Anatoly I. Frenkel
Stony Brook University
414 Papers
2.1K Citations
Anatoly I. Frenkel is an academic researcher from Stony Brook University. The author has contributed to research in topics: Catalysis & Extended X-ray absorption fine structure. The author has an hindex of 71, co-authored 380 publications. Previous affiliations of Anatoly I. Frenkel include University of Illinois at Urbana–Champaign & Brookhaven National Laboratory.
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Papers
Effects of Molecular and Electronic Structures in CoOx/CeO2 Catalysts on NO Reduction by CO
Shuhao Zhang,Yuanyuan Li,Jiahao Huang,Jaeha Lee,Do Heui Kim,Anatoly I. Frenkel,Anatoly I. Frenkel,Taejin Kim +7 more
TL;DR: In this article, a series of CoOx (0.2-31.3 Co/nm2) catalysts supported on CeO2 were prepared by the incipient wetness impregnation method and were tested for NO reduction by CO reaction.
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Designing Nanoplatelet Alloy/Nafion Catalytic Interfacefor Optimization of PEMFCs: Performance, Durability, and CO Resistance
Likun Wang,Yuchen Zhou,Janis Timoshenko,Shizhong Liu,Qiao Qiao,Kim Kisslinger,Michael Cuiffo,Ya-Chen Chuang,Xianghao Zuo,Yuan Xue,Yichen Guo,Cheng Pan,Hongfei Li,Chang-Yong Nam,Stoyan Bliznakov,Ping Liu,Anatoly I. Frenkel,Anatoly I. Frenkel,Yimei Zhu,Miriam Rafailovich +19 more
TL;DR: In this article, the two-phase Brust method was used to synthesize large quantities of AuPd alloy nanoparticles with diameter of 1.86 ± 0.40 nm.
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Structural characterization of the catalytic active site in the latent and active natural gelatinase B from human neutrophils.
Oded Kleifeld,Philippe E. Van den Steen,Anatoly I. Frenkel,Feng Cheng,Hua-Liang Jiang,Ghislain Opdenakker,Irit Sagi +6 more
TL;DR: The results suggest that the catalytic zinc ion plays a key role in both substrate binding and catalysis in human gelatinase B.
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Reaction of CuO with hydrogen studied by using synchrotron-based x-ray diffraction
TL;DR: In this paper, the reduction behavior and the existence of an intermediate state were investigated by using synchrotron-based high-resolution in situ x-ray diffraction (S-XRD) techniques.
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In situ X‐ray Absorption Analysis of ∼1.8 nm Dendrimer‐Encapsulated Pt Nanoparticles during Electrochemical CO Oxidation
TL;DR: The results indicate that Pt nanoparticles encapsulated within poly(amidoamine) (PAMAM) dendrimers and immobilized on a carbon electrode retain their electrocatalytic activity and are structurally stable for extended periods during CO oxidation.
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