe SBA-15 <br />
,,,,, <br />
<br />
,, <br />
<br />
,,,,, <br />
Pt <br />
,,, <br />
<br />
<br />
<br />
<br />
, <br />
CuFe2O4 C-O, C-N <br />
,,, <br />
N-<br />
,,, <br />
N-<br />
, <br />
/<br />
,,, <br />
SBA-15 <br />
,,, <br />
ZrO2 <br />
,,, <br />
<br />
,,,,,,, <br />
-6-<br />
,, <br />
PD-062 V-HMS
PD-063<br />
PD-064<br />
PD-065<br />
PD-066<br />
PD-067<br />
PD-068<br />
PD-069<br />
PD-070<br />
PD-071<br />
PD-072<br />
PD-073<br />
PD-074<br />
PD-075<br />
PD-076<br />
PD-077<br />
PD-078<br />
PD-079<br />
PD-080<br />
PD-081<br />
PD-082<br />
PD-083<br />
<br />
,,, <br />
<br />
, , , <br />
Ullmann <br />
, ,, <br />
Knoevenagel <br />
,,,,, <br />
<br />
,, <br />
Cu(II) Click <br />
,, <br />
Co-B 1-<br />
, <br />
HZSM-5 <br />
,,,,,, <br />
<br />
, <br />
Pt/WO3/TiO2/SiO2 <br />
,, <br />
<br />
, , , , , <br />
7.3.1.02,7.17,11<br />
<br />
2,2-<br />
,, <br />
<br />
,,,,, <br />
<br />
,,, <br />
5-<br />
,,, <br />
3--3--1-<br />
,,,, <br />
<br />
,,, <br />
<br />
, ,,,, <br />
N-TS-1<br />
,, <br />
<br />
,,, <br />
Pd-Fe <br />
,
PD-084<br />
PD-085<br />
PD-086<br />
PD-087<br />
PD-088<br />
PD-089<br />
PD-090<br />
PD-091<br />
PD-092<br />
PD-093<br />
PD-094<br />
PD-095<br />
PD-096<br />
PD-097<br />
PD-098<br />
PD-099<br />
PD-100<br />
PD-101<br />
PD-102<br />
PD-103<br />
PD-104<br />
Co <br />
,,, <br />
<br />
,,, <br />
Fe-ZSM-5 <br />
,,,,, <br />
<br />
,,,, <br />
<br />
,, <br />
<br />
,,,, <br />
<br />
,, , , <br />
- 2'-<br />
, ,, <br />
PdCl2(phen)<br />
, ,, <br />
<br />
,,, <br />
1076 <br />
, ,,,, <br />
<br />
<br />
<br />
<br />
,*,,,,,, <br />
<br />
, <br />
<br />
,,, <br />
SBA-1 4,4--3,3-<br />
,,, <br />
-<br />
, <br />
<br />
, /<br />
II<br />
,, <br />
1,4-<br />
, <br />
<br />
,,, <br />
Ni-P <br />
,,,, <br />
PD-105 Sn-Beta
PD-106<br />
PD-107<br />
PD-108<br />
PD-109<br />
PD-110<br />
PD-111<br />
PD-112<br />
PD-113<br />
PD-114<br />
PD-115<br />
PD-116<br />
PD-117<br />
PD-118<br />
PD-119<br />
PD-120<br />
PD-121<br />
PD-122<br />
PD-123<br />
PD-124<br />
PD-125<br />
PD-126<br />
<br />
,,,,, <br />
-O-<br />
,,, <br />
/CO <br />
,, <br />
<br />
,, <br />
N-<br />
,,,,, <br />
<br />
, , <br />
<br />
<br />
5-<br />
,, <br />
Au/Ti <br />
,,, <br />
Ni <br />
,,,, <br />
<br />
,, , <br />
<br />
,,, <br />
<br />
,, <br />
-<br />
, ,,, <br />
Au/CeO2 <br />
,,, <br />
