隔行如隔山，不懂装懂贻笑大方
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|个人分类:|系统分类:|关键词:隔行如隔山，不懂装懂，贻笑大方，高分子，分子量，催化
今天读了一篇文献，作者立意不错，结果也很好，写作手法更是不错，科学网上某人还写博客推荐过，但是读到其中的一段，感觉非常的不舒服，如鲠在喉，不吐不快。这篇文章，用polymer stablize nanoparticle in solution因为目的是做催化，所以要除掉polymer作者说从实用角度出发，应该尽可能的少用polymer这没错但是你猜作者接下来说啥了？作者说，我们发现，用Mw=360k的polymer代替Mw=40k的polymer，那么所需polymer浓度可以降低10倍，有效的减少了polymer的用量然后俺擦了擦眼睛，仔细得看了好几遍，又用作者给的加料量自己计算了好几遍（因为伊没有明说他降低了10倍的那个浓度到底是啥浓度），伊讨论的浓度，果然是摩尔浓度！你丫把分子量提高了9倍，又把摩尔浓度降低了10倍，你自己算算你的polymer用量到底少了多少？？！！附：文章链接：http://www.pnas.org/content/105/40/15241.abstract
Synthesis of heterogeneous catalysts with well shaped
platinum particles to control reaction selectivity
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【讨论】Shape and Morphologe Control Synthesis 探讨我们所需要的催化材料
从两篇最新的Paper出发：
Chem. Commun., 86–3288
Enhanced catalytic activity of Ce1xMxO2 (M = Ti, Zr, and Hf) solid solution with controlled morphologiesw
Wei-Ta Chen,z Kuei-Bo Chen, Ming-Fang Wang, Sheng-Feng Weng, Chi-Shen Lee* and M. C. Lin
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HIGHLIGHT：J. Mater. Chem., 91–3798
Catalytic nanoparticles being facet-controlled
Kwangyeol Lee,* Minsik Kim and Heonjo Kim
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一篇通讯，一篇综述，但是讲的都是我们当今催化研究所需要的什么样的催化材料，这几年研究较多的CeOx, ZnO等等，如果你正好有什么与大家分享的，请顶贴探讨！
延伸阅读：
Synthesis of heterogeneous catalysts with well shaped platinum particles to control
reaction selectivity
Ilkeun Lee, Ricardo Morales, Manuel A. Albiter, and Francisco Zaera*
PNAS
October 7, 2008
vol. 105
no. 40
1
马博士推荐的Zaera教授院刊名篇！！
/d/b62c193ce08bd2ebdb645da61000
Recent Advances in the Liquid-Phase Synthesis of Metal Nanostructures with
Controlled Shape and Size for Catalysis
Natalia S Lioubov Kiwi-Minsker b
Catalysis Reviews,51:2,147 — 217
/d/e125da94832eeb3b0
Factors Governing the Catalytic Reactivity of Metallic Nanoparticles
Denis UGilles Berhault b
Catalysis Reviews, 52: 1, 106 — 131
/d/d05fc1af4b
Nanostructured Oxides in Chemistry: Characterization and Properties
M. Ferna&ndez-Garcı&a,*,† A. Martı&nez-Arias,† J. C. Hanson,‡ and J. A. Rodriguez*,‡
Chem. Rev. ,
Shape Control of Semiconductor and Metal Oxide Nanocrystals through Nonhydrolytic Colloidal Routes
Young-wook Jun, Jin-sil Choi, and Jinwoo Cheon*
Angew. Chem. Int. Ed. 14 – 3439
Methods for Preparation of Catalytic Materials
James A. Schwarz* Cristian Contescu and Adriana Contescu
Chem. Rev. -51 0
Nanoalloys: From Theory to Applications of Alloy Clusters and Nanoparticles
Riccardo Ferrando, Julius Jellinek, and Roy L. Johnston
Chem. Rev.,
(3), 845-910
Theory of Preparation of Supported Catalysts
A. V. Nelmark, L. I. Kheifez, and V. B. Fenelonov’
Ind. Eng. Chem. Prod. Res. Dev. 9-450
Recent developments in catalysis using nanostructured materials
N. Raveendran Shiju, Vadim V. Guliants *
Applied Catalysis A: General 356 (
还有严纯华教授的诸多牛文不一一列举，
真挚希望催化虫友就这个话题知无不言，共同讨论！
希望以后，你能把所有的文献放在一个纳米盘里！哈哈 Originally posted by jinkai838 at
希望以后，你能把所有的文献放在一个纳米盘里！哈哈 如果放一个文件，我传不上去，不好意思没国内传的顺畅 Why you donot say Professor Xia? In my view, he is the best in this field. Originally posted by americanyk at
Why you donot say Professor Xia? In my view, he is the best in this field. sorry, his research has less related with catalysis
/publication.shtml
Shape and Size Effects of ZnO Nanocrystals on Photocatalytic Activity,
Anna McLaren, Teresa Valdes-Solis, Guoqiang Li; Shik Chi Tsang,
Journal of the American Chemical Society, (2009), 131(35), . :D:D谢谢分享 特定的形貌通常与暴露晶面直接相关，而各个晶面表面不饱和原子个数对反应物分子的吸附是不同的。这方面的工作成为近年来催化研究的一个热点
去年大化所申老师的Science工作：Co3O4纳米棒的合成及CO氧化研究就是一个典型例子。清华的李亚栋老师在这方面也有一些非常不错的工作 Originally posted by ^_^@^_^ at
特定的形貌通常与暴露晶面直接相关，而各个晶面表面不饱和原子个数对反应物分子的吸附是不同的。这方面的工作成为近年来催化研究的一个热点
去年大化所申老师的Science工作：Co3O4纳米棒的合成及CO氧化研究就是一 ... 兄所言及是，李教授的研究就像前面有位兄台推荐的夏幼南一样催化很少，包括他的学生王珣教授，他的导师钱老及中科大的众多在近期AM专刊中发文的他的众师兄弟，棒子那篇HL的综述机理推荐Somorjai教授的那篇science，和杨培东有部分合作
F. Tao, M. E. Grass, Y. Zhang, D. R. Butcher, J. R. Renzas, Z. Liu, J. Y. Chung, B. S. Mun, M. Salmeron and G. A. Somorjai,
Science, , 932.
H. Lee, S. E. Habas, G. A. Somorjai and P. Yang,
J. Am. Chem. Soc., ,&&5406. 受教了 谢谢啊 记得有次李亚栋来做报告时，说他现在一个很重要的任务就是给他合成出来的材料找婆家，好嫁出去。
而催化性质作为纳米材料性能的一个重要应用，肯定是他们考虑的一个重要方面。这不，这两年仅在JACS上的催化工作就有2篇 Originally posted by ^_^@^_^ at
记得有次李亚栋来做报告时，说他现在一个很重要的任务就是给他合成出来的材料找婆家，好嫁出去。
而催化性质作为纳米材料性能的一个重要应用，肯定是他们考虑的一个重要方面。这不，这两年仅在JACS上的催化工作就 ... 我们要找老婆...:) 支持，确实设计和合成材料是一方面，关键是找到相关的应用，这个需要找到合适的探针反应，毕竟不是一个催化剂打遍天下，这里面估计还是相当讲究的.最近电化学上，大家也开始考虑做这个，因为电化学相对表征比其他反应，特别有机催化反应要简单很多。但是一般的电化学人都是从物理化学过来，对材料的合成有些欠缺. Originally posted by yjfeng2000 at
支持，确实设计和合成材料是一方面，关键是找到相关的应用，这个需要找到合适的探针反应，毕竟不是一个催化剂打遍天下，这里面估计还是相当讲究的.最近电化学上，大家也开始考虑做这个，因为电化学相对表征比其他 ... 兄说的正是，电化学是和催化相通的，没有说电化学出来的效果好，到常规催化就差的，前面ZnO的JACS就是很好的例子
Shape and Size Effects of ZnO Nanocrystals on Photocatalytic Activity,
Anna McLaren, Teresa Valdes-Solis, Guoqiang Li; Shik Chi Tsang,
Journal of the American Chemical Society, (2009), 131(35), .
