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Plasmon-Assisted Ammonia Electrosynthesis
Enrique Contreras
, Rachel Nixon
, Chloe Litts
, Wenxin Zhang
, Francis M. Alcorn
,
Prashant K. Jain
Chemistry
Materials Research Lab
Research output
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peer-review
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Keyphrases
Plasmon
100%
Plasmonic Excitation
100%
Ammonia Electrosynthesis
100%
Ammonia
66%
Electrocatalyst
66%
Nitrate Reduction Activity
33%
Nitrate
33%
Electrocatalysis
33%
Nitrate Reduction
33%
Ammonium
33%
Gold Nanoparticles
33%
Light Harvesting
33%
Solar Energy
33%
Electrode Surface
33%
Liquid Phase
33%
Non-equilibrium Conditions
33%
Plasmonics
33%
Thermal Effect
33%
Localized Surface Plasmon Resonance
33%
Green Method
33%
Renewable Sources
33%
Synergistic Interaction
33%
Photothermal Heating
33%
Phase Carrier
33%
Electrochemical Activation
33%
Electrocatalytic Conversion
33%
Charged Interface
33%
Carbon-free Energy
33%
Electrochemical Nitrate Reduction
33%
Dual Attributes
33%
Ammonia Economy
33%
Visible-light Harvesting
33%
Ammonium Synthesis
33%
Electrocatalyses
33%
Chemical Engineering
Nanoparticle
100%
Thermal Effect
100%
Ammonia Electrosynthesis
100%
Free Energy
100%
Material Science
Electrocatalysts
100%
Electrocatalysis
50%
Surface (Surface Science)
50%
Gold Nanoparticles
50%
Surface Plasmon Resonance
50%