,-<br />
,,, <br />
<br />
,,,,,, <br />
<br />
,,, <br />
-Pd Heck <br />
,,,, <br />
“++”<br />
,,,, <br />
- Cu-Zn-Si <br />
,,,,, <br />
4,4--3,3-<br />
,,,
PD-127<br />
PD-128<br />
PD-129<br />
PD-130<br />
PD-131<br />
PD-132<br />
PD-133<br />
PD-134<br />
PD-135<br />
PD-136<br />
PD-137<br />
PD-138<br />
PD-139<br />
PD-140<br />
PD-141<br />
PD-142<br />
PD-143<br />
PD-144<br />
PD-145<br />
PD-146<br />
PD-147<br />
<br />
,,,,, <br />
-MWW <br />
,,,,,, <br />
TiO2/CNT DPC <br />
,,, <br />
RuFe <br />
, ,, <br />
<br />
, <br />
HZSM-5 <br />
,,,,, <br />
<br />
,, <br />
Au <br />
,, <br />
<br />
, ,, <br />
<br />
<br />
<br />
<br />
,,,, <br />
2-<br />
,,, <br />
Pt/C <br />
,,, <br />
<br />
, , , , <br />
<br />
,, <br />
1,3,5-<br />
,,, <br />
7--4-<br />
,,,, <br />
<br />
,,,, <br />
SO42-/TiO2 <br />
,, <br />
C5 <br />
, , <br />
<br />
, , , <br />
CoAl <br />
,, <br />
PD-148
PD-149<br />
PD-150<br />
PD-151<br />
PD-152<br />
PD-153<br />
PD-154<br />
PD-155<br />
PD-156<br />
PD-157<br />
PD-158<br />
PD-159<br />
<br />
<br />
<br />
, <br />
<br />
, , , , <br />
2'-<br />
,,,, <br />
<br />
, <br />
-<br />
,,,, <br />
SBA-15 A <br />
,, ,, <br />
KF CF3I <br />
,,,, <br />
Ni Ni/ZSM-5 3- 1,3-<br />
,,,, <br />
<br />
,,, <br />
<br />
<br />
<br />
<br />
<br />
PD-160<br />
PD-161<br />
PD-162<br />
PD-163<br />
PD-164<br />
PD-165<br />
PD-166<br />
PD-167<br />
<br />
Activation of Dioxygen by Cobaloxime for Efficient TEMPO-Mediated Aerobic Oxidation of Alcohols<br />
Yuanyuan Jing, Yaofa Zhang, Jiemin Jiao, Yongjie Li, Huazhen Xue, Guanyu Yang <br />
C-H ACTIVATION BY Cu(II)-COMPLEXES WITH 2-SUBSTITUTED-BENZIMIDAZOLE LIGAND<br />
Qi-Ting He, Jun-Min Liu, Cheng-Yong Su <br />
Co-ZSM-5(L)<br />
,,,,, <br />
Efficient Acetalization and Ketalization Catalyed by Cobaloxime under Solvent-Free Conditions<br />
Ruiyan Sun, Yuanyuan Jing, Cancan Yan, Guangwen Niu, Yuanyuan Cui, Juan He, Weimin Zhu, Guanyu Yang<br />
<br />
Microwave-assisted synthesis of isoindoline carboxylic ester derivatives<br />
Hui Ma, Zhao Kang, Jian Lu , <br />
<br />
N-<br />
,,,, <br />
PNP/Cr()/MAO 1-<br />
,, <br />
Synthesis and Catalytic Epoxidation of Novel Dioxomolybdenum(VI) Complexes<br />
Feng-Lan Chai, Hua-Long Su, Yu-Qi Zhao, Jing Li, Xiang-Yu Wang <br />
PD-168 PMO Knoevenagel
PD-169<br />
PD-170<br />
PD-171<br />
PD-172<br />
PD-173<br />
PD-174<br />
