TECHNICAL PROGRAM - American Chemical Society Publications

More documents

Recommendations

Info

9:35 300. Organic nanoparticles of metalloporphyrins as efficient catalysts for the selective oxidation of olefins under ambient conditions. A. Aggarwal,C.M.Drain 9:55 301. Effect of cations on the reduction of pentachlorophenol by zerovalent bimetallic nanoparticles. Y. Su, M. Chen, Y. Shih 10:15 Intermission 10:25 302. Nanocomposites for removal of pollutants. A. K. Das, D. Norton, J. Dinglasan, N. Loukine, D. Anderson 10:45 303. Application of nano-zerovalent iron (NZVI) for adsorption of antimony in shooting range soils: Characterization and Sb adsorption properties of NZVI. D. Amarasiriwardena, P. Dorjee, B. Xing 11:05 304. Mercury removal from aqueous effluents using zerovalent iron: Effect of particle size and implications for wastewater treatment. J. Vernon, J. Bonzongo 11:25 305. Iron oxide coated multiwall carbon nanotubes for the removal of arsenic from water. S. Addo Ntim, S. Mitra 11:45 306. Development of silica-gel-supported polyethylenimine sorbent for CO 2 capture. Z. Zhang, X. Ma, C. Song, Y. Wang Section B Renaissance Boston Waterfront Pacific Ballroom A/B Black Carbon as Geosorbent and Beyond: Contaminant Sorption, Soil Fertilization, and Carbon-Negative Strategy Utilization of Black Carbon Products in Agriculture, Environmental Remediation, and Other Applications Cosponsored by GEOC S. Uchimiya, J. Pignatello, J. Lehmann, Organizers, Presiding 8:30 Introductory Remarks 8:35 307. In situ sequestration of organics, metals, and carbon in contaminated sediments. U. Ghosh 9:05 308. Modeling the mass transfer of hydrophobic organic pollutants in sediment after amendment with activated carbon. D. Werner,S.E.Hale 9:25 309. Simultaneous removal of mercury(II) and PCBs by polysulfide-rubber(PSR)-coated activated carbon. E. Kim, R. G. Luthy 9:45 Intermission 10:15 310. Charcoal production: The state of the art. M. J. Antal, Jr 10:45 311. Oil shale semicoke as a carbon source: Sorbent capacity, reactivity and entrained compounds as functions of pyrolysis temperature and shale origin. J. L. Goldfarb, B. Datangel, I. Kulaots 11:05 312. Evaluation of chitosan coated granular activated carbon for treatment of perchlorate-contaminated munitions wastewater. V. M. Boddu, S. W. Maloney, D. S. Viswanath, T. K. Ghoash, S. M. Uchimiya 11:25 313. Aqueous nanodispersions of hydrothermal carbon for environmentally friendly and sustainable combustion processes. J. Texter, R. Crombez, M. Titrici, F. Perez-Caballero, M. Antonietti Section C Renaissance Boston Waterfront Atlantic Ballroom 2/3 Emerging Applications in Membrane Science and Technology Advances in Membrane Materials and Liquid Separations I. Escobar, Organizer B. Van der Bruggen, Organizer, Presiding 8:30 Introductory Remarks 8:35 314. Preparation of biofouling-resistant RO membranes by the attachment of ceragenins. M. Hibbs, S. Altman, L. McGrath, H. Jones, Y. Feng, P. Savage 8:50 315. Development of copper and silver charged polypropylene feed spacers for biofouling control. R. Hausman, T. Gullinkala, I. Escobar 9:05 316. Quantitative emerging materials characterization techniques to anticipate membrane biofouling. A. M. Zaky 9:20 317. N-isopropylacrylamide (NIPAAM) modified ultrafiltration membranes. C. Gorey, I. Escobar, G. Bothun 9:35 318. Adsorptive fouling resistance of carbon nanotube blended polyethersulfone