Suljo Linic
Suljo Linic
Martin Lewis Perl Collegiate Professor of Chemical Engineering and Director of Energy Systems
Verified email at - Homepage
Cited by
Cited by
Plasmonic-metal nanostructures for efficient conversion of solar to chemical energy
S Linic, P Christopher, DB Ingram
Nature materials 10 (12), 911-921, 2011
Visible-light-enhanced catalytic oxidation reactions on plasmonic silver nanostructures
P Christopher, H Xin, S Linic
Nature chemistry 3 (6), 467-472, 2011
Photochemical transformations on plasmonic metal nanoparticles
S Linic, U Aslam, C Boerigter, M Morabito
Nature materials 14 (6), 567-576, 2015
Water splitting on composite plasmonic-metal/semiconductor photoelectrodes: evidence for selective plasmon-induced formation of charge carriers near the semiconductor surface
DB Ingram, S Linic
Journal of the American Chemical Society 133 (14), 5202-5205, 2011
Singular characteristics and unique chemical bond activation mechanisms of photocatalytic reactions on plasmonic nanostructures
P Christopher, H Xin, A Marimuthu, S Linic
Nature materials 11 (12), 1044-1050, 2012
Catalytic conversion of solar to chemical energy on plasmonic metal nanostructures
U Aslam, VG Rao, S Chavez, S Linic
Nature Catalysis 1 (9), 656-665, 2018
Tuning selectivity in propylene epoxidation by plasmon mediated photo-switching of Cu oxidation state
A Marimuthu, J Zhang, S Linic
Science 339 (6127), 1590-1593, 2013
High-performance Ag–Co alloy catalysts for electrochemical oxygen reduction
A Holewinski, JC Idrobo, S Linic
Nature chemistry 6 (9), 828-834, 2014
Evidence and implications of direct charge excitation as the dominant mechanism in plasmon-mediated photocatalysis
C Boerigter, R Campana, M Morabito, S Linic
Nature communications 7 (1), 10545, 2016
Controlling energy flow in multimetallic nanostructures for plasmonic catalysis
U Aslam, S Chavez, S Linic
Nature nanotechnology 12 (10), 1000-1005, 2017
Mechanism of charge transfer from plasmonic nanostructures to chemically attached materials
C Boerigter, U Aslam, S Linic
ACS nano 10 (6), 6108-6115, 2016
Enhancing photochemical activity of semiconductor nanoparticles with optically active Ag nanostructures: photochemistry mediated by Ag surface plasmons
P Christopher, DB Ingram, S Linic
The Journal of Physical Chemistry C 114 (19), 9173-9177, 2010
Elementary mechanisms in electrocatalysis: revisiting the ORR Tafel slope
A Holewinski, S Linic
Journal of The Electrochemical Society 159 (11), H864, 2012
Engineering selectivity in heterogeneous catalysis: Ag nanowires as selective ethylene epoxidation catalysts
P Christopher, S Linic
Journal of the American Chemical Society 130 (34), 11264-11265, 2008
Predictive model for the design of plasmonic metal/semiconductor composite photocatalysts
DB Ingram, P Christopher, JL Bauer, S Linic
Acs Catalysis 1 (10), 1441-1447, 2011
Catalytic and photocatalytic transformations on metal nanoparticles with targeted geometric and plasmonic properties
S Linic, P Christopher, H Xin, A Marimuthu
Accounts of chemical research 46 (8), 1890-1899, 2013
High activity carbide supported catalysts for water gas shift
NM Schweitzer, JA Schaidle, OK Ezekoye, X Pan, S Linic, LT Thompson
Journal of the American Chemical Society 133 (8), 2378-2381, 2011
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
Control of ethylene epoxidation selectivity by surface oxametallacycles
S Linic, MA Barteau
Journal of the American Chemical Society 125 (14), 4034-4035, 2003
Formation of a stable surface oxametallacycle that produces ethylene oxide
S Linic, MA Barteau
Journal of the American Chemical Society 124 (2), 310-317, 2002
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