PD-175<br />
PD-176<br />
PD-177<br />
PD-178<br />
PD-179<br />
PD-180<br />
PD-181<br />
PD-182<br />
PD-183<br />
PD-184<br />
PD-185<br />
PD-186<br />
PD-187<br />
PD-188<br />
PD-189<br />
,,, <br />
<br />
,, <br />
Co3O4 <br />
,,,, <br />
<br />
, ,, <br />
CO2 <br />
, <br />
NHC 3-<br />
,, <br />
Suzuki <br />
,, <br />
——-<br />
,, <br />
<br />
,,,,, <br />
Ullmann <br />
, , <br />
Heck <br />
, <br />
1,2,3-<br />
, ,,,, <br />
<br />
,,,, <br />
Pd(II) Suzuki <br />
,,,, <br />
HTS <br />
,,,, <br />
<br />
<br />
<br />
<br />
,,,,,,,, <br />
<br />
,,, <br />
Cu/SBA-15 ,<br />
, , , <br />
<br />
, <br />
<br />
, ,, <br />
Pd(II)<br />
,,, <br />
PEG-400/ Suzuki <br />
, ,
PD-190<br />
PD-191<br />
PD-192<br />
PD-193<br />
PD-194<br />
PD-195<br />
PD-196<br />
PD-197<br />
PD-198<br />
PD-199<br />
PD-200<br />
PD-201<br />
PD-202<br />
PD-203<br />
PD-204<br />
PD-205<br />
PD-206<br />
PD-207<br />
PD-208<br />
PD-209<br />
PD-210<br />
<br />
Salen Co() <br />
, <br />
H2 O2 H2O2<br />
,, <br />
<br />
,,, <br />
<br />
1,4-<br />
, <br />
<br />
,, , <br />
CO2 <br />
, <br />
PNP 1-<br />
, , <br />
“” Michael <br />
,,,, <br />
Ru(III)Cl4[L]2[PF6]/<br />
, <br />
<br />
,, <br />
<br />
,, <br />
<br />
, , , , <br />
-<br />
,,, <br />
<br />
,, <br />
<br />
,,, <br />
PGA <br />
, <br />
VI<br />
,,,, <br />
Stille <br />
,,,, <br />
(R)--2--4- 3,4--2(1H)-<br />
, <br />
<br />
,,,,, <br />
<br />
,,
PD-211<br />
PD-212<br />
PD-213<br />
PD-214<br />
PD-215<br />
PD-216<br />
PD-217<br />
PD-218<br />
PD-219<br />
PD-220<br />
PD-221<br />
PD-222<br />
PD-223<br />
PD-224<br />
PD-225<br />
PD-226<br />
PD-227<br />
PD-228<br />
PD-229<br />
PD-230<br />
PD-231<br />
1-<br />
, ,, <br />
<br />
<br />
<br />
An Easy and Effective Approach towards Heterogeneous SiO2-Cinchonidine/Pt Catalyst System for Orito Reaction<br />
Muhammad Usman Azmat, Yun Guo (), Yanqin Wang, Guanzhong Lu ()<br />
<br />
Preliminary Examination on Chiral Spiroborate Ester- Catalyzed Addition of Ketone to Nitroolefins<br />
Hu Xiaoyun,Shan Zixing <br />
Stereoselectivity of Borane Reduction of Prochiral Oxime Ethers Catalyzed by Chiral Spiroborate Ester<br />
Chu Yunbo,Shan Zixing <br />
2-<br />
, <br />
<br />
,,, <br />
PEG <br />
,,,, <br />
<br />
, , ,,, <br />
<br />
,,,,, <br />
<br />
,,, <br />
<br />
,,, <br />
Schiff oxovanadium (IV)<br />
,,,,,, <br />
