- Page 1 and 2: Boreskov Institute of Catalysis of
- Page 3: ORGANIZING COMMITTEE Chairman: Vlad
- Page 8 and 9: PL-1 In the case of “palladium on
- Page 10 and 11: PL-2 The surface of these nanoporou
- Page 12 and 13: PL-2 the membranes can be tailored
- Page 14 and 15: PL-3 developed NLDFT model, which a
- Page 16 and 17: PL-4 can condition the adsorption p
- Page 19 and 20: IS IT POSSIBLE TO SOLVE THE HYDROGE
- Page 21 and 22: KL-1 technological operations for t
- Page 23 and 24: KL-2 samples have a very high speci
- Page 25 and 26: KL-4 SYNTHESIS AND PROPERTIES OF CA
- Page 27 and 28: KL-4 The most regular distribution
- Page 29 and 30: KL-5 nanostructured carbons offer s
- Page 31 and 32: KL-6 The second part is estimating
- Page 33 and 34: KL-7 O- containing carbons provides
- Page 35: ORAL PRESENTATION SECTION I SECTION
- Page 38 and 39: OP-I-1 A B 4.00 Activity (10 -5 mol
- Page 40 and 41: OP-I-2 PREPARATION OF CNF SUPPORTED
- Page 42 and 43: OP-I-3 BI-METALLIC CATALYSIS ON CAR
- Page 44 and 45: OP-I-4 PREPARATION AND CHARACTERISA
- Page 46 and 47: OP-I-5 Ru-CeO 2 /SIBUNIT CATALYSTS
- Page 48 and 49: OP-I-6 CARBON SUPPORTED PLATINUM CA
- Page 50 and 51: OP-I-7 CARBON SUPPORTED NOBLE METAL
- Page 52 and 53: OP-I-8 PREPARATION OF Pd/C CATALYST
- Page 54 and 55:
OP-I-9 FABRICS OF ACTIVE CARBON FIB
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OP-I-10 NOVEL CARBON BASED CATALYST
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OP-I-11 DENITROGENATION ACTIVITY OF
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OP-I-12 INFLUENCE OF THE SUPPORT HY
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OP-I-13 THE SYNTHESIS AND CATALYTIC
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OP-I-14 HYBRID CATALYSTS OF Rh COMP
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OP-I-15 PREPARATION OF CATALYSTS BY
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OP-I-16 CATALYSIS OF METHANE DISSOC
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OP-I-17 NOVEL NANOPOROUS CARBON MAT
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OP-I-18 HIGHLY ORDERED MESOPOROUS C
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OP-I-19 TEMPERATURE-PROGRAMMED ANAL
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OP-I-20 STRUCTURE ACTIVITY RELATION
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OP-I-21 CARBON AEROGELS AS CATALYST
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OP-I-22 RADIOISOTOPIC INVESTIGATION
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OP-I-23 CHEMICAL MODIFICATION OF DI
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OP-I-24 SORPTION AND CATALYTICAL PR
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OP-I-25 ON THE PORE SIZE DISTRIBUTI
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OP-I-26 FEATURES OF ELECTRON STRUCT
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OP-I-27 spectroscopic feature of C1
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OP-I-28 In 1970 Koenig et al have e
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OP-I-29 Analysis of distribution of
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OP-II-1 Carbone Lo
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OP-II-2 a b c d CN
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OP-II-3 space velo
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OP-II-5 CARBON NAN
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OP-II-6 AVOIDING M
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OP-II-7 IMPROVED A
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OP-II-8 THE ELECTR
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OP-II-9 INFLUENCE
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OP-II-10 HYDROGEN
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OP-II-11 ACTIVATED
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POSTER PRESENTATION SECTION I SECTI
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PP-I-1 The performance of electrode
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PP-I-2 6OH − + C − 4 e = CO + 3
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PP-I-3 Results and Discussion Incre
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PP-I-4 Not large number of publicat
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PP-I-5 The reaction rate increases
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PP-I-6 aqueous solution of 1.7 M hy
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PP-I-7 groups and remove the cataly
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PP-I-8 Reactions of aromatisation o
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PP-I-9 In situ XRD was carried out
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PP-I-10 SIEVING PROPERTIES OF CARBO
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PP-I-11 THE FORMATION AND PHYSICAL-
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PP-I-12 PORE SIZE ANALYSIS OF SORBE
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PP-I-13 SYNTHESIS AND ELECTROCHEMIC
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PP-I-14 NOVEL NANOSTRUCTURED Pt-Ru/
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PP-I-15 GOLD BASED CATALYSTS ON STR
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PP-I-16 METALS SUPPORTED ON CARBON-
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PP-I-17 INFLUENCE OF MOLECULAR CARB
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PP-I-18 THE WAY OXIDATIVELY MODIFIE
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PP-I-19 SOME REGULARITIES OF THE PR
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PP-I-20 SYNTHESIS OF NITROGEN-CONTA
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PP-II-21 THE CARBO