也有看到朱道本院士在做一些贵金属的可控合成 楼主的帖子真好，能不能弱弱的问一句，我无法从纳米盘下载，而且更悲剧的是楼主提供的许多文献参考我无法从数据库下载，因为学校没有购买相关数据库，金币也不多啊，能否请楼主好心将你传至纳米盘的上述文献发我一份到邮箱啊
万分感谢啊！:P:P 谢谢分享，受教了啊 :D:D:D:D:D 各位是或者即将是这方面的大牛，菜鸟学习了，谢谢楼主的好帖。 好贴!!!!!!!!&& 查看话题
Publications of Francisco Zaera
http://www.chem.ucr.edu/groups/Zaera/lab.html
Jarod Wilson, Hansheng Guo, Ricardo Morales, Egor Podgornov, Ilkeun Lee and Francisco Zaera, Kinetic Measurements of Hydrocarbon Conversion Reactions on Model Metal Surfaces, PCCP, submitted.
F. Zaera, J. L. Sales, M. V. Gargiulo, M. Ciacera, and G. Zgrablich, On the Formation of Nitrogen Islands on Rhodium Surfaces, J. Phys. Chem. C, submitted.
Min Shen, Qiang Ma, Ilkeun Lee, and Francisco Zaera, Oxygen Adsorption and Oxide Formation on V(100) Surfaces, J. Phys. Chem. C, submitted.
M. A. Albiter, R. Huirache-Acu&a, F. Paraguay-Delgado, F. Zaera, and G. Alonso-Nú&ez, Co(Ni)/MoS2 Nanostructured Catalysts Tested for the Hydrodesulphurization of Dibenzothiophene, J. Nanotechnol. Nanoscience, submitted.
Mingde Xu, Hugo Tiznado, Byung-Chang Kang, Menno Bouman, Ilkeun Lee, and Francisco Zaera, Mechanistic Details of Atomic Layer Deposition (ALD) Processes, J. Korean Phys. Soc., in press.
Francisco Zaera, Surface Science Studies of the Mechanism of NOx Conversion: Correlations between Kinetics in Vacuum and Under Catalytic Conditions, in Past and Present in DeNOx Catalysis: From Molecular Modeling to Chemical Engineering, Pascal Granger and Vasile Parvulescu, Editors, Elsevier, in press.
Rodolfo Omar U&ac, Victor Bustos, Jarod Wilson, Giorgio Zgrablich, and Francisco Zaera, Molecular beam measurements and Monte Carlo simulations of the kinetics of N2O decomposition on Rh(111) single-crystal surfaces, J. Chem. Phys., in press.
Gabriela Pérez-Osorio, Felipe Castillón, Andrey Simakov, Hugo Tiznado, Francisco Zaera, and Sergio Fuentes, Effect of Ceria-Zirconia Ratio on the Interaction of CO with PdO/Al2O3-(CeX-Zr1-X)O2 Catalysts Prepared by Sol-Gel Method, Appl. Catal. B, 69(3-4), 219-225 (2007).
Zhen Ma and Francisco Zaera, Competitive Chemisorption between Pairs of Cinchona Alkaloids and Related Compounds from Solution onto Platinum Surfaces, J. Am. Chem. Soc., 128(51),
L. A. Avalos, V. Bustos, R. U&ac, F. Zaera, G. Zgrablich, Dynamic Monte Carlo Simulation of the NO+CO Reaction on Rh(111), J. Phys. Chem. B, 110(49),
Ryan A. Olsen, Dan Borchardt, Larry Mink, Arun Agarwal, Leonard J. Mueller, and Francisco Zaera, Effect of protonation on the conformation of cinchonidine, J. Am. Chem. Soc., 128(49),
Francisco Zaera, Catalyst design based on surface science and nanomaterials, Chapter 2 in Advanced Catalysis Design II, The Catalysis Group, Spring House, PA, 2006, pp 3-43.
Zhen Ma and Francisco Zaera, Organic Chemistry on Solid Surfaces, Surf. Sci. Rep., 61(5), 229-282 (2006).
Hugo Tiznado and Francisco Zaera, Surface chemistry in the atomic layer deposition of TiN films from TiCl4 and ammonia, J. Phys. Chem. B, 110(27)
Ilkeun Lee and Francisco Zaera, Chiral Templating of Surfaces: Adsorption of 2-Methylbutanoic Acid on Pt(111) Single-Crystal Surfaces, J. Am. Chem. Soc., 128(27),
211. Ricardo Morales and Francisco Zaera, Thermal Chemistry of 1-Methyl-1-Cyclopentene and Methylene Cyclopentane on Pt(111) Surfaces: Evidence for Double-Bond Isomerization, J. Phys. Chem. B, 110(19),
Jieying Jiao, Franklin Anariba, Hugo Tiznado, Izabela Schmidt, Jonathan S. Lindsey, Francisco Zaera, and David F. Bocian, Stepwise Formation and Characterization of Covalently Linked Multiporphyrin-Imide Architectures on Si(100), J. Am. Chem. Soc., 126(21),
Hansheng Guo and Francisco Zaera, Xenon as a Probe for Minority Sites on Solid Surfaces, Nature Mater., 5(6), 489-493 (2006).
Z. Ma and F. Zaera, Characterization of Heterogeneous Catalysis, in Surface and Nanomolecular Catalysis, Ryan Richards, editor, Taylor and Francis CRC Press, 2006.
Lingyun Wei, Hugo Tiznado, Guangming Liu, Kisari Padmaja, Jonathan S. Lindsey, Francisco Zaera and David F. Bocian, Adsorption Characteristics of Tripodal-Thiol-Functionalized Porphyrins on Gold, J. Phys. Chem. B, 109,
Z. Ma and F. Zaera, Heterogeneous Catalysis by Metals, in Encyclopedia of Inorganic Chemistry, Second Edition, R. B. King, editor-in-chief, John Wiley & Sons, Weinheim, pp.
Ilkeun Lee and Francisco Zaera, Selectivity in Platinum-Catalyzed Cis-Trans Carbon-Carbon Double-Bond Isomerization, J. Am. Chem. Soc., 127,
Ilkeun Lee and Francisco Zaera, Enantioselectivity of Adsorption Sites Created by Chiral 2-Butanol Adsorbed on Pt(111) Single-Crystal Surfaces, J. Phys. Chem. B, 109(26),
Francisco Zaera, The Surface Chemistry of Heterogeneous Catalysis: Mechanisms, Selectivity, and Active Sites, Chem. Rec., 5(3), 133-144 (2005).
F. Zaera, Mechanisms of Hydrocarbon Conversion Reactions on Heterogeneous Catalysts: Analogies with Organometallic Chemistry, Top. Catal., 34 (1-4), 129-141 (2005).
Lingyun Wei, Dennis Syomin, Robert S. Loewe, Jonathan S. Lindsey, Francisco Zaera, and David F. Bocian, Structural and Electron-Transfer Characteristics of Carbon-Tethered Porphyrin Monolayers on Si(100), J. Phys. Chem. B, 109(13),
Z. Ma and F. Zaera, The Role of the Solvent in the Adsorption-Desorption Equilibrium of Cinchona Alkaloids between Solution and a Platinum Surface: Correlations among Solvent Polarity, Cinchona Solubility, and Catalytic Performance, J. Phys. Chem. B, 109(1), 406-414 (2005).
