Carbon Dioxide Reduction – Virtual Screening of Materials. Towards computational design of zeolite catalysts for CO2 reduction. RSC Advances 2015 – v 5, pp 44361-44370. Aaron W. Thornton, David A. Winkler,
Ming S. Liu - Google Scholar
*A review on CO2 hydrogenation to lower olefins: Understanding the *
Ming S. Liu - Google Scholar. Towards computational design of zeolite catalysts for CO2 reduction. AW Thornton, DA Winkler, MS Liu, M Haranczyk, DF Kennedy. RSC Advances 5, 44361-44370. DOI: , A review on CO2 hydrogenation to lower olefins: Understanding the , A review on CO2 hydrogenation to lower olefins: Understanding the
NSF Award Search: Advanced Search Results.
*Computational design of heterogeneous catalysts and gas separation *
NSF Award Search: Advanced Search Results.. The Edge of Business Leadership towards computational design of zeolite catalysts for co2 reduction and related matters.. CAREER: Design of Bifunctional Zeolite Catalysts for Ethanol Upgrading to Sustainable Aviation Fuel Award Number:2442441; Principal Investigator:James , Computational design of heterogeneous catalysts and gas separation , Computational design of heterogeneous catalysts and gas separation
Review and prospects of microporous zeolite catalysts for CO2
*Bridging the complexity gap in computational heterogeneous *
Review and prospects of microporous zeolite catalysts for CO2. Thornton et al. Towards computational design of zeolite catalysts for CO2 reduction. RSC Adv. (2015). C. Wang et al. Product selectivity controlled by , Bridging the complexity gap in computational heterogeneous , Bridging the complexity gap in computational heterogeneous
Ming S. Liu - Google Scholar
*Insight into supported single-atom catalysts design for *
Ming S. Liu - Google Scholar. Towards computational design of zeolite catalysts for CO2 reduction. AW Thornton, DA Winkler, MS Liu, M Haranczyk, DF Kennedy. RSC Advances 5, 44361-44370. DOI: , Insight into supported single-atom catalysts design for , Insight into supported single-atom catalysts design for
Designing materials acceleration platforms for heterogeneous CO2
*CO2 hydrogenation to high-value products via heterogeneous *
Designing materials acceleration platforms for heterogeneous CO2. Addressing to guide discovery of electrocatalysts for CO2 reduction and H2 Towards computational design of zeolite catalysts for CO2 reduction., CO2 hydrogenation to high-value products via heterogeneous , CO2 hydrogenation to high-value products via heterogeneous
Australian Journal of Chemistry - CSIRO PUBLISHING
*Rational Design of the Catalysts for the Direct Conversion of *
Australian Journal of Chemistry - CSIRO PUBLISHING. [77] AW Thornton, DA Winkler, MS Liu, M Haranczyk, DF Kennedy, Towards computational design of zeolite catalysts for CO2 reduction. RSC Adv 2015, 5, 44361 , Rational Design of the Catalysts for the Direct Conversion of , Rational Design of the Catalysts for the Direct Conversion of
pywindow: Automated Structural Analysis of Molecular Pores
*Rational Design of the Catalysts for the Direct Conversion of *
pywindow: Automated Structural Analysis of Molecular Pores. Elucidating Towards computational design of zeolite catalysts for CO2 reduction. Thornton, A. W.; Winkler, D. A.; Liu, M. S.; Haranczyk, M.; Kennedy , Rational Design of the Catalysts for the Direct Conversion of , Rational Design of the Catalysts for the Direct Conversion of
Carbon Dioxide Reduction – Virtual Screening of Materials
*Towards computational design of zeolite catalysts for CO2 *
Carbon Dioxide Reduction – Virtual Screening of Materials. Towards computational design of zeolite catalysts for CO2 reduction. RSC Advances 2015 – v 5, pp 44361-44370. Aaron W. Thornton, David A. Winkler, , Towards computational design of zeolite catalysts for CO2 , Towards computational design of zeolite catalysts for CO2 , Carbon Dioxide Reduction – Virtual Screening of Materials, Carbon Dioxide Reduction – Virtual Screening of Materials, The trained models were used to screen multi- metallic alloys for electrochemical CO2 reduction. above method to select zeolites and adsorption process.
