Thomas F. Jaramillo
Affiliations: | Chemical Engineering | Stanford University, Palo Alto, CA |
Area:
Electrocatalysis for Energy ProductionWebsite:
http://cheme.stanford.edu/faculty/profiles/jaramillo/jaramillo.htmlGoogle:
"Thomas F. Jaramillo"Bio:
http://cheme.stanford.edu/faculty/layout.php?sunetid=jaramilo
http://jaramillogroup.stanford.edu/code-7/code-12/index.html
http://www.hydrogen.energy.gov/annual_review11_awards.html?print
Mean distance: 8.48 | S | N | B | C | P |
Parents
Sign in to add mentor| Eric W. McFarland | grad student | 2004 | UC Santa Barbara | |
| (Photoelectrochemical hydrogen production: The investigation of improved material compositions and morphologies utilizing a combinatorial electrochemistry methodology) | ||||
Children
Sign in to add trainee| Fadl H Saadi | research assistant | 2007-2011 | Stanford |
| Thomas J P Hersbach | research assistant | 2014-2014 | Stanford |
| Kendra P. Kuhl | grad student | Stanford | |
| Daniela Marin | grad student | Stanford | |
| Gaurav A Kamat | grad student | 2021- | Stanford (DevTree) |
| Paul M. Zimmerman | grad student | 2010 | Stanford |
| Sam Fleischman | post-doc | Stanford | |
| Aniket Sandip Mule | post-doc | 2022- | Stanford |
| Yi (Sheldon) Xu | post-doc | 2022- | Stanford (E-Tree) |
| Maureen H. Tang | post-doc | 2012-2014 | Stanford |
| Carlos G. Morales-Guio | post-doc | 2016-2018 | Stanford |
| Joseph T Perryman | post-doc | 2021-2022 | Stanford University and SLAC National Accelerator Laboratory |
Collaborators
Sign in to add collaborator| Venkatasubramanian Viswanathan | collaborator | 2009- | (Physics Tree) |
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Publications
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| Rios Amador I, Hannagan RT, Marin DH, et al. (2023) Protocol for assembling and operating bipolar membrane water electrolyzers. Star Protocols. 4: 102606 |
| Kamat GA, Zamora Zeledón JA, Gunasooriya GTKK, et al. (2022) Acid anion electrolyte effects on platinum for oxygen and hydrogen electrocatalysis. Communications Chemistry. 5: 20 |
| Kreider ME, Kamat GA, Zamora Zeledón JA, et al. (2022) Understanding the Stability of Manganese Chromium Antimonate Electrocatalysts through Multimodal In Situ and Operando Measurements. Journal of the American Chemical Society |
| Koshy DM, Akhade SA, Shugar A, et al. (2021) Chemical Modifications of Ag Catalyst Surfaces with Imidazolium Ionomers Modulate H Evolution Rates during Electrochemical CO Reduction. Journal of the American Chemical Society |
| Nishimura YF, Peng HJ, Nitopi S, et al. (2021) Guiding the Catalytic Properties of Copper for Electrochemical CO Reduction by Metal Atom Decoration. Acs Applied Materials & Interfaces |
| Xu S, Wang Z, Dull S, et al. (2021) Direct Integration of Strained-Pt Catalysts into Proton-Exchange-Membrane Fuel Cells with Atomic Layer Deposition. Advanced Materials (Deerfield Beach, Fla.). e2007885 |
| Park J, Chen Z, Flores RA, et al. (2020) 2D Conductive Ni-HAB as a Catalyst for the Electrochemical Oxygen Reduction Reaction. Acs Applied Materials & Interfaces |
| Wang L, Higgins DC, Ji Y, et al. (2020) Selective reduction of CO to acetaldehyde with CuAg electrocatalysts. Proceedings of the National Academy of Sciences of the United States of America |
| Ben-Naim M, Palm DW, Strickler AL, et al. (2020) A Spin Coating Method To Deposit Iridium-Based Catalysts onto Silicon for Water Oxidation Photoanodes. Acs Applied Materials & Interfaces |
| Koshy D, Chen S, Lee DU, et al. (2020) Understanding the Origin of Highly Selective CO2 Electroreduction to CO on Ni, N-doped Carbon Catalysts. Angewandte Chemie (International Ed. in English) |