I. Lee and F. Zaera, Thermal Chemistry of C4 Hydrocarbons on Pt(111): Mechanism for Double-Bond Isomerization, J. Phys. Chem. B, 109(7),
V. V. Gorodetskii, A. V. Matveev, E. A. Podgornov and F. Zaera, Study of the Low Temperature Reaction Between CO and O2 over Pd and Pt Surfaces, Top. Catal., 32(1-2), 17-28 (2005).
R. Morales, L. Melo, A. Llanos and F. Zaera, Characterization of Bifunctional PtSn/HZSM5 Catalysts: A Comparison between Two Impregnation Strategies, J. Mol. Catal. A, 228(1-2), 227-232 (2005).
L. A. Avalos, V. Bustos, R. U&ac, F. Zaera and G. Zgrablich, Toward a Realistic Model for the Kinetics of the NO+CO Reaction on Rhodium Surfaces, J. Mol. Catal. A, 228(1-2), 89-95 (2005).
F. Zaera, Tuning Selectivity in Hydrocarbon Conversion Catalysis, J. Mol. Catal. A, 228(1-2), 21-26 (2005).
S. Wehner, M. T. Paffett, and F. Zaera, Molecular Beam Studies of the Kinetics of N2O Thermal Conversion on Rh(111) Single-Crystal Surfaces, J. Phys. Chem. B, 108(48),
Amir A. Yasseri, Dennis Syomin, Robert S. Loewe, Jonathan S. Lindsey, Francisco Zaera and David F. Bocian, Structural and Electron-Transfer Characteristics of O-, S-, and Se-Tethered Porphyrin Monolayers on Si(100), J. Am. Chem. Soc., 126(47),
H. Guo and F. Zaera, Thermal Chemistry of Iodomethane on Ni(110): 2.&&Effect of Coadsorbed Oxygen, J. Phys. Chem. B, 108(41),
H. Guo and F. Zaera, Thermal Chemistry of Iodomethane on Ni(110): 1.&&Clean and Hydrogen Predosed Surfaces, J. Phys. Chem. B, 108(41),
H. Tiznado, S. Fuentes and F. Zaera, Infrared Study of CO Adsorbed on Pd/Al2O3-ZrO2. Effect of Zirconia Added by Impregnation, Langmuir,&&20(24),
Amir A. Yasseri, Vladimir L. Malinovskii, Rob Lowe, Francisco Zaera,&&Jonathan S. Lindsey and David F. Bocian, Characterization of Self-Assembled Monolayers of Porphyrins Bearing Multiple Thiol-Derivatized Rigid-Rod Tethers,&&J. Am. Chem. Soc., 126(38),
Alfonso Loaiza and Francisco Zaera, Regiospecificity in Deuterium Labeling Determined by Mass Spectrometry, J. Am. Soc. Mass Spectrom., 15(9),
Zhen Ma and Francisco Zaera, In-Situ Reflection-Absorption Infrared Spectroscopy at the Liquid-Solid Interface: Decomposition of Organic Molecules on Polycrystalline Platinum Substrates,&&Catal. Lett., 96(1-2), 5-12 (2004).
Z. Ma, I. Lee, J. Kubota and F. Zaera, In-Situ Characterization of the Adsorption of Cinchona Chiral Modifiers on Platinum Surfaces, J. Mol. Catal. A: Chem., 216, 199-207 (2004).
F. Zaera, Mechanistic Requirements for Catalytic Active Sites, J. Phys.: Cond. Matter, 16 (22), S2299 -S).
F. Zaera, Surface Chemistry of Hydrocarbon Fragments on Transition Metals: Towards Understanding Catalytic Processes (2003 North America Catalysis Society Paul H. Emmett Award Lecture), Catal. Lett., 91(1-2), 1-10 (2003).
183. H. Guo and F. Zaera, Thermal Chemistry of Diiodomethane on Ni(110) Surfaces: II. Effect of Coadsorbed Oxygen, Surf. Sci., 547(3), 299-314 (2003).
H. Guo and F. Zaera, Thermal Chemistry of Diiodomethane on Ni(110) Surfaces: I. Clean and Hydrogen Predosed, Surf. Sci., 547(3), 284-298 (2003).
W. Chu, R. J. LeBlanc, C. T. Williams, J. Kubota and F. Zaera, Vibrational Band Assignments for the Chiral Modifier Cinchonidine: Implications for Surface Studies, J. Phys Chem. B, 107(51),
N. Gleason, J. Guevremont and F. Zaera, Thermal chemistry of 2-Propanol and 2-Propyl Iodide on Clean and Oxygen-Pretreated Ni(100) Single Crystal Surfaces, J. Phys. Chem. B, 107 (40),
Z. Ma, J. Kubota and F. Zaera, The Influence of Dissolved Gases on the Adsorption of Cinchonidine from Solution onto Pt Surfaces: An In-Situ Infrared Study, J. Catal., 219(2), 404-416 (2003).
Q. Zhao and F. Zaera, Adsorption and Thermal Conversion of 2-Iodoethanol on Ni(100) Surfaces: Hydroxyalkyls and Oxametallacycles as Key Intermediates during the Catalytic Oxidation of Hydrocarbons, J. Phys. Chem. B, 107(34),
Q. Zhao and F. Zaera, Switching of Alcohol Oxidation Mechanism on Nickel Surfaces by Fluorine Substitution, J. Am. Chem. Soc., 125(36),
H. Guo and F. Zaera, Reactivity of Hydroxyl Species from Coadsorption of Oxygen and Water on Ni(110) Single-Crystal Surfaces, Catal. Lett., 88(3-4), 95-104 (2003).
F. Zaera, The Surface Chemistry of Hydrocarbon Partial Oxidation Catalysis, Catal. Today, 81(2), 149-157 (2003).
V. Bustos, R. U&ac, F. Zaera and G. Zgrablich, Lattice-Gas Study of the Kinetics of the Catalytic NO-CO Reaction on Rhodium Surfaces. II. The Effect of Nitrogen Surface Islands, J. Chem. Phys., 118,
J. Kubota, Z. Ma and F. Zaera, In-Situ Characterization of Adsorbates in Solid-Liquid Interfaces by Reflection-Absorption Infrared Spectroscopy, Langmuir, 19(8);
H. Guo and F. Zaera, The Reactivity of Hydroxyl Groups towards Ammonia on Ni(110) Surfaces, Surf. Sci., 524/1-3, 1-14, (2003).
F. Zaera and C. S. Gopinath, On the Mechanism for the Reduction of Nitrogen Monoxide on Rh(111) Single-Crystal Surfaces, Physical Chemistry Chemical Physics, 5, 646-654 (2003).
K. M. Roth, A. A. Yasseri, Z. Liu, V. Malinovskii, K.-H. Schweikart, L. Yu, H. Tiznado, F. Zaera, J. S. Lindsey, W. G. Kuhr and D. F. Bocian, Measurements of Electron Transfer Rates of Charge-Storage Molecular Monolayers on Si(100).&&Towards Hybrid Molecular/Semiconductor Information Storage Devices, J. Am. Chem. Soc., 125(2); 505-517 (2003).
H. Guo, D. Chrysostomou, J. Flowers and F. Zaera, The Effect of Coadsorbed Oxygen on the Chemistry of Ammonia over Ni(110) Single Crystal Surfaces, J. Phys. Chem. B, 107(2), 502-511 (2003).