membranes. E. Celik, H. Choi 9:50 319. Study of nanoparticle rejection using a tailor-made ultrafiltration polysulfone membrane. S. Hakim Elahi, I. C. Escobar 10:05 Intermission 10:15 320. Grafting binary monomers and solvent effects for improved protein resistance. Y. S. Ho, M. Gu, C. Kilduff, G. Belfort 10:30 321. Hydrophilization of thin film composite membrane support layers for engineered osmosis applications. J. McCutcheon, J. Arena, N. Bui 10:45 322. Surface functionalization of polybenzimidizole membranes to increase hydrophilicity and charge. B. Digman, I. C. Escobar, R. Hausman, M. Coleman, T. Chung 11:00 323. Chiral signatures in passive samplers support a better understanding of transformation of contaminants in water. V. D. Dang,C.M.Lee 11:15 324. Imprinted polymers and membranes for Cd 2� and Zn 2� removal from water. S. A. Ashraf, A. Mueller 11:30 325. Reversible cation exchangemembrane (RCIX-MEM) process for scaling free, energy efficient desalination of seawater. S. Sarkar,A.K.SenGupta 11:45 Concluding Remarks THURSDAY AFTERNOON Section A Renaissance Boston Waterfront Atlantic Ballroom 1 Environmental Applications and Implications of Nanotechnology General Papers Financially supported by Q-Sense, Division of Biolin Scientific C. Vecitis, K. Chen, Y. Jun, Organizers A. Gu, Organizer, Presiding 1:30 Introductory Remarks 1:35 326. Chemical reduction of hexabromocyclododecane by zerovalent iron nanoparticles. C. Tso, Y. Shih, C. Lin 1:55 327. Removal of atrazine and trimethoprim by iron oxide nanoparticle-impregnated mesoporous carbon. Y. Kim 2:15 328. Spectroscopic investigations of arsenic redox transformations by nanoscale zero-valent iron (nZVI). W. Yan, M. A. Ramos, X. Li, B. E. Koel, W. Zhang 2:35 329. Transport of polysaccharide-stabilized iron nanoparticles in porous media: Effect of surface and solution chemistry. M. Zhang,D.Zhao 2:55 330. Sequestration of malodorous sulfides with zero-valent iron nanoparticles. X. Li 3:15 Intermission 3:25 331. Effect of natural organic matter on the stability and mobility of polymercoated iron nanoparticles. B. Jung, B. E. Sleep, D. M. O’Carroll 3:45 332. Development of carbon-based “molecular basket” sorbent for CO 2 capture from flue gas. D. Wang, C. Shalaby, X. Ma, C. Song 4:05 333. Stability and mobility of metal oxide nanoparticles in porous media. C. Contreras, J. George, K. Paredes, H. J. Shipley 4:25 334. Gold nanoparticle-based selective and ultrasensitive detection of iodide by SERS. S. S. Dasary, D. Senapati, A. Singh, T. Arbneshi, H. Yu, P. C. Ray 4:45 335. Utilization of polymer cross-linkers to improve the thermal stability of “molecular-basket” sorbents. E. P. Fillerup, X. Wang, X. Ma, C. Song 5:05 Best Graduate Student Presentation Awards Section B Renaissance Boston Waterfront Pacific Ballroom A/B Black Carbon as Geosorbent and Beyond: Contaminant Sorption, Soil Fertilization, and Carbon-Negative Strategy Fate and Function of Black Carbon in Soil and Sediment Cosponsored by GEOC S. Uchimiya, J. Pignatello, J. Lehmann, Organizers, Presiding 1:30 Introductory Remarks 1:35 336. Rapid screening of biochar products for soil functional attributes. S. P. Sohi, A. Cross, M. Borlinghaus 2:05 337. Impacts of biochar additions on soil microbial processes and nitrogen cycling. K. A. Spokas 2:35 338. Biochar: Mother Nature’s nanotechnology. R. S. Stein, H. S. McLaughlin 2:55 Intermission 3:25 339. Pyrogenic