Eranda Nikolla
Cited by
Cited by
“One-pot” synthesis of 5-(hydroxymethyl) furfural from carbohydrates using tin-beta zeolite
E Nikolla, Y Román-Leshkov, M Moliner, ME Davis
Acs Catalysis 1 (4), 408-410, 2011
Metalloenzyme-like catalyzed isomerizations of sugars by Lewis acid zeolites
R Bermejo-Deval, RS Assary, E Nikolla, M Moliner, Y Román-Leshkov, ...
Proceedings of the National Academy of Sciences 109 (25), 9727-9732, 2012
Promotion of the long-term stability of reforming Ni catalysts by surface alloying
E Nikolla, J Schwank, S Linic
Journal of catalysis 250 (1), 85-93, 2007
Controlling carbon surface chemistry by alloying: carbon tolerant reforming catalyst
E Nikolla, A Holewinski, J Schwank, S Linic
Journal of the American Chemical Society 128 (35), 11354-11355, 2006
Advances in methane conversion processes
B Wang, S Albarracín-Suazo, Y Pagán-Torres, E Nikolla
Catalysis Today 285, 147-158, 2017
Comparative study of the kinetics of methane steam reforming on supported Ni and Sn/Ni alloy catalysts: The impact of the formation of Ni alloy on chemistry
E Nikolla, J Schwank, S Linic
Journal of Catalysis 263 (2), 220-227, 2009
Measuring and relating the electronic structures of nonmodel supported catalytic materials to their performance
E Nikolla, J Schwank, S Linic
Journal of the American Chemical Society 131 (7), 2747-2754, 2009
Hydrocarbon steam reforming on Ni alloys at solid oxide fuel cell operating conditions
E Nikolla, JW Schwank, S Linic
Catalysis Today 136 (3-4), 243-248, 2008
Direct electrochemical oxidation of hydrocarbon fuels on SOFCs: improved carbon tolerance of Ni alloy anodes
E Nikolla, J Schwank, S Linic
Journal of the Electrochemical Society 156 (11), B1312, 2009
Catalysis: Volume 20
JJ Spivey, KM Dooley
Royal Society of Chemistry, 2007
Hydropyrolysis of lignin using Pd/HZSM-5
O Jan, R Marchand, LCA Anjos, GVS Seufitelli, E Nikolla, FLP Resende
Energy & Fuels 29 (3), 1793-1800, 2015
Electronic structure engineering in heterogeneous catalysis: identifying novel alloy catalysts based on rapid screening for materials with desired electronic properties
H Xin, A Holewinski, N Schweitzer, E Nikolla, S Linic
Topics in Catalysis 55 (5-6), 376-390, 2012
Establishing relationships between the geometric structure and chemical reactivity of alloy catalysts based on their measured electronic structure
N Schweitzer, H Xin, E Nikolla, JT Miller, S Linic
Topics in Catalysis 53 (5-6), 348-356, 2010
Identifying optimal active sites for heterogeneous catalysis by metal alloys based on molecular descriptors and electronic structure engineering
A Holewinski, H Xin, E Nikolla, S Linic
Current Opinion in Chemical Engineering 2 (3), 312-319, 2013
Molybdenum-based polyoxometalates as highly active and selective catalysts for the epimerization of aldoses
F Ju, D VanderVelde, E Nikolla
Acs Catalysis 4 (5), 1358-1364, 2014
Oxygen sponges for electrocatalysis: oxygen reduction/evolution on nonstoichiometric, mixed metal oxides
XK Gu, S Samira, E Nikolla
Chemistry of Materials 30 (9), 2860-2872, 2018
Control of interfacial acid–metal catalysis with organic monolayers
J Zhang, LD Ellis, B Wang, MJ Dzara, C Sievers, S Pylypenko, E Nikolla, ...
Nature Catalysis 1 (2), 148-155, 2018
Directing Reaction Pathways through Controlled Reactant Binding at Pd–TiO2 Interfaces
J Zhang, B Wang, E Nikolla, JW Medlin
Angewandte Chemie 129 (23), 6694-6698, 2017
Multicomponent catalysts: limitations and prospects
G Kumar, E Nikolla, S Linic, JW Medlin, MJ Janik
ACS Catalysis 8 (4), 3202-3208, 2018
Optimizing cathode materials for intermediate-temperature solid oxide fuel cells (SOFCs): Oxygen reduction on nanostructured lanthanum nickelate oxides
JSA Carneiro, RA Brocca, MLRS Lucena, E Nikolla
Applied Catalysis B: Environmental 200, 106-113, 2017
The system can't perform the operation now. Try again later.
Articles 1–20