TECHNICAL PROGRAM - American Chemical Society Publications
TECHNICAL PROGRAM - American Chemical Society Publications
TECHNICAL PROGRAM - American Chemical Society Publications
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FUEL <strong>TECHNICAL</strong> <strong>PROGRAM</strong><br />
TUESDAY MORNING<br />
Section A<br />
Renaissance Boston Waterfront<br />
Pacific Ballroom D<br />
New Energy Technologies<br />
Catalyst and Nanostructured Materials for<br />
New Energy Applications<br />
C. Liu, J. Chen, J. Wang, Organizers<br />
D. Wang, Y. Hu, Presiding<br />
8:30 132. New nanocatalysts for cleaner energy<br />
provisions. S. Tsang, C. Wu<br />
9:00 133. Nanoengineering catalysts in size,<br />
shape, and composition for fuel cells.<br />
C. Zhong, B. Fang, B. Wanjala,<br />
R. Loukrakpam, J. Yin, J. Luo<br />
9:30 134. Metal-organic frameworks for energy<br />
applications. Y. Hu<br />
10:00 Intermission<br />
10:10 135. Enhancing electrocatalytic activity<br />
by tuning nanoparticle surface structure<br />
and composition. S. Lee, S. Chen,<br />
Y. Shao-Horn<br />
10:40 136. Self-assembled nanostructured<br />
materials for energy storage. D. Wang<br />
11:10 137. Architecture of nanoparticle<br />
structures at nanoscale for energy conversion<br />
applications. C. Wang<br />
Section B<br />
Renaissance Boston Waterfront<br />
Pacific Ballroom E<br />
Storch Award: Symposium in Honor of<br />
Chunshan Song<br />
Fuel Science<br />
C. Song, Organizer<br />
H. Schobert, M. Gray, Presiding<br />
8:30 Introductory Remarks<br />
8:35 138. Characteristics of optimal chain<br />
transfer solvents for heavy hydrocarbon<br />
conversion. M. T. Klein, C. LaMarca<br />
9:10 139. Asphaltene reactions and aggregation:<br />
Insights at the molecular level.<br />
M. R. Gray<br />
9:45 140. Conversion of low-rank coals into<br />
upgraded coals and extracts having similar<br />
chemical and physical properties using<br />
degradative solvent extraction.<br />
L. Xian, Y. Hasegawa, M. Moromoto,<br />
R. Ashida, K. Miura<br />
10:20 Intermission<br />
10:35 141. Experimental and theoretical investigations<br />
of the pyrolysis of lignin<br />
model compounds. P. F. Britt,<br />
A. Buchanan, M. K. Kidder, A. Beste,<br />
B. G. Sumpter<br />
11:10 142. Ultra low sulfur fuels: Impacts of<br />
advanced HDS strategies on automotive<br />
emissions, fuel economy, and energy security.<br />
A. L. Boehman<br />
11:45 143. Advanced simulation tools for<br />
accelerating the development, and deployment<br />
of carbon capture technologies.<br />
A. Cugini, M. Syamlal, B. Morreale<br />
Section C<br />
Renaissance Boston Waterfront<br />
Atlantic Ballroom 2/3<br />
Hydrogen Production and Application<br />
Membrane Technology and H2 Application<br />
Cosponsored by COMSCI<br />
56–TECH<br />
J. Yang, Organizer<br />
X. Wang, Organizer, Presiding<br />
8:30 144. Dry reforming of methane cannot<br />
be used to produce hydrogen.<br />
T. S. Oyama<br />
‡ Cooperative Cosponsorship<br />
9:10 145. Thin-film membranes downstream<br />
to the reactor for novel energy-efficient<br />
processes in H 2 production. G. Centi,<br />
S. Perathoner, S. Abate, G. Iaquaniello<br />
9:30 146. Parameterizations of force constants<br />
in depend on change of induced<br />
local electrostatic field by change of environment<br />
in cluster model and approximate<br />
to bulk model at modeling of ionomer<br />
membrane. F. Keshtova,<br />
S. V. Keshtova<br />
9:50 147. Synthesis and application of micro-mesoporous<br />
material in the catalysts<br />
for the hydrotreating of transport fuels.<br />
Z. Zhao, D. Zhang, Q. Huo, A. Duan,<br />
J. Liu, G. Jiang, H. Pan, T. Dou<br />
10:30 Intermission<br />
10:40 148. Catalysis for the 21st century.<br />
r. J. Farrauto<br />
11:20 149. Use of nuclear energy for future<br />
transportation fuels. J. Herring,<br />
C. Stoots, J. O’Brien<br />
12:00 150. Regenerable adsorbent for liquid<br />
phase JP-8 fuel: A case study of gold/silica<br />