<br />
, , , <br />
<br />
,, <br />
Nitroaldol <br />
,, <br />
salen <br />
, <br />
-<br />
, , <br />
Pt/CMK-8 ??<br />
,, <br />
<br />
, , <br />
<br />
,,,,, <br />
<br />
,,
PD-232<br />
PD-233<br />
PD-234<br />
PD-235<br />
<br />
<br />
<br />
Salen Mn(III)<br />
,,,, <br />
<br />
, , <br />
<br />
,,,, <br />
C-X <br />
<br />
<br />
PE-001<br />
PE-002<br />
PE-003<br />
PE-004<br />
PE-005<br />
PE-006<br />
PE-007<br />
PE-008<br />
PE-009<br />
PE-010<br />
PE-011<br />
PE-012<br />
PE-013<br />
PE-014<br />
PE-015<br />
PE-016<br />
BaSb2O6 <br />
,,,,,, <br />
Degradation of Propylene Glycol Wastewater by Fenton's Reagent in A Semi-batch Reactor<br />
Hao-Yi Wang, Yu-Na Hu, Gui-Ping Cao* <br />
EU/ZnO <br />
, <br />
Fe/Al2O3 <br />
,,,,, <br />
Fenton-like Fe2(MoO4)3 <br />
, <br />
MCM-41 <br />
,, <br />
Me(=Fe, W, Ce)-V/TiO2 <br />
, , <br />
One-pot synthesis of extended layered wurtzite ZnS nanorods/nanowires and their photocatalytic activities<br />
,, <br />
PVP-Pd -<br />
,, <br />
Ru/AC <br />
,,, <br />
TiO2 <br />
,, <br />
TiO2 <br />
, <br />
TiO2 <br />
<br />
TiO2/SiO2@Fe3O4 <br />
,, <br />
<br />
, <br />
<br />
,,,,
PE-017<br />
PE-018<br />
PE-019<br />
PE-020<br />
PE-021<br />
PE-022<br />
PE-023<br />
PE-024<br />
PE-025<br />
PE-026<br />
PE-027<br />
PE-028<br />
PE-029<br />
<br />
,,,,, <br />
<br />
, <br />
La2FeMnO6 <br />
,,,, <br />
<br />
, , , <br />
<br />
,, <br />
<br />
, , , <br />
(BiOCl, Bi5O7I)<br />
,,, <br />
<br />
, <br />
<br />
, <br />
CuO/AC <br />
<br />
- B <br />
,,, <br />
<br />
*,,, <br />
<br />
,,,, <br />
<br />
PE-030<br />
PE-031<br />
PE-032<br />
PE-033<br />
PE-034<br />
PE-035<br />
PE-036<br />
100 ZnWO4 <br />
, <br />
Ag/AgCl/ZnO <br />
,,,,,, <br />
Ag/TiO2 <br />
, ,, <br />
BiVO4 <br />
, <br />
CdS Cd0.35Zn0.65S Ni,Co,Cu <br />
,,,,, <br />
<br />
<br />
<br />
Comparison study on noncompensated and compensated codoped TiO2 photocatalyst from first-principles<br />
calculation<br />
Ying Wu, Xinguo Ma,Hanzhe Liao, Zerui Shi, Ying Wang, Ling Miao, Jianjun Jian <br />
<br />
Cu/CeO2-TiO2/SiO2 CO2 CH4 <br />
,,
PE-037<br />
PE-038<br />
PE-039<br />
PE-040<br />
PE-041<br />
PE-042<br />
PE-043<br />
PE-044<br />
PE-045<br />
PE-046<br />
PE-047<br />
PE-048<br />
PE-049<br />
PE-050<br />
PE-051<br />
PE-052<br />
PE-053<br />
PE-054<br />
PE-055<br />
PE-056<br />
PE-057<br />
<br />