matter dynamics in the soil: Characterization, stabilization processes, C budget and effects on soil properties. S. Abiven, M. Schneider, N. Singh, B. Maestrini, M. Schmidt 3:55 340. Biomass plant fly ash as a source of black carbon for amending agricultural soils. A. F. Carpenter 4:15 341. Interactions of engineered soot to natural organic matter and extracellular polymeric substances: Resulting surface modification and field application. J. Lohwacharin, K. Oguma, S. Takizawa 4:35 342. Biochar as a soil amendment: Soil Survey considerations for future management directions. C. A. Stiles, L. T. West, C. W. Smith, J. Gaskin Section C Renaissance Boston Waterfront Atlantic Ballroom 2/3 Environmental Health Volatiles and Aerosols: Novel Direct Measurement Methods Relevant to Lung Disease J. Hill, J. Peccia, Organizers B. Holmen, Organizer, Presiding 1:30 343. Rapid detection of tobramycin impacts on Pseudomonas aeruginosa volatile organic compound production by SESI-MS. Y. Kuo,J.Hill 1:50 Discussion 1:55 344. Volatile signature of P. aeruginosa adaptation to the cystic fibrosis lung. H. D. Bean, Y. Kuo, J. Zhu, J. E. Hill 2:15 Discussion 2:20 345. Next-generation DNA sequencing reveals viral diversity in biosolids. K. J. Bibby, E. J. Viau, J. Peccia 2:40 Discussion 2:45 Intermission 2:55 346. Airport air: What are we breathing? R. L. Vander Wal, V. M. Bryg, C. Hunag 3:15 Discussion 3:20 347. Preliminary investigation of traffic emissions in the vicinity of an inner city elementary school. B. Albrinck, M. Lu, J. Hu, C. Chaiwatpongsakorn, V. K. Nemalapuri, H. Wei 3:40 Discussion 3:45 348. Quantitative estimates of the volatility of ambient organic aerosol. C. D. Cappa, J. L. Jimenez 4:05 Discussion 4:10 349. Organic aerosol composition using a combined thermal desorption aerosol gas chromatograph (TAG) - high resolution time-of-flight aerosol mass spectrometer (HR-ToF-AMS). B. Williams, A. Lambe, J. Jayne, D. Worsnop, N. L. Ng, M. Canagaratna, L. Williams, J. Kimmel, D. Sueper, N. Kreisberg, S. Herring, D. Worton, A. Goldstein 4:30 Discussion FUEL Division of Fuel Chemistry C. Liu, Program Chair SOCIAL EVENTS: Dinner, 6:30 PM: Tue BUSINESS MEETING: Program Meeting, 2:00 PM: Sun Executive Council Meeting, 4:00 PM: Sun Business Meeting, 12:00 PM: Mon SUNDAY MORNING Section B Renaissance Boston Waterfront Pacific Ballroom E Ionic Liquids in Sustainable Energy and Fuels CO2 Capture, Gas Absorption and Separations Cosponsored by I&EC W. Henderson, Organizer E. Maginn, Organizer, Presiding ENVR/FUEL 8:30 Introductory Remarks 8:40 1. Synthesis, characterization and performance of single-component CO 2binding organic liquids (CO 2BOLs) for post combustion CO 2 capture. P. K. Koech, D. J. Heldebrant, J. E. Rainbolt, F. Zheng, T. Smurthwaite 9:00 2. Ab initio description of CO 2 interactions with anions in ionic liquids. J. A. Steckel,W.Shi 9:20 3. Predicting CO 2 complexation in ionic liquids using reaction ensemble Monte Carlo. T. W. Rosch,E.J.Maginn 9:40 4. Ionic liquid gas absorption of NO X, CO X and SO X. S. Saravanamurugan, J. Due-Hansen, S. Kegnæs, T. Grétarsdóttir, A. Riisager, R. Fehrmann 10:00 Intermission 10:10 5. Ionic liquids with aprotic heterocyclic anions for post-combustion CO2 capture. B. Goodrich, S. Seo, L. Wilson, L. Ficke, M. Massel, D. Zadigian, J. F. Brennecke 10:45 6. Origin of products in homogeneous CO hydrogenation reactions. J. H. Blank, D. J. Cole-Hamilton 11:20 7. Separation of ethanol from water using phosphonium-based ionic liquids. C. M. Neves, M. G. Freire, J. A. Coutinho The official technical program for the 240th National Meeting is available at: www.acs.org/boston2010 TECH–53