based adsorbent at room temperature.<br />
D. T. Tran, Z. W. Dunbar, D. Chu<br />
Section D<br />
Renaissance Boston Waterfront<br />
Caspian<br />
Fuel Cell Chemistry and Operation II<br />
Membranes Cosponsored by CATL<br />
(probationary)<br />
S. Hamrock, Organizer<br />
A. Herring, Organizer, Presiding<br />
8:30 Introductory Remarks<br />
8:35 151. FTIR study of perfluorinated ionomer<br />
membranes and model compounds.<br />
S. Schlick, L. Lin, M. Danilczuk,<br />
S. J. Hamrock, M. S. Schaberg<br />
9:00 152. Polystyrene-based superacidic<br />
fluoroalkyl sulfonated ionomers for fuel<br />
cell applications. Y. Chang,<br />
L. V. Brownell, T. Jo, C. Bae<br />
9:25 153. Hybrid inorganic/polymer ionomers<br />
for low RH fuel cell operation.<br />
A. M. Herring, J. L. Horan, M. Kuo,<br />
G. J. Schlichting, Z. Ziegler, F. Zhang,<br />
J. Jessop, S. Nelson<br />
9:50 154. Molecular dynamics simulation<br />
study of hydrated sulfonated poly (ether<br />
ether ketone) for application to polymer<br />
electrolyte membrane fuel cells in comparison<br />
with sulfonated polystyrene.<br />
G. F. Brunello, B. Watson, J. Fuller,<br />
S. Lee, S. Jang<br />
10:15 Intermission<br />
10:25 155. Inorganic sol-gel modified solution<br />
cast Nafion ® membranes for optimum<br />
performance and durability in fuel<br />
cells. S. Kulkarni, K. Mauritz<br />
10:50 156. Selective transport properties<br />
and water binding in proton exchange<br />
membranes. H. Xie, T. Saito, K. Xu,<br />
Q. Wang, M. A. Hickner<br />
11:15 157. Broadband dielectric spectroscopy<br />
studies of instrument - in situ annealed<br />
poly (2,5- benzimidazole) membrane<br />
materials. A. Nalawade,<br />
M. K. Hassan, K. A. Mauritz, M. H. Litt<br />
11:40 158. Design of triazole bearing sol-gel<br />
membranes as water free proton exchange<br />
membranes for hydrogen fuel<br />
cells, effect of crosslink density, and heterocycle<br />
content on membrane performance.<br />
S. Granados-Focil,<br />
J. R. Conway, Y. Meng, L. Smith<br />
Surface Science of Catalysis Sponsored by<br />
CATL (probationary), Cosponsored by COLL,<br />
FUEL, and PETR<br />
TUESDAY AFTERNOON<br />
Section A<br />
Renaissance Boston Waterfront<br />
Pacific Ballroom D<br />
New Energy Technologies<br />
Catalyst and Nanostructured Materials for<br />
New Energy Applications<br />
C. Liu, J. Chen, J. Wang, Organizers<br />
C. Sykes, Q. Ge, Presiding<br />
1:30 159. Tungsten carbides as alternative<br />
electrocatalysts: From surface science<br />
studies to fuel cell evaluation. J. G. Chen<br />
2:00 160. Catalyzing the catalyst: Hydrogen<br />
dissociation and spillover on individual<br />
isolated palladium atoms. H. Tierney,<br />
A. Baber, J. Kitchin, C. Sykes<br />
2:30 161. Understanding and designing hydrogen<br />
storage materials based on first<br />
principle computational analysis. Q. Ge<br />
3:00 162. Thermally reversible hydrino catalyst<br />
systems as a new power source.<br />
R. Mills, G. Zhao, K. Akhtar, Z. Chang,<br />
J. He, X. Hu, G. Wu, J. Lotoski, G. Chu<br />
3:30 Intermission<br />
Section B<br />
Renaissance Boston Waterfront<br />
Pacific Ballroom E<br />
Storch Award: Symposium in Honor of<br />
Chunshan Song<br />
Future Fuels and CO2 C. Song, Organizer<br />
C. Burgess, S. Oyama, Presiding<br />
1:30 Introductory Remarks<br />
1:35 163. Development of coal-based jet<br />
fuel: From JP-900 to JP-8 and Jet-A.<br />
H. Schobert<br />
2:10 164. From catalytic coal liquefaction to<br />
CO 2 capture and conversion towards fuels<br />
of the future. C. Song<br />
3:00 Intermission<br />
3:20 165. Discovery of the benefits produced<br />
when carbon dioxide is used in<br />
chemical, biological or technological applications.<br />
M. Aresta<br />
3:55 166. Development of highly functional<br />
TiO2 thin film materials by a RF magnetron<br />
sputtering method and their applications<br />
in the production of H2 from H2O<br />
and dye-sensitizer-free thin film solar<br />
cells. M. Anpo<br />