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PP-I-22 pyrolysis and activation co
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PP-I-24 SINGLE WALL CARBON NANOTUBE
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PP-I-25 POROUS CARBON PRODUCED BY L
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PP-I-26 Pt-NANOCLUSTERS SUPPORTED O
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PP-I-27 FeMo CVD CATALYSTS FOR THE
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PP-I-27 (a) (b) (c) (d) 10 nm Figur
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PP-I-28 thermogravimetric apparatus
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PP-I-29 temperature is set at 380
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PP-I-30 Chemisorption Models of che
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PP-I-31 TRANSPARENT CARBON COATINGS
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PP-I-32 CARBON MATERIALS BASED ON C
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PP-I-33 HYDROGEN PRODUCTION BY THER
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PP-I-34 EXPERIMENTAL ESTIMATION OF
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PP-I-35 THE CHARACTERISTIC SUCH AS
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PP-I-36 MODIFICATION OF THE SURFACE
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PP-I-37 ON THE OBTAINING OF CARBONA
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PP-I-38 CARBON SUPPORTED PALLADIUM
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PP-I-39 SELF ORGANIZED CARBON POLYC
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PP-I-40 SYNTHESIS AND INVESTIGATION
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PP-I-41 INVESTIGATION OF SURFACE OF
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PP-I-42 PREPARATION OF NEW VANADIUM
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PP-I-43 A NEW ELECTROCATALYST SUPPO
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PP-I-44 STUCTURE AND CATALYTIC ACTI
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PP-I-45 PREPARATION AND INVESTIGATI
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PP-I-45 narrower pore size distribu
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PP-I-46 DYNAMIC ANALYSIS OF SORPTIO
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PP-I-47 USE OF THE MESOPOROUS NITRO
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PP-I-48 ON THE WETTABILITY OF PLATE
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PP-I-49 TAILORING CARBON NANOFIBER
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PP-I-50 DENSITY FUNCTIONAL CALCULAT
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PP-I-51 Pd SUPPORTED ON SURFACE-TRE
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PP-II-1 FUNCTIONAL
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PP-II-2 ACTIVATED
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PP-II-3 DESIGN AND
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PP-II-4 ON THE PRE
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PP-II-5 Cu/CARBON
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PP-II-6 HYDRATION
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PP-II-7 CONNECTING
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PP-II-8 POROUS CAR
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PP-II-9 THE USE OF
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PP-II-9 the physic
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PP-II-10 Evolution
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PP-II-11 Mo and V
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PP-II-12 RESULTS A
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PP-II-13 from the
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PP-II-14 absence o
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PP-II-15 In fig.1
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PP-II-16 800 Volum
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PP-II-17 THE ROLE
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PP-II-18 APPLICATI
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PP-II-19 PLATINUM
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PP-II-19 Conclusio
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PP-II-21 THE USE O
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PP-II-22 Ni CVD CA
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PP-II-22 Reference
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PP-II-23 Table. In
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PP-II-24 Carbon he
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PP-II-25 individua
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PP-II-26 open macr
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PP-II-27 Pd has pr
- Page 282 and 283:
PP-II-28 metallic
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CABIAC Amandine Institut Charles Ge
- Page 286 and 287:
HAMMER Nina Department of Chemical
- Page 288 and 289:
LEE Chul Wee Advanced Chemical Tech
- Page 290 and 291:
RABIU Ademola Misbau Catalysis Rese
- Page 292 and 293:
SUROVIKIN Yuriy V. Institute of Hyd
- Page 294 and 295:
Büchi AG, Uster, Switzerland Pilot
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Пилотные установки
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DONAU LAB MOSCOW ПРОГРАММА
- Page 306 and 307:
DONAU LAB MOSCOW ПРОГРАММА
- Page 308 and 309:
ORAL PRESENTATIONS ................
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OP-I-25 Efremov D.K., Drozdov V.A.
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PP-I-9 Carabineiro S.A., Fernandes
- Page 314 and 315:
PP-I-34 Razdiakonova G.I., Dugnova
- Page 316 and 317:
PP-II-8 Cesano F.,
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II Interna