FUEL TECHNICAL PROGRAM Section C Renaissance Boston Waterfront Brewster Non-thermal Plasma Assisted Fuel Conversion for Green Chemistry General Future Fuel Issues A. Gutsol, T. Nozaki, Organizers, Presiding 8:30 Introductory Remarks 8:35 8. Acidity analysis of HZSM-5 zeolite prepared using plasma template removal via dielectric barrier discharges. Y. Liu, P. Kuai, P. Huo, C. Liu 8:55 9. Low temperature plasma assisted dissociation of hydrogen sulfide. K. Gutsol, T. Nunnally, A. Rabinovich, A. Starikovskiy, A. Fridman, A. Gutsol, A. Kemoun 9:15 10. Effect of plasma assisted pretreatment of wheat straw on enzymatic hydrolysis, and ethanol fermentation. N. Schultz-Jensen, Z. Kadar, F. Leipold 9:35 11. Chemical intermediate detection following corona discharge on volatile organic compounds: General method using molecular beam techniques. L. He, M. Sulkes 9:55 12. Current-voltage characteristics of in-liquid plasma. S. Nomura, S. Mukasa, H. Toyota, M. Kageura 10:15 Intermission Section A Renaissance Boston Waterfront Pacific Ballroom D Nanotech for Sustainable Energy and Fuels Solar Energy and Photocatalysis C. Liu, F. Besenbacher, Z. Wang, Organizers E. Kadossov, Presiding U. Burghaus, Organizer, Presiding 9:00 Introductory Remarks 9:05 13. CuO x /TiO 2 nanostructure for photocatalytic hydrogen production. V. Gombac, T. Montini, L. Sordelli, M. Cargnello, P. Fornasiero 9:25 14. Design considerations for nanowire heterojunctions in solar energy conversion/storage applications. K. V. Hagedorn, C. Forgacs, S. Collins, S. Maldonado 9:45 15. Synthesis and characterization of TiO 2 nanotube films via pulsed laser deposition for solar cell applications. S. D. Perera, K. J. Balkus 10:05 Intermission 10:15 16. Synthesis of fullerene tethered double-cable diblock copolymers based on P3HT and its application in polymer solar cells. D. Lee, J. P. Ferraris 10:35 17. Enhancing photochemical activity of semiconductor nanoparticles with optically active metallic nanostructures: Photochemistry mediated by surface plasmons. S. Linic, P. Chrisotpher, D. B. Ingram 10:55 18. High efficiency water photolysis by titanium dioxide nanowire thin films. M. Liu,N.d.Snapp,H.Park 11:15 19. Porphyrin sensitized solar cell: Synthesis, photophysics, and photovoltaics. H. He, V. Pogula, M. Shrestha, M. Dubey, Y. Zhong, M. Yan, X. Yan 54–TECH ‡ Cooperative Cosponsorship Section C Renaissance Boston Waterfront Brewster Non-thermal Plasma Assisted Fuel Conversion for Green Chemistry Stationary Plasma Fuel and CO2 Conversion A. Gutsol, T. Nozaki, Organizers, Presiding 10:35 20. Plasma fuel reforming. A. Fridman, A. Rabinovich, A. Gutsol 11:05 21. Decomposition of CO2 by large flow atmospheric microwave plasma (LAMP). S. Parajulee, S. Ikezawa, M. Hayakawa 11:25 22. Dissociation of CO2 in low current gliding arc plasmatron. T. P. Nunnally, K. Gutsol, A. Rabinovich, A. Fridman, A. Starikovskii, A. Gutsol, A. Kemoun 11:45 23. Non-thermal plasma-chemical CO2 utilization: COx polymer formation. R. Geiger, D. Staack 12:05 24. Dry reforming of methane using a dielectric barrier plasma reactor. J. C. Whitehead, H. J. Gallon, X. Tu, M. V. Twigg Operando and In Situ Spectroscopy X-ray Methods