F. Zaera, Infrared and Molecular Beam Studies of Chemical Reactions on Solid Surfaces, Int Rev. Phys. Chem., 21, 433-471 (2002).
H. &Ofner and F. Zaera, Ethylene Adsorption on Platinum: Kinetics, Bonding, and Relevance to Catalysis, J. Am. Chem. Soc., 124,
F. Zaera, The Surface Chemistry of Hydrocarbon Fragments on Transition Metals: Towards Understanding Catalytic Processes, Molec. Phys., 100,
T. V. W. Janssens and F. Zaera, 1,1- and 1,3-Diiodo Neopentanes on Pt(111).&&Intermediates during Hydrocarbon Catalytic Conversion Reactions, J. Catal., 208, 345-358 (2002).
F. Zaera, Outstanding Mechanistic Questions in Heterogeneous Catalysis, J. Phys. Chem. B, 106,
F. Zaera, Selectivity in Hydrocarbon Catalytic Reforming: A Surface Chemistry Perspective, Appl. Catal., 229, 75-91 (2002).
F. Zaera, Kinetics of Chemical Reactions on Solid Surfaces: Deviations from Conventional Theory, Acc. Chem. Res., 35, 125-136 (2002).
T. V. W. Janssens and F. Zaera, Neopentyl Iodide on Pt(111). II. Hydrogenation and H-D Exchange, Surf. Sci., 501, 16-30 (2002).
T. V. W. Janssens and F. Zaera, Neopentyl Iodide on Pt(111). I. Adsorption and Thermal Decomposition, Surf. Sci., 501, 1-15 (2002).
F. Zaera, The Surface Chemistry of Catalysis: New Challenges Ahead (Invited contribution for the special 500th issue of Surface Science), Surf. Sci., 500, 947-965 (2002).
F. Zaera, Surface Characterization and Structural Determination: Optical Methods, in The Encyclopedia of Chemical Physics and Physical Chemistry, J. Moore and N. Spencer, editors, Institute of Physics Publishing (UK), Vol. 2, pp.
F. Zaera and C. S. Gopinath, Effect of Coverage and Temperature on the Kinetics of Nitrogen Desorption from Rh(111) Surfaces, J. Chem. Phys., 116,
Ali H. Ali and F. Zaera, Kinetic Study on the Selective Catalytic Oxidation of 2-Propanol to Acetone over Nickel Foils, J. Mol. Catal. A, 177, 215-235 (2002).
F. Zaera, Probing Catalytic Reactions at Surfaces, Prog. Surf. Sci., 69, 1-98 (2001).
J. Kubota and F. Zaera, Adsorption Geometry of Modifiers as Key in Imparting Chirality to Platinum Catalysts, J. Am. Chem. Soc., 123,
F. Zaera, S. Wehner, C. S. Gopinath, J. L. Sales, V. Gargiulo and G. Zgrablich, Evidence for the Formation of Nitrogen Islands on Rhodium Surfaces, J. Phys. Chem. B, 105,
152. C. S. Gopinath and F. Zaera, NO + CO + O2 Reaction Kinetics on Rh(111): A Molecular Beam Study, J. Catal., 200, 270-287 (2001).
151. D. Chrysostomou, A. Chou and F. Zaera, Thermal Chemistry of C3 Metallacycles on Pt(111) Surfaces, J. Phys. Chem. B, 105,
150. V. Bustos, C. S. Gopinath, R. U&ac, F. Zaera and G. Zgrablich, Lattice-Gas Study of the Kinetics of Catalytic Conversion of NO-CO Mixtures on Rhodium Surfaces, J. Chem. Phys., 114,
149. F. Zaera, J. M. Guevremont and N. R. Gleason, Direct Evidence for the Formation of a C–O Bond Between Adsorbed Species, J. Phys, Chem. B, 105,
148. F. Zaera and C. S. Gopinath, Surface Intermediates during the Catalytic Reduction of NO on Rhodium Catalysts: A Kinetic Inference, J. Mol. Catal. A, 167, 23-31 (2001).
147. C. M. Aldao, R. M. Lambert, W. T. Tysoe, G. Zgrablich and F. Zaera, Proceedings of the Second San Luis Conference on Surface Science and Catalysis: Preface, J. Mol. Catal. A., 167, 1 (2001).
146. D. Chrysostomou and F. Zaera, Thermal Chemistry of C3 Allyl Groups on Pt(111), J. Phys. Chem. B, 105,
145. F. Zaera and C. S. Gopinath, Evidence for a N2O Intermediate in the Catalytic Reduction of NO to N2 on Rhodium Surfaces, Chem. Phys. Lett., 332, 209-214 (2000).
144. D. Chrysostomou, C. French and F. Zaera, The Thermal Chemistry of Propyl Groups on Pt(111), Catal. Lett., 69, 117-128 (2000).
143. J. M. Guevremont, S. Sheldon and F. Zaera, Design and Characterization of Collimated Effusive Gas Beam Sources:&&Effect of Source Dimensions and Backing Pressure on Total Flow and Beam Profile, Rev. Sci. Instr., 71,
142.&&F. Zaera and C. S. Gopinath, Kinetics of NO Reduction by CO on Rh(111): A Molecular Beam Study, Studies in Surface Science and Catalysis Series, Vol. 130 (Proc. 12th Int. Cong. Catal., Granada, Spain, July 9-14, 2000), Elsevier, Amsterdam, 2000, pp. .
141. F. Zaera and D. Chrysostomou, Propylene on Pt(111).&&II. Hydrogenation, Dehydrogenation, and H-D Exchange, Surf. Sci., 457, 89-108 (2000).
140. F. Zaera and D. Chrysostomou, Propylene on Pt(111).&&I. Characterization of Surface Species by Infrared Spectroscopy, Surf. Sci., 457, 71-88 (2000).
139. C. S. Gopinath and F. Zaera, Transient Kinetics During the Isothermal Reduction of NO by CO on Rh(111) as Studied with Effusive Collimated Molecular Beams, J. Phys. Chem., 104,
138. C. J. Jenks, B. E. Bent, and F. Zaera, The Chemistry of Alkyl Iodides on Copper Surfaces.&&II.&&Influence of Surface Structure on Reactivity, J. Phys. Chem., 104,
137. C. J. Jenks, B. E. Bent, N. Bernstein, and F. Zaera , The Chemistry of Alkyl Iodides on Copper Surfaces.&&I.&&Adsorption Geometry, J. Phys. Chem., 104,
136. F. Zaera&&and C. S. Gopinath, The Role of Adsorbed Nitrogen in the Catalytic Reduction of NO on Rhodium Surfaces, J. Chem. Phys., 111,
135. F. Zaera, N. R. Gleason, B. Klingenberg, A. H. Ali, Partial Oxidation of Hydrocarbons on Nickel:&&From Surface Science Mechanistic Studies to Catalysis, J. Mol. Catal., 146, 13-23 (1999).
134. C. S. Gopinath and F. Zaera, A Molecular Beam Study of the Kinetics of the Catalytic Reduction of NO by CO on Rh(111) Single Crystal Surfaces, J. Catal., 186, 387-404 (1999). 133. D. Chrysostomou, J. Flowers, and F. Zaera, The Thermal Chemistry of Ammonia on Ni(110), Surf. Sci., 439, 34-48 (1999).
132. C. R. French and F. Zaera, Surface-Induced Rotational Isomerism within Solid 1,3-Diiodopropane Thin Films, Chem. Phys. Lett., 309, 321-326 (1999).
131. J. C. de Jesús and F. Zaera, Adsorption and Thermal Chemistry of Acrolein and Crotonaldehyde on Pt(111) Surfaces, Surf. Sci., 430, 99-115 (1999).