4:30 167. Mesoporous carbon and carbonbased<br />
nanocomposites as catalyst support<br />
for celluose conversion into polyols.<br />
A. Wang, Y. Zhang, J. Xu, J. Pang,<br />
M. Zheng, Y. Huang, T. Zhang<br />
Section C<br />
Renaissance Boston Waterfront<br />
Atlantic Ballroom 2/3<br />
Hydrogen Production and Application<br />
Biological and Solar Methods Cosponsored<br />
by COMSCI<br />
J. Yang, Organizer<br />
X. Wang, Organizer, Presiding<br />
1:30 168. Hydrogen production in Clostridium<br />
thermocellum via dark fermentation<br />
of lignocellulosic biomass. J. Jo,<br />
L. Magnusson, S. Thammannagowda,<br />
G. Pennington, P. Maness<br />
2:10 169. Synthesis and characterizaton of<br />
silver gallium selenide thin film for photoelectrochemical<br />
application. L. Chen,<br />
H. Tang, S. Shet, H. Wang, Y. Yan,<br />
J. Turner, M. Al-Jassim<br />
2:30 170. Photocatalytic hydrogen generation<br />
through water splitting on nano-crystalline<br />
LaFeO 3 perovskite. S. N. Tijare,<br />
M. M. Joshi, S. S. Rayalu,<br />
N. K. Labhasetwar<br />
2:50 171. Visible light induced photoreduction<br />
of water by N- doped mesoporous titania.<br />
M. M. Joshi, P. A. Mangrulkar,<br />
S. N. Tijare, S. Metkar, N. K. Labhsetwar,<br />
S. S. Rayalu<br />
3:10 172. Photoproduction of H 2 from water<br />
and biowastes using titania-based catalysts.<br />
G. Centi, R. Passalacqua,<br />
P. Fornasiero, C. Ampelli, S. Perathoner<br />
3:30 Intermission<br />
3:40 173. Photosynthetic hydrogen production<br />
from water splitting in the model organism<br />
Chlamydomonas reinhardtii.<br />
P. King, K. Ratcliff, M. Ghirardi<br />
4:20 174. Nano cobalt oxide for photocatalytic<br />
hydrogen production.<br />
P. A. Mangrulkar,M.V.Joshi,<br />
N. K. Labhsetwar, V. Polshettiwar,<br />
S. S. Rayalu<br />
4:40 175. Cadmium stannates as model<br />
photocatalytic systems for water decomposition<br />
and pollution abatement.<br />
B. Viswanathan, R. Viswanath,<br />
T. varadarajan, G. Magesh<br />
5:00 176. Effect of borate in photocatalysis.<br />
L. Gongxuan, J. Zhiliang<br />
5:20 177. Dissociation of H 2S in low current<br />
gliding arc tornado discharge.<br />
T. P. Nunnally, K. Gutsol, A. Rabinovich,<br />
A. Fridman, A. Starikovskii, A. Gutsol,<br />
A. Kemoun<br />
Section D<br />
Renaissance Boston Waterfront<br />
Caspian<br />
Fuel Cell Chemistry and Operation II<br />
Membranes and Fuel Cell Operation<br />
A. Herring, Organizer<br />
S. Hamrock, Organizer, Presiding<br />
1:30 178. New fuel cell membrane development<br />
at 3M. M. Schaberg, J. Abulu,<br />
M. Emery, G. Haugen, P. Xiong,<br />
S. Hamrock<br />
1:55 179. Thin film quartenary ammonium<br />
and phosphonium based anion exchange<br />
membranes. C. Arges, S. Kulkarni,<br />
A. Baranek, K. Pan, M. Jung, D. Patton,<br />
K. Mauritz, V. Ramani<br />
2:20 180. Anion exchange membranes<br />
based on highly fluorinated poly (arylene<br />
ether). J. Yan,B.L.Chaloux,<br />
M. A. Hickner<br />
2:45 181. Durability studies on performance<br />
degradation of catalysts and Nafion®<br />
membrane in direct methanol fuel cells.<br />
D. Kumari, E. S. Smotkin, C. Grice<br />
3:10 Intermission<br />
3:30 182. Perfluorocyclobutyl (PFCB) polymers<br />
for proton exchange membrane fuel<br />
cell (PEMFC) applications. G. D. Kalaw,<br />
J. N. Wahome, K. J. Balkus,<br />
I. H. Musselman, D. Yang, J. P. Ferraris<br />
3:55 183. RoleofCeO 2 addition to TiO 2based<br />
adsorbent in adsorptive desulfurization:<br />
A DFT study. J. Guo, S. Watanabe,<br />
M. Janik, C. Song<br />
4:20 184. Synthesis and comparative electrocatalytic<br />
study of Pt 3Ni nanoctahedra<br />
and nanocubes. J. Zhang, H. Yang,<br />
S. Zou, J. Fang<br />
4:45 185. Characterization of flow-through<br />
microbial fuel cells. S. Higgins,<br />
S. Minteer, M. Cooney<br />
5:10 186. Diesel fuel desulfurization for use<br />
in fuel cells. A. Jayaraman, G. Alptekin,<br />
J. Monroe, M. Dubovik<br />
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