Sponsored by CATL (probationary), Cosponsored by COLL, FUEL, and PETR SUNDAY AFTERNOON Section A Renaissance Boston Waterfront Pacific Ballroom D Nanotech for Sustainable Energy and Fuels Catalyst and Nanomaterials Cosponsored by CATL (probationary) C. Liu, F. Besenbacher, Z. Wang, Organizers U. Burghaus, Organizer, Presiding R. Tenne, Presiding 1:25 Introductory Remarks 1:30 25. Catalytic model systems studied by high-resolution, video-rate scanning tunneling microscopy. F. Besenbacher 2:05 26. Core-shell catalysts and bimodal catalysts for Fischer-Tropsch synthesis. N. Tsubaki 2:40 27. Effect of surface oxygen containing groups on carbon nanotube supported catalyst. X. Wang, N. Li, L. D. Pfefferle, G. L. Haller 3:00 28. Bond activation in thiophene and catalyst poisoning: Nanosize Mo clusters supported on silica for desulfurization catalysis. E. Kadossov, M. Komarneni, J. Justin, U. Burghaus 3:20 29. Free-standing palladium/polyamide 6 nanofibers for electrooxidation of alcohols in alkaline medium. L. Su, W. Jia, Y. Lei 3:40 Intermission 3:50 30. Routes for core-shell inorganic nanotubes. R. Kreizman, S. Y. Hong, F. L. Deepak, A. N. Enyashin, R. Popovitz-Biro, A. Albu-Yaron, G. Seifert, R. Tenne 4:25 31. Reversible nanoconfined chemical reaction. T. K. Nielsen,U.Bösenberg, R. Gosalawit, M. Dornheim, Y. Cerenius, T. Jensen, F. Besenbacher 4:45 32. How geometry relaxation in metallic nanoparticle affects the oxygen reduction reaction. C. Lu, G. Henkelman 5:05 33. Correlation between preparation methods and surface carbon formed in CH 4 and CO 2 dry reforming on Ni-based catalysts. L. Guczi, A. Kiennemann, G. Stefler 5:25 34. Promotion effect of nano Ga 2O 3 particles on CO 2 adsorption and conversion. Y. Pan, P. Kuai, Y. Liu, C. Liu 5:45 35. Palladium/titanium dioxide nanofibers for glycerol electrooxidation in alkaline medium. L. Su, W. Jia, Y. Lei Section B Renaissance Boston Waterfront Pacific Ballroom E Ionic Liquids in Sustainable Energy and Fuels Extraction and Separation E. Maginn, W. Henderson, Organizers P. Wasserscheid, Presiding 2:00 36. Ionic liquids in catalytic conversion and separation processes for the production of clean and sustainable fuels. P. Wasserscheid 2:35 37. Ionic liquids as sustainable solvents in petrochemicals extraction. W. Meindersma,F.S.Onink, A. R. Hansmeier, A. B. de Haan 3:10 38. Developing inexpensive eutectic ionic liquids for biodiesel synthesis. H. Zhao, S. Holmes 3:45 Intermission 4:00 39. Towards in situ extraction of biofuels from fermentations with ionic liquids: Partitioning and bacterial toxicology. S. A. Gangu, L. R. Weatherley, A. M. Scurto 4:20 40. Extraction of lipids and biodiesel from biomass using co-solvent mixtures of ionic liquids and polar covalent molecules. G. Young, M. J. Cooney 4:40 41. Ionic liquid pretreatment of poplar wood at room temperature: Swelling and incorporation of nanoparticles. M. Lucas, B. A. Macdonald, G. L. Wagner, S. A. Joyce, K. D. Rector 5:00 42. Dissolution of polyaromatics in ionic liquids. W. Henderson, M. Gebbie Section C Renaissance Boston Waterfront Brewster Non-thermal Plasma Assisted Fuel Conversion for Green Chemistry On-Board Plasma Fuel and Methane Conversion A. Gutsol, T. Nozaki, Organizers, Presiding 2:00 43. Plasma reforming of E85 for hydrogen rich gas production. X. Zhu, T. Hoang, L. Lobban, R. Mallinson 2:30 44. Single step methane conversion into liquid oxygenates using