130. S. Tjandra and F. Zaera, Thermal Chemistry of 1,6-Diiodohexane on Ni(100) Single Crystal Surfaces:&&Mimicking Cyclization Reactions, J. Phys. Chem. A, 103,
129. F. Zaera and C. R. French, Mechanistic Changes in the Conversion of Ethylene to Ethylidyne on Transition Metals Induced by Changes in Surface Coverages,&&J. Am. Chem. Soc., 121,
128. J. C. de Jesús and F. Zaera, Double-Bond Activation in Unsaturated Aldehydes: Conversion of Acrolein to Propene and Ketene on Pt(111) Surfaces, J. Mol. Catal. A, 138, 237-240 (1999).
127. F. Zaera, The Surface Chemistry of Hydrocarbons on Transition Metal Surfaces:&&A Critical Review, Isr. J. Chem., 38, 293-311 (1998).
126. T. V. W. Janssens, D. Stone, J. C. Hemminger and F. Zaera, Kinetics and Mechanism for the H/D Exchange between Ethylene and Deuterium over Pt(111), J. Catal., 177, 284-295 (1998).
125. F. Zaera, Brian E. Bent ? In Memoriam, 1960 ? 1996, J. Mol. Catal. A, 131, 3-4 (1998). (Dedication).
124. F. Zaera, The Surface Science of Catalysis, J. Mol. Catal. A, 131, 1-2 (1998). (Editorial).
123. M. Aryafar and F. Zaera, Isothermal Kinetic Study of the Decomposition of Nitric Oxide on Rh(111) Surfaces, J. Catal., 175, 316-327 (1998).
122. N. R. Gleason, C. J. Jenks, C. R. French, B. E. Bent and F. Zaera, Adsorption and Thermal Decomposition of n-Azopropane on Pt(111), Surf. Sci., 405, 238-260 (1998).
121. F. Zaera, S. Tjandra and T. V. W. Janssens, Selectivity among Dehydrogenation Steps for Alkyl Groups on Metal Surfaces:&&Comparison between Nickel and Platinum, Langmuir, 14,
120. F. Zaera and M. Salmeron, Coadsorption of Sulfur and Carbon Monoxide on Platinum Single-Crystal Surfaces Studied by Scanning Tunneling Microscopy, Langmuir, 14,
119. J. C. de Jesús, J. Carrazza, P. Pereira and F. Zaera, Hydroxylation of NiO Films: The Effect of Water and Ion Bombardment during the Oxidation of Nickel Foils with O2 under Vacuum, Surf. Sci., 397, 34-47 (1998).
118. J. Liu, M. Xu and F. Zaera, Adsorption and Oxidation of CO on Pt(111) Surfaces, Fenzi Cuihua, 11, 50-54 (1997).
117. A. Loaiza, D. Borchardt and F. Zaera, A NMR Method for the Analysis of Mixtures of Alkanes with Different Deuterium Substitutions, Spectrochim. Acta A, 53,
116. M. Aryafar and F. Zaera, Kinetic Study of the Catalytic Oxidation of Alkanes over Nickel, Palladium, and Platinum Foils, Catal. Lett., 48, 173-183 (1997).
115. H. &Ofner and F. Zaera, Surface Defect Characterization in Oxygen-Dosed Nickel Surfaces and in NiO Thin Films by CO Adsorption-Desorption Experiments, J. Phys. Chem. B, 101,
114. N. R. Gleason and F. Zaera, Mechanistic Studies of Alkane Partial Oxidation Reactions on Nickel Oxide by Modern Surface Science Techniques, in 3rd World Congress on Oxidation Catalysis&&(Elsevier Studies in Surface Science and Catalysis Series, Vol. 110), R. K. Grasselli, S. T. Oyama, A. M. Gaffney and J. E. Lyons, editors, Elsevier, Amsterdam, 1997, pp. 235-244.
113. N. R. Gleason and F. Zaera, The Use of Low-Energy Ion Scattering Spectroscopy for the Quantitative Determination of Adsorption Sites in Surface Chemistry Studies, Surf. Sci., 385, 294-309 (1997).
112. N. R. Gleason and F. Zaera, Thermal Conversion of 2-Propyl Iodide on O/Ni(100): Changes in Product Distribution with Varying Oxygen Coverages, J. Catal., 169, 365-381 (1997).
111. S. Tjandra and F. Zaera, Thermal Chemistry of Dihalopropanes on Ni(100) Single Crystal Surfaces: Formation of Cyclopropane, Propene and Propane, J. Phys. Chem., 101,
110. F. Zaera, J. Liu and M. Xu, Isothermal Study of the Kinetics of Carbon Monoxide Oxidation on Pt(111): Rate Dependence on Surface Coverage, J. Chem. Phys., 106,
109. T. V. W. Janssens, G. Jin and F. Zaera, Change in Reaction Pathway Induced by Deuteration: Thermal Decomposition of Neopentyl Groups on Pt(111) Surfaces, J. Am. Chem. Soc., 119,
108. H. &Ofner and F. Zaera, Isothermal Kinetics Measurements for the Hydrogenation of Ethylene on Pt(111) Under Vacuum: Significance of Weakly-Bound Species in the Reaction Mechanism, J. Phys. Chem. B, 101, 396-408 (1997).
107. J. C. de Jesús, P. Pereira, J. Carrazza and F. Zaera, Influence of Argon Ion Bombardment on the Oxidation of Nickel Surfaces, Surf. Sci., 369, 217-230 (1996).
106. F. Zaera and S. Tjandra, The Thermal Chemistry of Neopentyl Iodide on Ni(100) Surfaces: Selectivity Between a-C-H and g-C-H and between C-H and C-C Bond-Scission Steps in Chemisorbed Neopentyl Moieties, J. Am. Chem. Soc., 118,
105. S. Tjandra and F. Zaera, A Surface Science Study of the Hydrogenation and Dehydrogenation Steps in the Interconversion of C6 Cyclic Hydrocarbons on Ni(100), J. Catal., 164, 82-93 (1996).
104. F. Zaera, T. V. W. Janssens and H. &Ofner, Reflection-Absorption Infrared Spectroscopy and Kinetic Studies of the Reactivity of Ethylene on Pt(111) Surfaces, Surf. Sci., 368, 371-376 (1996).
103. T. V. W. Janssens and F. Zaera, Chemistry of Ethylidene Moieties on Platinum Surfaces: 1,1-Diiodoethane on Pt(111), J. Phys. Chem., 100,
102. F. Zaera, In Situ NEXAFS Characterization of Surface Intermediates, in X-Ray Absorption Fine Structure for Catalysis and Surfaces, Y. Iwasawa, ed., World Scientific, Singapore, 1996, pp. 362-371.
101. M. Xu, J. Liu and F. Zaera, Kinetic Evidence for the Dependence of Surface Reaction Rates on the Distribution of Reactants on the Surface, J. Chem. Phys., 104,
100. J. Liu, M. Xu and F. Zaera, Determination of the Rate Limiting Step in the Oxidation of CO on Pt(111) Surfaces, Catal. Lett., 37, 9-13 (1996).
M. Xu and F. Zaera, Mechanistic Studies of the Thermal Decomposition of Metal Carbonyls on Ni(100) Surfaces in Connection with Chemical Vapor Deposition Processes, J. Vac. Sci Technol., A14, 415-424 (1996).&&
98. A. Loaiza, M. Xu and F. Zaera, On the Mechanism of the H-D Exchange Reaction in Ethane over Platinum Catalysts, J. Catal., 159, 127-139 (1996).