MgFe2O4 4-<br />
,,,, <br />
pH MnWO4 <br />
,,, <br />
p-MgFe2O4/n-TiO2 <br />
,,, <br />
TiO2/FeTiO2 <br />
, , <br />
TiO2 <br />
,,,, <br />
TiO2-<br />
,,, <br />
V2O5/CeF3 <br />
,,, <br />
ZnFe2O4/TiO2 <br />
,,,,, <br />
ZnS-CdS/SiO2 <br />
,, <br />
TiO2 <br />
,,,, <br />
TiO2 <br />
, ,, <br />
TiO2 <br />
,, <br />
ZnO <br />
, <br />
<br />
,,,, <br />
<br />
,,, <br />
<br />
,, <br />
<br />
,,,, <br />
TiO2 <br />
,,,,, <br />
La1-xSrxMnO3 <br />
<br />
<br />
,,, <br />
TiO2 2,3-<br />
,,,, <br />
PE-058 MCM-41
PE-059<br />
PE-060<br />
PE-061<br />
PE-062<br />
PE-063<br />
PE-064<br />
PE-065<br />
PE-066<br />
PE-067<br />
PE-068<br />
PE-069<br />
PE-070<br />
PE-071<br />
PE-072<br />
PE-073<br />
PE-074<br />
PE-075<br />
PE-076<br />
PE-077<br />
PE-078<br />
PE-079<br />
,,, <br />
Cu/S-TiO2 <br />
,, <br />
AIn2S4 <br />
<br />
<br />
, <br />
n-n TiO2/VTiO2 <br />
,, <br />
AgBr <br />
,,,,,, <br />
4--1-<br />
, , <br />
CdS-TiO2/MWCNTs <br />
, , , <br />
Gd TiO2 <br />
, ,, , <br />
N-F TiO2 -<br />
,,,, <br />
<br />
, <br />
WO3 <br />
, <br />
N FeTiO3-TiO2 <br />
, , <br />
TiO2 <br />
, <br />
Ag/AgCl <br />
,,,,,, <br />
<br />
,,, <br />
<br />
,,, <br />
<br />
,,,, <br />
<br />
,,<br />
ZnO <br />
,,, <br />
BiVO4 <br />
,,,, <br />
(CoOOH)<br />
,,,
PE-080<br />
PE-081<br />
PE-082<br />
PE-083<br />
PE-084<br />
PE-085<br />
<br />
TiO2 <br />
,,,, <br />
TiO2/YAG:Ce3+<br />
,, <br />
<br />
, ,<br />
NaNbO3/ZnO <br />
, , , , , <br />
TiO2<br />
,,, <br />
TiO2 <br />
,,, <br />
<br />
PE-086<br />
PE-087<br />
PE-088<br />
PE-089<br />
PE-090<br />
PE-091<br />
PE-092<br />
PE-093<br />
PE-094<br />
PE-095<br />
PE-096<br />
PE-097<br />
PE-098<br />
PE-099<br />
PE-100<br />
Ag-Co3O4 NOx <br />
,,,,, <br />
Al-Mn/SBA-15 <br />
,, <br />
Au/LaFeO3 CO <br />
,, <br />
Au-Cu/Co3O4 <br />
,, <br />
Au-Cu/Co3O4 <br />
,, <br />
CeO2-FeOx mixed oxides: Structural Characteristics and Dynamic Storage Release Capacity<br />
Jianqiang Wang, Meiqing Shen, Jun Wang , Wulin Wang, Jie Ma <br />
CeO2-WO3/TiO2 NH3-SCR <br />
,,, <br />
CeO2 Co3O4 CO <br />
,,, <br />
Ce-Zr- Cu <br />
,,,,, <br />
Ce V2O5-WO3/TiO2 *<br />
,,,, <br />
Co-CrMnOx SCR <br />
,,,,, <br />
CoMOR <br />
,,,,, <br />
Cu/<br />
,,, <br />
Cu0.1Ce0.9-xZnxO2 CO <br />
,, <br />
Cu-Ti-PILC TiO2 <br />
,,,,
PE-101<br />
PE-102<br />
PE-103<br />
PE-104<br />
PE-105<br />