multiphase flow, microplasma reactor. T. Nozaki, A. Agiral, S. Yuzawa, H. J. Gardeniers, k. 0kazaki 2:50 45. Oxidation of carbon particle by lattice oxygen on/in oxide catalyst with an application of electrical discharge. Y. Sekine, H. Koyama, M. Matsukata, E. Kikuchi 3:10 46. Plasma-catalytic hybrid system using spouted bed with gliding arc discharge. H. Lee, H. Sekiguchi 3:30 47. Oxidation of methane in a DBD-catalyst system with rare gas dilution. A. Janeco, N. Pinhão, A. Ferreira, J. Branco 3:50 Intermission 4:05 48. Effect of discharge properties on conversion of methane using pulsed DC discharge field. M. Okada, R. Hattori, Y. Kuwayama, S. Furukawa, T. Hiaki 4:25 49. Non thermal plasma reforming of hydrocarbon fuels with gliding arc discharge. F. Odeyemi, M. Gallagher, A. Rabinovich, A. Fridman 4:45 50. Methane conversion to higher hydrocarbons using warm non-equilibrium microplasma glow discharge. S. Parimi, D. Staack 5:05 51. Coke free dry reforming of n-dodecane by low energy pulsed electric discharge at low temperature. Y. Sekine, n. furukawa, M. Matsukata, E. Kikuchi 5:25 Concluding Remarks MONDAY MORNING Section A Renaissance Boston Waterfront Pacific Ballroom D Nanotech for Sustainable Energy and Fuels Energy Storage C. Liu, F. Besenbacher, U. Burghaus, Z. Wang, Organizers E. Kadossov, M. Liu, Presiding 8:30 52. Metal oxide/carbon nanotubes nano-hybrid materials for energy storage applications. S. Ma, J. Kim, H. Kim, H. Choi, K. Kim 8:50 53. High lithiation capacity and rate capability observed with amorphous MoO 2 electrodes for lithium-ion batteries. S. Oh, J. Ku, J. Ryu 9:10 54. Virus templated lithium ion battery materials: New cathodes for higher energy and capacity. M. A. Allen, R. Kolesnikov-Lindsey, A. M. Belcher 9:30 55. Defects enhanced Li-ion intercalation properties in nanostructured electrodes for lithium ion batteries. D. Liu, D. Yu, G. Cao 10:05 Intermission 10:15 56. Multiscale synthesis of functional nanostructured materials for energy applications. J. Liu 10:50 57. Effect of anion substitution in metal borohydrides. L. H. Rude, Y. Filinchuk, M. Sørby, B. Hauback, T. Jensen 11:10 58. Energy materials under extreme conditions: Electro-thermo-mechanical coupling in TEM. R. Shahbazian Yassar, H. Ghassemi, A. Asthana, Y. K. Yap 11:30 59. Coaxial electrospun PEG/PVDF- (core/sheath) composite non-woven mats as energy storage material. J. Park, T. Nguyen 11:50 60. Catalytic activation of CO 2 into useful carbonates products over metallic nanocatalysts supported on metal organic frameworks. V. Abdelsayed, Y. Fan, T. Gardner Section B Renaissance Boston Waterfront Pacific Ballroom E Ionic Liquids in Sustainable Energy and Fuels Biomass Processing E. Maginn, Organizer W. Henderson, Organizer, Presiding 8:30 61. How can we improve the dissolution and recovery of biopolymers from biomass in ionic liquids specifically for biofuels applications? W. Li, N. Sun, R. D. Rogers 9:05 62. From cellulose to fermentable sugars. R. Rinaldi, P. Engel, J. Büchs, A. C. Spiess, F. Schüth 9:25 63. Enzymatic hydrolysis of lignocellulose in ionic liquid-aqueous systems. P. W. Wolski, K. Shill, H. W. Blanch, D. S. Clark 9:45 64. Fermentable sugars by chemical hydrolysis of biomass in an ionic liquid. R. T. Raines 10:05 Intermission Photographing or recording meeting sessions and/or activities other than your own are prohibited at all official ACS events without written consent from ACS.