97. F. Zaera, On the Mechanism for the Hydrogenation of Olefins on Transition Metal Surfaces: The Chemistry of Ethylene on Pt(111), Langmuir, 12, 88-94 (1996).
96. F. Zaera, An Organometallic Guide to the Chemistry of Hydrocarbon Moieties on Transition Metal Surfaces, Chem. Rev., 95,
T. V. W. Janssens and F. Zaera, The Role of Hydrogen-Deuterium Exchange Reactions in the Conversion of Ethylene to Ethylidyne on Pt(111), Surf. Sci., 344, 77-84 (1995).
S. Tjandra and F. Zaera, Thermal Reactions of Alkyl Iodides on Ni(100) Single Crystal Surfaces, J. Am. Chem. Soc., 117,
J. Liu, M. Xu, T. Nordmeyer and F. Zaera, Sticking Probabilities for CO Adsorption on Pt(111) Surfaces Revisited, J. Phys. Chem., 99,
S. Tjandra and F. Zaera, The Surface Chemistry of Ethyl Iodide on Hydrogen-Covered Ni(100) Surfaces, Surf. Sci., 322, 140-150 (1995).
S. Tjandra and F. Zaera, Adsorption and Thermal Decomposition of Propyl Iodides on Ni(100) Surfaces, Langmuir, 10,
M. Xu and F. Zaera, Evidence for Ligand Exchange in Iron Pentacarbonyl Adsorbed on Ni(100) Surfaces, Surf. Sci., 315, 40-50 (1994).
F. Zaera and N. Bernstein, On the Mechanism for the Conversion of Ethylene to Ethylidyne on Metal Surfaces: Vinyl Halides on Pt(111), J. Am. Chem. Soc., 116,
S. Tjandra and F. Zaera, A Study of the Thermal Reactions of Methyl Iodide Coadsorbed with Hydrogen on Ni(111) Surfaces: Hydrogenation of Methyl Species to Methane, J. Catal., 147, 598-600 (1994).
F. Zaera and S. Tjandra, Low-Temperature Decomposition of Alkyl Iodides on Ni(100) Surfaces: Evidence for the Formation of Alkyl Free Radicals, J. Phys. Chem., 98,
R. M. Ormerod, R. M. Lambert, H. Hoffmann, F. Zaera, L. P. Wang, D. W. Bennett and W. T. Tysoe, Room-Temperature Chemistry of Acetylene on Pd(111): Formation of Vinylidene, J. Phys. Chem., 98,
85. F. Zaera, Molecular Approach to the Study of the Mechanisms of Alkyl Reactions on Metal Surfaces, J. Mol. Catal., 86, 221-242 (1994).&&
S. Tjandra and F. Zaera, The Effect of Hydrogen Coadsorption on the Thermal Chemistry of Methyl Iodide on Ni(100) Surfaces, J. Catal., 144, 361-376 (1993).&&
R. M. Ormerod, R. M. Lambert, H. Hoffmann, F. Zaera, J. M. Yao, D. K. Saldin, L. P. Wang, D. W. Bennett and W. T. Tysoe, NEXAFS Identification of a Catalytic Reaction Intermediate: C4H4 on Pd(111), Surf. Sci., 295, 277-286 (1993).&&
F. Zaera, Surface Science Studies on the Mechanism for H-D Exchange of Methane over Pt(111) Surfaces Under Vacuum, Stud. Surf. Sci. Catal., 75,
F. Zaera and S. Tjandra, Evidence for a New Reaction in Organic/Metal Systems: Elimination of Methyl Groups from Alkyl Species Chemisorbed on Nickel Surfaces, J. Am. Chem. Soc., 115,
S. Tjandra and F. Zaera, The Thermal Chemistry of Ethyl Iodide Chemisorbed on Ni(100), Surf. Sci., 289, 255-266 (1993).
C. J. Jenks, B. E. Bent, N. Bernstein and F. Zaera, Chemistry of 1-Iodopropane on Cu(110): Formation, Bonding, and Reactions of Adsorbed Propyl Groups, J. Am. Chem. Soc., 115, 308-314 (1993).&&
H. Hoffmann and F. Zaera, A FT-RAIRS Study of Alkyl Radicals Chemisorbed on Single Crystal Surfaces, Proc. 8th Int. Conf. Fourier Transf. Spectrosc. (SPIE Vol. 1575; Lhubeck, Germany), 273-274 (1992).&&
T. Nordmeyer and F. Zaera, A Theoretical Study of the Parameters Affecting the Kinetics of Gas Adsorption on Solid Surfaces, J. Chem. Phys., 97,
S. Tjandra and F. Zaera, Evidence for a New Low Temperature Methane Formation Pathway Upon Coadsorption of Hydrogen with Methyl Iodide on Ni(100) Surfaces, J. Am. Chem. Soc., 114,
C. J. Jenks, B. E. Bent, N. Bernstein and F. Zaera, Evidence for an Unusual Coordination Geometry for Ethylene on Cu(110), Surf. Sci., 277, L89-L94 (1992).
S. Tjandra and F. Zaera, Methyl Iodide Thermal Reactions When Chemisorbed on Ni(100) Surfaces, Langmuir, 8,
(1992). Correction published, Langmuir, 9, 880 (1993).&&
F. Zaera, Preparation and Reactivity of Alkyl Groups Adsorbed on Metal Surfaces, Acc. Chem. Res., 25, 260-265 (1992).&&
F. Zaera, Tungsten Hexacarbonyl Thermal Decomposition on Ni(100) Surfaces, J. Phys. Chem., 96,
(1992). 71.
H. Hoffmann, F. Zaera, R. M. Ormerod, R. M. Lambert, J. M. Yao, D. K. Saldin, L. P. Wang, D. W. Bennett and W. T. Tysoe, A Near Edge X-ray Absorption Fine Structure and Photoelectron Spectroscopic Study of the Structure of Acetylene on Pd(111) at Low Temperature, Surf. Sci., 268, 1-10 (1992).&&
S. Tjandra and F. Zaera, Determination of the Activation Energy for the Dissociation of the Carbon-Iodine Bond in Methyl Iodide Adsorbed on Ni(100) Surfaces, J. Vac. Sci. Technol., A10, 404-405 (1992).
F. Zaera, Study of the Surface Chemistry of Methyl Iodide Coadsorbed with Hydrogen on Pt(111), Surf. Sci., 262, 335-350 (1992).&&
H. Hoffmann, P. R. Griffiths and F. Zaera, A RAIRS Study on the Surface Chemistry of Ethyl Iodide on Pt(111), Surf. Sci., 262, 141-150 (1992).&&
F. Zaera, Mechanism for the Catalytic Exchange of Methane with Deuterium on Pt(111) Surfaces, Catal. Lett., 11, 95-104 (1991).&&
F. Zaera, Reversibility of C1 Hydrogenation-Dehydrogenation Reactions on Platinum Surfaces under Vacuum, Langmuir, 7,
65. F. Zaera, Mechanism for the Decomposition of Iron Pentacarbonyl on Pt(111): Evidence for Iron Tetracarbonyl and Iron Tricarbonyl Intermediates, Surf. Sci., 255, 280-288 (1991).
64. T. Nordmeyer and F. Zaera, A Monte Carlo Simulation for the Precursor Model of Adsorption on a Spatially Homogeneous Surface, Chem. Phys. Lett., 183, 195-198 (1991).