PE-106<br />
PE-107<br />
PE-108<br />
PE-109<br />
PE-110<br />
PE-111<br />
PE-112<br />
PE-114<br />
PE-113<br />
PE-115<br />
PE-116<br />
PE-117<br />
PE-118<br />
PE-119<br />
PE-120<br />
PE-121<br />
Cu <br />
<br />
FCC <br />
, , <br />
Fe(CO)5 <br />
,,,, <br />
H2O SO2 Fe-Mo/ZSM-5 NOx <br />
,,, <br />
H2S CO <br />
,,,,,, <br />
K Au/Al2O3 <br />
,,, <br />
LaMnO3 <br />
,,,,, <br />
LaVO4/TiO2 <br />
,,,,,, <br />
Mg-Al NOx -<br />
,, <br />
Mn/AC <br />
, ,, <br />
Mn/Ce0.5+xZr0.4-xLa0.1O1.95-Al2O3 <br />
, , , , , <br />
Mn/ZSM-5 NH3 NO <br />
,,, <br />
Mn-Zr-Ce-O <br />
,,,,, <br />
MnOx-SnO2-CeO2 NH3 NOx <br />
,, <br />
OMS-2 <br />
, <br />
Pd-Co3/Al1-xMnxOs <br />
,,, <br />
Pd CFCs HFCs <br />
,,,, <br />
<br />
<br />
<br />
Pt/SiO2-Al2O3 <br />
,,,,,, <br />
Synthesis, Characterization and Catalytic Performance of Calcined NiAlCu Hydrotalcite-like Catalysts for SO2<br />
Removal<br />
Ling Zhao ,Xinyong Li, Qidong Zhao , Zhenping Qu , Xijun Hu <br />
V2O5 (SCR)<br />
, ,, <br />
FeZSM-5 N2O <br />
,,,,,
PE-122<br />
PE-123<br />
PE-124<br />
PE-125<br />
PE-126<br />
PE-127<br />
PE-128<br />
PE-129<br />
PE-130<br />
PE-131<br />
PE-132<br />
PE-133<br />
PE-134<br />
PE-135<br />
PE-136<br />
PE-137<br />
PE-138<br />
PE-139<br />
PE-140<br />
PE-141<br />
PE-142<br />
<br />
Ce-Zr-La Pd <br />
,,, <br />
<br />
, Pär Gabrielsson <br />
-<br />
,,,,, <br />
Ni2P <br />
,, <br />
CO <br />
,,,,, <br />
Ce-Zr/Ce-La Pd <br />
,, <br />
Pd/Al2O3-TiO2 <br />
,,, <br />
WO3 MnOxTiO2 NH3 Nox<br />
, <br />
Cs2SO4.V2O5 <br />
,,,, <br />
Pt/ZSM-5 C3H6 NO <br />
,,, <br />
<br />
<br />
<br />
,,,, , <br />
<br />
,, <br />
<br />
,,, <br />
<br />
,,, <br />
NO <br />
,, , ,, <br />
<br />
,,,,,,, <br />
<br />
, <br />
SBA-15 <br />
, <br />
Pd <br />
<br />
<br />
,, <br />
PE-143 COS
PE-144<br />
PE-145<br />
PE-146<br />
PE-147<br />
PE-148<br />
PE-149<br />
PE-150<br />
PE-151<br />
PE-152<br />
PE-153<br />
PE-154<br />
PE-155<br />
PE-156<br />
PE-157<br />
PE-158<br />
PE-159<br />
PE-160<br />
PE-161<br />
PE-162<br />
PE-163<br />
PE-164<br />
<br />
<br />
<br />
,,,,,, <br />
Cu-Ag/SBA-15 <br />
,,,, , <br />
<br />
, <br />
LaNiO3 <br />
, <br />
Pd-Rh/Zr-Al <br />
,,,,, <br />
Cu/CexZr1-xO2 <br />
, ,,, <br />
OMS-2 CO <br />
,,,,, <br />
CuO/Al2O3 <br />
,, <br />
Cu-SAPO-34 NO-SCR <br />
, ,,, <br />
<br />
,Symonenko A. , , <br />
MgAl <br />
