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Start Over Author "Ross, Michael B." Journal journal of the american chemical society
7 results on '"Ross, Michael B."'

1. Tunable Cu Enrichment Enables Designer Syngas Electrosynthesis from CO2

Author

Ross, Michael B, Dinh, Cao Thang, Li, Yifan, Kim, Dohyung, De Luna, Phil, Sargent, Edward H, and Yang, Peidong

Subjects
Macromolecular and Materials Chemistry, Engineering, Chemical Sciences, Climate Action, Affordable and Clean Energy, General Chemistry, Chemical sciences
Abstract

Using renewable energy to recycle CO2 provides an opportunity to both reduce net CO2 emissions and synthesize fuels and chemical feedstocks. It is of central importance to design electrocatalysts that both are efficient and can access a tunable spectrum of products. Syngas, a mixture of carbon monoxide (CO) and hydrogen (H2), is an important chemical precursor that can be converted downstream into small molecules or larger hydrocarbons by fermentation or thermochemistry. Many processes that utilize syngas require different syngas compositions: we therefore pursued the rational design of a family of electrocatalysts that can be programmed to synthesize different designer syngas ratios. We utilize in situ surface-enhanced Raman spectroscopy and first-principles density functional theory calculations to develop a systematic picture of CO* binding on Cu-enriched Au surface model systems. Insights from these model systems are then translated to nanostructured electrocatalysts, whereby controlled Cu enrichment enables tunable syngas production while maintaining current densities greater than 20 mA/cm2.

Published
2017

6. Tunable Cu Enrichment Enables Designer Syngas Electrosynthesis from CO2.

Author

Ross, Michael B., Dinh, Cao Thang, Li, Yifan, Kim, Dohyung, De Luna, Phil, and Sargent, Edward H.

Subjects
*COPPER compounds synthesis, *SYNTHESIS gas, *RENEWABLE energy sources, *ELECTROCATALYSIS, *ELECTROSYNTHESIS, *NANOSTRUCTURED materials synthesis, *CURRENT density (Electromagnetism)
Abstract

Using renewable energy to recycle CO2 provides an opportunity to both reduce net CO2 emissions and synthesize fuels and chemical feedstocks. It is of central importance to design electrocatalysts that both are efficient and can access a tunable spectrum of products. Syngas, a mixture of carbon monoxide (CO) and hydrogen (H2), is an important chemical precursor that can be converted downstream into small molecules or larger hydrocarbons by fermentation or thermochemistry. Many processes that utilize syngas require different syngas compositions: we therefore pursued the rational design of a family of electrocatalysts that can be programmed to synthesize different designer syngas ratios. We utilize in situ surface-enhanced Raman spectroscopy and first-principles density functional theory calculations to develop a systematic picture of CO* binding on Cu-enriched Au surface model systems. Insights from these model systems are then translated to nanostructured electrocatalysts, whereby controlled Cu enrichment enables tunable syngas production while maintaining current densities greater than 20 mA/cm². [ABSTRACT FROM AUTHOR]

Published
2017
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