63. F. Zaera and H. Hoffmann, Detection of Chemisorbed Methyl and Methylene Groups: Surface Chemistry of Methyl Iodide on Pt(111), J. Phys. Chem., 95,
62. S. Tjandra and F. Zaera, Static Secondary Ion Mass Spectrometry as a Tool for Studying Surface Reactions: the Decomposition of Ethylene over Ni(100) Surfaces, Langmuir, 7,
61. F. Zaera, Kinetic Study of the Chemical Vapor Deposition of Iron Films Using Iron Pentacarbonyl, Langmuir, 7,
60. F. Zaera, H. Hoffmann and P. R. Griffiths, Determination of Molecular Chemisorption Geometries Using Reflection-Absorption Infrared Spectroscopy: Alkyl Halides on Pt(111), J. Electron Spectrosc. Relat. Phenom., 54/55, 705-715 (1990).
59. F. Zaera, Study of the Surface Chemistry of Ethyl Groups on Pt(111) by Using Partially Deuterated Ethyl Iodide, J. Phys. Chem., 94,
58. F. Zaera, H. Hoffmann and P. R. Griffiths, Isolation and Surface Reactions of Ethyl Groups on Pt(111):&&a RAIRS, TPD and XPS Study, Vacuum, 41, 735-736 (1990).
57. J. P. Fulmer, W. T. Tysoe and F. Zaera, An Angle-Resolved Photoelectron Spectroscopy and Near-Edge X-ray Absorption Fine Structure Study of the Bonding and Orientation of NO on a Mo(100) Surface, Langmuir, 6,
56. J. L. Gland, D. A. Fischer, S. Shen and F. Zaera, Displacement of CO Chemisorbed on Metals by Hydrogen, J. Am. Chem. Soc., 112,
55. H. Hoffmann, F. Zaera, R. M. Ormerod, R. M. Lambert, L. P. Wang and W. T. Tysoe, Discovery of a Tilted Form of Benzene Chemisorbed on Pd(111): A NEXAFS and Photoemission Investigation, Surf. Sci., 232, 259-265 (1990).
54. F. Zaera, Mechanisms for Ethylene Hydrogenation and H-D Exchange Over Pt(111), J. Phys. Chem. , 94,
53. L. P. Wang, W. T. Tysoe, R. M. Ormerod, R. M. Lambert, H. Hoffmann and&&F. Zaera, Determination of the Bonding and Orientation of Ethylene on Pd(111) by Near-Edge X-ray Absorption Fine Structure and Photoelectron Spectroscopy, J. Phys. Chem., 94,
52. F. Zaera, Hydrogenation and H-D Exchange of Chemisorbed Ethylene on Ni(100) Under Vacuum, J. Catal., 121, 318-326 (1990).
51. F. Zaera, Direct Observation of b-Hydride Elimination Reactions on Metal Surfaces, J. Am. Chem. Soc., 111, ).
50. F. Zaera, Formation and Thermal Decomposition of Ethyl Groups on Transition Metal Surfaces:&&Ethyl Iodide on Pt(111), Surf. Sci., 219, 453-466 (1989).
49. G. Bredael, W. T. Tysoe and F. Zaera, Adsorption of Butadiene on Mo(100) Below Room Temperature, Langmuir, 5, 899-903 (1989).
48. F. Zaera, Determination of the Mechanism for Ethylidyne Formation from Chemisorbed Ethylene on Transition Metal Surfaces, J. Am. Chem. Soc., 111,
47. F. Zaera, A Thermal Desorption and X-Ray Photoelectron Spectroscopy Study of the Surface Chemistry of Iron Pentacarbonyl, J. Vac. Sci. Technol., A7, 640-645 (1989).
46. H. Hoffmann, N. A. Wright, F. Zaera and P. R. Griffiths, Differential-Polarization Dual-Beam FT-IR Spectrometer for Surface Analysis, Talanta, 36, 125-131 (1989).
45. F. Zaera, A Thermal Desorption and X-Ray Photoelectron Spectroscopy Study of the Surface Chemistry of Iron Pentacarbonyl, Gen. Phys. Adv. Abs., 5, 56 (1989).
44. J. L. Gland, F. Zaera, D. A. Fischer, R. G. Carr and E. B. Kollin,&&Ethylidyne Formation Rates on the Pt(111) Surface, Chem. Phys. Lett., 151, 227-229 (1988).
43. F. Zaera and G. A. Somorjai, Role of Hydrogen in Low and High Pressure Hydrocarbon Reactions, in Hydrogen Effects in Catalysis - Fundamental and Practical Applications, Z. Paál, P. G. Menon, eds., Marcell Dekker, Inc., New York, 1988, pp. 425-447.
42. S. Shen. J. L. Gland, D. A. Fischer and F. Zaera, Hydrogen Displacement of Chemisorbed Carbon Monoxide from Nickel(100) Surfaces, Fenzi Chiua, 2, 137-146 (1988).
41. F. Zaera, Spectroscopic Study of Carbon Monoxide and Sodium Coadsorption on Ni(100), Catal. Lett., 1, 317-326 (1988).
40. F. Zaera, D. A. Fischer, R. G. Carr, E. B. Kollin and J. L. Gland, Kinetics of Ethylidyne Formation on Platinum(111) Using Near-Edge X-Ray Absorption Fine Structure, in Electrochemical Surface Science:&&Molecular Phenomena at Electrode Surfaces, (ACS Symposium Series #378), M. P. Soriaga, ed., ACS Books, Washington, 1988, pp. 131-140.
39. F. Zaera, D. A. Fischer, R. G. Carr and J. L. Gland, Determination of Chemisorption Geometries for Complex Molecules by Using Near-Edge X-Ray Absorption Fine Structure:&&Ethylene on Ni(100), J. Chem. Phys., 89,
38. W. T. Tysoe, F. Zaera and G. A. Somorjai, An XPS Study of the Oxidation and Reduction of the Rhenium-Platinum System Under Atmospheric Conditions, Surf. Sci., 200,1-14 (1988).
37. J. L. Gland, S. Shen, F. Zaera and D. A. Fischer, Displacement of CO by More Weakly Adsorbed Hydrogen on the Ni(100) Surface, J. Vac. Sci. Technol., A6,
36. J. P. Fulmer, F. Zaera and W. T. Tysoe, A Study of the Orientation and Bonding of Thiophene on Clean Mo(100) Using Angle-Resolved Ultraviolet Photoelectron Spectroscopy, J. Phys. Chem., 92,
35. S. Shen, F. Zaera, D. A. Fischer and J. L. Gland, Unexpected Hydrogen Induced Displacement of Chemisorbed CO from the Ni(100) Surface, J. Chem. Phys., 89, 590-596 (1988).
34. F. Zaera, J. P. Fulmer and W. T. Tysoe, Determination of Bond Orientation for CO on Mo(100) by Using Angle-Resolved Ultraviolet Photoelectron Spectroscopy and Near-Edge X-Ray Absorption Fine-Structure Spectroscopy, J. Vac. Sci. Technol., A6, 875-876 (1988).
33. F. Zaera, D. A. Fischer, S. Shen and J. L. Gland, Fluorescence Yield Near-Edge X-Ray Absorption Spectroscopy Under Atmospheric Conditions:&&CO and H2 Coadsorption on Ni(100) At Pressures Between 10-9 and 0.1 torr,&&Surf. Sci., 194, 205-216 (1988).
32. J. L. Gland, E. B. Kollin and F. Zaera, Adsorbed Sulfhydryl (SH) on the Mo(100) Surface,&&Langmuir, 4, 118-120 (1988).
31. J. L. Gland, F. Zaera, D. A. Fischer and S. Shen, Fluorescence Yield Near Edge X-ray Absorption Fine Structure Above the Carbon K Edge:&&A new Method for Characterizing Adsorbed Intermediates and Surface Reaction Rates in the Presence of Reactive Environments, Stud. Surf. Sci. Catal., 38, 835-843 (1987).