,,, <br />
Fenton <br />
,,,,, <br />
-<br />
,,,, <br />
<br />
,,, <br />
V2O5-WO3/TiO2 <br />
,, <br />
Pd-MnOx /Pd-Al2O3 <br />
,, , , , , <br />
CuO-CeO2 <br />
,,,,, <br />
<br />
,,,,, *<br />
<br />
,, <br />
- MnCo2O4 <br />
, , , <br />
<br />
<br />
<br />
, , , ,
PE-165<br />
PE-166<br />
PE-167<br />
PE-168<br />
PE-169<br />
PE-170<br />
PE-171<br />
PE-172<br />
PE-173<br />
PE-174<br />
PE-175<br />
PE-176<br />
PE-177<br />
PE-178<br />
PE-179<br />
PE-180<br />
PE-181<br />
PE-182<br />
PE-183<br />
PE-184<br />
PE-185<br />
<br />
NO, CO <br />
,,,,, <br />
<br />
,,, , ,, <br />
SOF <br />
,,,,,, <br />
TiO2 <br />
,,,,, <br />
Cu-Mn <br />
, <br />
SiO2 <br />
,,,,, <br />
CO <br />
, <br />
<br />
,, <br />
Pr SnO2 CO <br />
<br />
<br />
, , <br />
DeNOx <br />
,,,,, <br />
NO <br />
,, <br />
CO <br />
,, <br />
Cu2Mn CeZr0.83/Al-Ti <br />
,, ,,, <br />
<br />
,,,,,Peter G. Brucea <br />
<br />
, , , <br />
Pd <br />
,, <br />
Pt/CeO2 CO <br />
,,,,, <br />
Pd-Fe CO <br />
,,, <br />
- SCR <br />
,,,, <br />
Pt/TiO2 C3H6 NO <br />
,,, <br />
PE-186 NOx
PE-187<br />
PE-188<br />
PE-189<br />
,,, <br />
<br />
,,, <br />
Au/-Fe2O3 CO <br />
,,, <br />
SiO2 Ag <br />
, , ,,, <br />
<br />
PE-190<br />
PE-191<br />
PE-192<br />
PE-193<br />
PE-194<br />
PE-195<br />
PE-196<br />
PE-197<br />
PE-198<br />
PE-199<br />
PE-200<br />
PE-201<br />
PE-202<br />
PE-203<br />
PE-204<br />
PE-205<br />
PE-206<br />
Au/D201 *<br />
, ,, <br />
<br />
<br />
<br />
CO2 Capture over K2CO3/MgO/Al2O3 Sorbent in a Fluidized Bed<br />
Lei Li, Yong Lia, Xia Wen, Feng Wang, Ning Zhao, Fukui Xiao, Wei Wei, Yuhan Sun <br />
<br />
Fe3+/CaF2 <br />
,,,, <br />
Mn Ni/-Al2O3 CO2 <br />
,,,, <br />
NOx <br />
, <br />
NO SCR <br />
,,, <br />
<br />
,,,,, <br />
N2O <br />
,,, <br />
MOF CO2 <br />
,,, <br />
CO2 <br />
,, <br />
CuO-Al2O3 <br />
, ,,, <br />
CuO-CeO2 CO<br />
, ,,, <br />
CO2 <br />
,,, <br />
Au/TiNT <br />
, <br />
<br />
,,, <br />
- CO2 <br />
,, ,,,,, <br />
<br />
,,,,,,,,,
PE-207<br />
PE-208<br />
<br />
<br />
<br />
LaCoO3 <br />
, , <br />
Ni-CeO2 <br />
, <br />
<br />
PF-001<br />
PF-002<br />
PF-003<br />
PF-004<br />
PF-005<br />
PF-006<br />
PF-007<br />
PF-008<br />
PF-009<br />
PF-010<br />
PF-011<br />
PF-012<br />
PF-013<br />
PF-014<br />
PF-015<br />
PF-016<br />
PF-017<br />
HZSM-5 <br />
,,,,,, <br />
P/HZSM-5 <br />
,, <br />