Page 1 and 2: PRES TECHNICAL PROGRAM PRES Preside
Page 3 and 4: AEI/AGFD TECHNICAL PROGRAM 69. Ster
Page 5 and 6: AGFD TECHNICAL PROGRAM 2:20 99. Con
Page 7 and 8: AGFD/ANYL TECHNICAL PROGRAM Section
Page 9 and 10: ANYL TECHNICAL PROGRAM 107. Near in
Page 11 and 12: ANYL/BIOT/BIOL TECHNICAL PROGRAM WE
Page 13 and 14: BIOL TECHNICAL PROGRAM 111. His115
Page 15 and 16: BIOL/BMGT/CARB TECHNICAL PROGRAM WE
Page 17 and 18: CARB TECHNICAL PROGRAM 8:45 56. Str
Page 19 and 20: CATL/CHED TECHNICAL PROGRAM 51. Syn
Page 21 and 22: CHED TECHNICAL PROGRAM 88. Carbocat
Page 23 and 24: CHED TECHNICAL PROGRAM 235. Phospha
Page 25 and 26: CHED TECHNICAL PROGRAM 9:05 375. In
Page 27 and 28: CINF TECHNICAL PROGRAM 11:00 10. Do
Page 29 and 30: TOXI TECHNICAL PROGRAM 1:00 Founder
Page 31 and 32: CHAL/COLL TECHNICAL PROGRAM MONDAY
Page 33 and 34: COLL TECHNICAL PROGRAM 4:20 83. Nan
Page 35 and 36: COLL TECHNICAL PROGRAM 227. Biologi
Page 37 and 38: COLL TECHNICAL PROGRAM 11:30 374. B
Page 39 and 40: COLL/COMP TECHNICAL PROGRAM Section
Page 41 and 42: COMP TECHNICAL PROGRAM Section F Bo
Page 43 and 44: COMP TECHNICAL PROGRAM 1:30 205. Pe
Page 45 and 46: COMP TECHNICAL PROGRAM Section C Bo
Page 47 and 48: ENVR TECHNICAL PROGRAM 9:45 4. Ioni
Page 49 and 50: ENVR TECHNICAL PROGRAM Section C Re
Page 51: ENVR TECHNICAL PROGRAM Section D Bo
Page 55 and 56: FUEL TECHNICAL PROGRAM TUESDAY MORN
Page 57 and 58: FUEL/GEOC TECHNICAL PROGRAM 1:30 24
Page 59 and 60: I&EC/INOR TECHNICAL PROGRAM TUESDAY
Page 61 and 62: INOR TECHNICAL PROGRAM 3:40 87. NMR
Page 63 and 64: INOR TECHNICAL PROGRAM 231. Biotran
Page 65 and 66: INOR TECHNICAL PROGRAM 2:40 360. In
Page 67 and 68: INOR TECHNICAL PROGRAM 476. Ratiome
Page 69 and 70: INOR TECHNICAL PROGRAM 9:30 613. La
Page 71 and 72: INOR/MEDI TECHNICAL PROGRAM Section
Page 73 and 74: MEDI TECHNICAL PROGRAM 54. Novel tu
Page 75 and 76: MEDI TECHNICAL PROGRAM 172. Synthes
Page 77 and 78: MEDI TECHNICAL PROGRAM 2:00 281. Co
Page 79 and 80: MEDI TECHNICAL PROGRAM 383. Identif
Page 81 and 82: NUCL TECHNICAL PROGRAM NUCL Divisio
Page 83 and 84: NUCL/ORGN TECHNICAL PROGRAM 2:50 12
Page 85 and 86: ORGN TECHNICAL PROGRAM 4:00 95. Cat
Page 87 and 88: ORGN TECHNICAL PROGRAM 270. Design,
Page 89 and 90: ORGN TECHNICAL PROGRAM 4:40 424. Pr
Page 91 and 92: ORGN TECHNICAL PROGRAM 4:20 563. Ca
Page 93 and 94: ORGN TECHNICAL PROGRAM 734. Efficie
Page 95 and 96: ORGN TECHNICAL PROGRAM 3:20 891. Co
Page 97 and 98: ORGN/PETR TECHNICAL PROGRAM 1075. S
Page 99 and 100: PHYS TECHNICAL PROGRAM SOCIAL EVENT
Page 101 and 102: PHYS TECHNICAL PROGRAM 1:30 118. El
Page 103 and 104:
PHYS TECHNICAL PROGRAM 1:30 230. Ma
Page 105 and 106:
PHYS TECHNICAL PROGRAM Boston Conve
Page 107 and 108:
PHYS TECHNICAL PROGRAM 531. Compari
Page 109 and 110:
POLY TECHNICAL PROGRAM 10:20 4. Gat
Page 111 and 112:
POLY TECHNICAL PROGRAM 11:25 124. A
Page 113 and 114:
POLY TECHNICAL PROGRAM TUESDAY MORN
Page 115 and 116:
POLY TECHNICAL PROGRAM 10:30 361. I
Page 117 and 118:
POLY/PMSE TECHNICAL PROGRAM Section
Page 119 and 120:
PMSE TECHNICAL PROGRAM Section E We
Page 121 and 122:
PMSE TECHNICAL PROGRAM 1:30 Introdu
Page 123 and 124:
PMSE/PROF TECHNICAL PROGRAM 9:40 34
Page 125 and 126:
SCHB/CCS/CCPA/CWD/CEPA/CEI TECHNICA
Page 127:
WCC/YCC TECHNICAL PROGRAM MONDAY MO
show all

TECHNICAL PROGRAM - American Chemical Society Publications

Create successful ePaper yourself

Delete template?

Save as template?