30. D. A. Fischer, F. Zaera and J. L. Gland, Fluorescence Yield Near Edge Structure (FYNES):&&A Novel Technique for In Situ Surface Chemistry,&&J. de Physique, 48, C9- (1987).
29. J. P. Fulmer, F. Zaera and W. T. Tysoe, The Orientation and Bonding of CO on Mo(100) Using Angle-Resolved Photoelectron Spectroscopy and Near-Edge X-ray Absorption Fine Structure,&&J. Chem. Phys., 87,
28. A. Gellman, W. T. Tysoe, F. Zaera and G. A. Somorjai, A UPS and XPS Investigation of the Adsorption of Sulfur on Mo(100):&&Adsorption Site and Lateral Interactions,&&Surf. Sci., 191, 271-287 (1987).
27. F. Zaera and R. B. Hall, High-Resolution Electron Energy Loss Spectroscopy and Thermal Programmed Desorption Studies of the Chemisorption and Thermal Decomposition of Ethylene and Acetylene on Ni(100) Single-Crystal Surfaces,&&J. Phys. Chem., 91,
26. F. Zaera, E. B. Kollin and J. L. Gland, Thiophene Chemisorption and Thermal Decomposition on Nickel(100) Single-Crystal Surfaces,&&Langmuir, 3, 555-557 (1987).
25. F. Zaera, E. B. Kollin and J. L. Gland, Vibrational Characterization of Thiophene Decomposition on the Mo(100) Surface,&&Surf. Sci., 184, 75-89 (1987).
24. D. W. Moon, S. Cameron, F. Zaera, W. Eberhardt, R. Carr, S. L. Bernasek, J. L. Gland and D. J. Dwyer, A Tilted Precursor for CO Dissociation on the Fe(100) Surface,&&Surf. Sci., 180, L123-L128 (1987).
23. F. Zaera and R. B. Hall, Low Temperature Decomposition of Ethylene over Ni(100):&&Evidence for Vinyl Formation,&&Surf. Sci., 180, 1-18 (1987).
22. F. Zaera and G. A. Somorjai, Direct Determination of Blocking of Surface Defects by Carbonaceous Deposits during Hydrocarbon Reactions on Platinum Single Crystals,&&Langmuir, 2, 686-688 (1986).
21. F. Zaera, D. Godbey and G. A. Somorjai, Methylcyclopentane Conversion over Platinum Single Crystal Surfaces:&&Evidence for the Cyclic Mechanism of n-Hexane Isomerization, J. Catal., 101, 73-80 (1986).
20. D. A. Fischer, J. B. Hastings, F. Zaera, J. St&hr and F. Sette, X-Ray Fluorescence Proportional Counter for SEXAFS Studies of Low-Z Adsorbates,&&Nucl. Instrum. and Methods in Phys. Res., A246, 561-564 (1986).
19. R. B. Hall, S. J. Bares, A. M. DeSantolo and F. Zaera, Pulsed Laser-Induced Desorption Studies of the Kinetics of Ethylene Dehydrogenation on Ni(100),&&J. Vac. Sci. Technol., A4,
18. D. Godbey, F. Zaera, R. Yates and G. A. Somorjai, Hydrogenation of Chemisorbed Ethylene on Clean, Hydrogen and Ethylidyne Covered Crystal Surfaces,&&Surf. Sci., 167, 150-166 (1986).
17. F. Zaera, E. B. Kollin and J. L. Gland, Determination of Surface Sites for Hydrogen Chemisorption over Mo(100) Single Crystal Surfaces by Using LEED, TDS, and HREELS,&&Surf. Sci., 166, L149-L154 (1986).
16. F. Zaera, A. J. Gellman and G. A. Somorjai, Surface Science Studies of Catalysis: Classification of Reactions,&&Acc. Chem. Res., 19, 24-31 (1986).
15. F. Zaera, E. Kollin and J. L. Gland, Observation of an Unusually Low C-O Stretching Frequency:&&CO Chemisorption on a Mo(100) Surface,&&Chem. Phys. Lett., 121, 464-468 (1985).
14. A. Wieckowski, S. D. Rosasco, G. N. Salaita, A. Hubbard, B. E. Bent, F. Zaera, D. Godbey and G. A. Somorjai, Comparison of Gas-Phase and Electrochemical Hydrogenation of Ethylene at Platinum Surfaces,&&J. Am. Chem. Soc., 107,
13. J. St&hr, E. B. Kollin, D. A. Fischer, J. B. Hastings, F. Zaera and F. Sette, Surface Extended X-ray-Absorption Fine Structure of Low-Z Adsorbates Studied with Fluorescence Detection,&&Phys. Rev. Lett., 55,. (1985).
12. F. Zaera and G. A. Somorjai, Reaction of Ethane with Deuterium over Platinum(111) Single-Crystal Surfaces,&&J. Phys. Chem., 89,
11. F. Zaera and G. A. Somorjai, The Chemisorption of O2, CO, D2 and C2H4 over Epitaxially Grown Rhenium Crystalline Films,&&Surf. Sci., 154, 303-314 (1985).
10. S. M. Davis, F. Zaera, B. E. Gordon and G. A. Somorjai, Radiotracer and Thermal Desorption Studies of Dehydrogenation and Atmospheric Hydrogenation of Organic Fragments Obtained from&&Ethylene Chemisorbed over Pt(111) Surfaces,&&J. Catal., 92, 240-246 (1985).
9. F. Zaera, Combined Surface Science and Catalytic Studies of Hydrocarbon Reactions over Platinum Single Crystal Surfaces, Ph.D. Thesis, University of California, Berkeley, 1984.
8. F. Zaera and G. A. Somorjai, The Hydrogenation of Ethylene over Platinum(111) Single-Crystal Surfaces,&&J. Am. Chem. Soc., 106,
7. S. M. Davis, F. Zaera and G. A. Somorjai, Surface Structure and Temperature Dependence of n-Hexane Skeletal Rearrangement Reactions Catalyzed over Platinum Single Crystal Surfaces: Marked Structure Sensitivity of Aromatization, J. Catal., 85, 206-223 (1984).
6. F. Zaera and G. A. Somorjai, The Effect of Potassium on the Catalyzed Reactions of n-Hexane over Pt(111) Single Crystal Surfaces,&&J. Catal., 84, 375-385 (1983).
5. G. A. Somorjai and F. Zaera, Heterogeneous Catalysis on the Molecular Scale, J. Phys. Chem., 86,
4. S. M. Davis, F. Zaera and G. A. Somorjai, Surface Structure and Temperature Dependence of Light-Alkane Skeletal Rearrangement Reactions Catalyzed over Platinum Single-Crystal Surfaces,&&J. Am. Chem. Soc., 104,
3. S. M. Davis, F. Zaera and G. A. Somorjai, The Reactivity and Composition of Strongly Adsorbed Carbonaceous Deposits on Platinum.&&Model of the Working Hydrocarbon Conversion Catalysts, J. Catal., 77, 439-459 (1982).
2. F. Zaera and I. Rusinek, Monte Carlo Simulation for Inhomogeneous Chemical Kinetics:&&Application to the Belousov-Zhabotinskii Reaction, J. Comp. Chem., 2, 402-409 (1981).
1. F. Zaera, Monte-Carlo Simulation of Chemical Reactions in Inhomogeneous Media, Application to the Belousov-Zhabotinskii Reaction, Licenciate Thesis, University Simón Bolívar, Caracas, 1979. 也是一个牛人啊 ;););););)
真是太牛了，多大岁数了？}