Pd/C 2, 3, 5-<br />
,,,, <br />
Rh/Fe CO2 <br />
,, <br />
WO3/ZrO2-SiO2 <br />
,,,,, <br />
<br />
, , , ,, <br />
<br />
,,,,,,,,<br />
<br />
ZSM-5 <br />
,,,,, <br />
Mo-Co/Al2O3 <br />
,, <br />
<br />
,, <br />
<br />
,, , , , <br />
PET <br />
,,, <br />
<br />
,, <br />
-<br />
,,,, <br />
<br />
,, ()<br />
ZSM-5 <br />
,,,, <br />
<br />
,,,,
PF-018<br />
PF-019<br />
PF-020<br />
PF-021<br />
PF-022<br />
PF-023<br />
PF-024<br />
PF-025<br />
PF-026<br />
PF-027<br />
PF-028<br />
1,4 <br />
,, <br />
<br />
,,,, <br />
<br />
, <br />
<br />
,,,, <br />
-<br />
, <br />
<br />
,,,,,,, <br />
<br />
,,,,, <br />
<br />
,,,,,, <br />
<br />
, <br />
<br />
,,, <br />
<br />
,,, <br />
<br />
PF-029<br />
PF-030<br />
PF-031<br />
PF-032<br />
C9 <br />
,,, <br />
Fe3+/CaF2 <br />
,,, <br />
HZSM-5 HZSM-11 <br />
,, <br />
ZSM-5 <br />
,, <br />
PF-033 <br />
, <br />
PF-034<br />
PF-035<br />
PF-036<br />
PF-037<br />
F-T <br />
,,,,, <br />
HZSM-5 <br />
, ,, <br />
ZSM-5 MOR <br />
, <br />
PtSnNa/AlSBA-15 <br />
,,,, <br />
PF-038 <br />
,
PF-039<br />
PF-040<br />
PF-041<br />
PF-042<br />
PF-043<br />
PF-044<br />
PF-045<br />
PF-046<br />
PF-047<br />
PF-048<br />
PF-049<br />
<br />
2- 2,6-<br />
,,,, <br />
Al2O3,SiO2 Ni-W,Ni-Mo <br />
,, <br />
Cr/Al <br />
,, (<br />
FCC <br />
,,,, <br />
FCC <br />
,, <br />
Mg PtNa/Sn-ZSM-5 <br />
,,, <br />
Na+ Silicalite-1 Beckmann <br />
,,,, <br />
SiO2 ZSM-5 <br />
,,,,,, <br />
TS-1 “”<br />
,,, <br />
ZSM-23 <br />
,,,, <br />
Ir/AlTi N2O <br />
, ,,, <br />
PF-050 <br />
,,, <br />
PF-051 <br />
,,,, <br />
PF-052 <br />
,, <br />
PF-053 <br />
,,,, <br />
PF-054 <br />
,,,, <br />
PF-055 <br />
,,,,, <br />
PF-056 <br />
,,,, <br />
PF-057<br />
-<br />
,,,, <br />
PF-058 <br />
,,,,,, <br />
PF-059 <br />
,,,
PF-060 <br />
,, <br />
PF-061<br />
PF-062<br />
CoMo/-Al2O3 <br />
,,,,, <br />
Y <br />
,, <br />
PF-063 <br />
,, <br />
PF-064 <br />
,, <br />
PF-065 <br />
,,, <br />
PF-066<br />
C9+<br />
,,,, <br />
PF-067 <br />
,,,,, <br />
PF-068<br />
SBA-15 <br />
,, <br />
PF-069 <br />
,,,,,, <br />
PF-070 <br />
,,,,, <br />
PF-071<br />
DHP <br />
,, <br />
PF-072 -1<br />
,,,, <br />
PF-073 -<br />
, <br />
PF-074<br />
SrZnO2 PET <br />
<br />
PF-075 <br />
,,,, <br />
PF-076 <br />
,,,,, <br />
PF-077 <br />
,,, <br />
PF-078<br />
ZSM-5 <br />
,, <br />
PF-079 <br />
,,,, <br />
PF-080 <br />
,,,,,,,