Monitoring surface metal oxide catalytic active sites with Raman spectroscopy IE Wachs, CA Roberts
Chemical Society Reviews 39 (12), 5002-5017, 2010
325 2010 Unsupervised discovery of solid-state lithium ion conductors Y Zhang, X He, Z Chen, Q Bai, AM Nolan, CA Roberts, D Banerjee, ...
Nature communications 10 (1), 5260, 2019
248 2019 Molecular Structural Determination of Molybdena in Different Environments: Aqueous Solutions, Bulk Mixed Oxides, and Supported MoO3 Catalysts H Tian, CA Roberts, IE Wachs
The Journal of Physical Chemistry C 114 (33), 14110-14120, 2010
199 2010 Characterization of hydrothermally prepared titanate nanotube powders by ambient and in situ Raman spectroscopy SJ Kim, YU Yun, HJ Oh, SH Hong, CA Roberts, K Routray, IE Wachs
The Journal of Physical Chemistry Letters 1 (1), 130-135, 2010
97 2010 Reporting of reactivity for heterogeneous photocatalysis IE Wachs, SP Phivilay, CA Roberts
ACS Catalysis 3 (11), 2606-2611, 2013
60 2013 Revisiting formic acid decomposition on metallic powder catalysts: Exploding the HCOOH decomposition volcano curve Y Tang, CA Roberts, RT Perkins, IE Wachs
Surface Science 650, 103-110, 2016
52 2016 The effect of support morphology on CoOX/CeO2 catalysts for the reduction of NO by CO L Savereide, SL Nauert, CA Roberts, JM Notestein
Journal of catalysis 366, 150-158, 2018
43 2018 Fundamental Bulk/Surface Structure–Photoactivity Relationships of Supported (Rh2–y Cry O3 )/GaN Photocatalysts SP Phivilay, CA Roberts, AA Puretzky, K Domen, IE Wachs
The Journal of Physical Chemistry Letters 4 (21), 3719-3724, 2013
39 2013 CeO2 –Mx Oy (M = Fe, Co, Ni, and Cu)-Based Oxides for Direct NO Decomposition GK Reddy, TC Peck, CA Roberts
The Journal of Physical Chemistry C 123 (47), 28695-28706, 2019
36 2019 In Situ Characterization of Highly Dispersed, Ceria-Supported Fe Sites for NO Reduction by COCA Roberts, D Prieto-Centurion, Y Nagai, YF Nishimura, RD Desautels, ...
The Journal of Physical Chemistry C 119 (8), 4224-4234, 2015
32 2015 Nonprecious Metal Catalysts for Tuning Discharge Product Distribution at Solid–Solid Interfaces of Aprotic Li–O2 Batteries S Samira, S Deshpande, CA Roberts, AM Nacy, J Kubal, K Matesić, ...
Chemistry of Materials 31 (18), 7300-7310, 2019
30 2019 Catalytic reduction of NO with H2 over redox-cycling Fe on CeO2 D Prieto-Centurion, TR Eaton, CA Roberts, PT Fanson, JM Notestein
Applied Catalysis B: Environmental 168, 68-76, 2015
30 2015 Anatomy of a visible light activated photocatalyst for water splitting SP Phivilay, CA Roberts, AD Gamalski, EA Stach, S Zhang, L Nguyen, ...
ACS Catalysis 8 (7), 6650-6658, 2018
26 2018 Monolayer detection of supported Fe and Co oxides on ceria to establish structure–activity relationships for reduction of NO by CO TC Peck, GK Reddy, M Jones, CA Roberts
The Journal of Physical Chemistry C 121 (15), 8435-8443, 2017
26 2017 Role of Ce hybridization in the origin of magnetism in nanoceria VK Paidi, DL Brewe, JW Freeland, CA Roberts, J van Lierop
Physical Review B 99 (18), 180403, 2019
25 2019 Predicting NOx Catalysis by Quantifying Ce3+ from Surface and Lattice Oxygen VK Paidi, L Savereide, DJ Childers, JM Notestein, CA Roberts, ...
ACS applied materials & interfaces 9 (36), 30670-30678, 2017
24 2017 Effect of Cu substitution on the structure and reactivity of CuxCo3-xO4 spinel catalysts for direct NOx decomposition CA Roberts, VK Paidi, M Shepit, TC Peck, KLS Masias, J van Lierop, ...
Catalysis Today 360, 204-212, 2021
21 2021 Nature of surface oxygen intermediates on TiO2 during photocatalytic splitting of water CA Roberts, SP Phivilay, IE Wachs
Chinese Chemical Letters 29 (6), 769-772, 2018
21 2018 Contrasting Effects of Potassium Addition on M3 O4 (M = Co, Fe, and Mn) Oxides during Direct NO Decomposition Catalysis TC Peck, CA Roberts, GK Reddy
Catalysts 10 (5), 561, 2020
20 2020 “PdO vs. PtO”—The influence of PGM oxide promotion of Co3O4 spinel on direct NO decomposition activity GK Reddy, TC Peck, CA Roberts
Catalysts 9 (1), 1-18, 2019
20 2019