P-block atom modified Sn(200) surface as a promising electrocatalyst for two-electron CO2 reduction: a first-principles study

MLA

Bo-Wen Tang, et al. “P-Block Atom Modified Sn(200) Surface as a Promising Electrocatalyst for Two-Electron CO2 Reduction: A First-Principles Study.” Physical Chemistry Chemical Physics, vol. 24, Jan. 2022, pp. 26556–63. EBSCOhost, widgets.ebscohost.com/prod/customlink/proxify/proxify.php?count=1&encode=0&proxy=&find_1=&replace_1=&target=https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&scope=site&db=edsair&AN=edsair.doi...........0205db3b7b3fe9acdcb887c370d0ae49&authtype=sso&custid=ns315887.

APA

Bo-Wen Tang, Yu Liu, Da-Wei Deng, Ying Xu, Bo Wen, Zhen-Kun Tang, Xiao-Lin Wei, Qing-Xia Ge, & Wen-Jin Yin. (2022). P-block atom modified Sn(200) surface as a promising electrocatalyst for two-electron CO2 reduction: a first-principles study. Physical Chemistry Chemical Physics, 24, 26556–26563.

Chicago

Bo-Wen Tang, Yu Liu, Da-Wei Deng, Ying Xu, Bo Wen, Zhen-Kun Tang, Xiao-Lin Wei, Qing-Xia Ge, and Wen-Jin Yin. 2022. “P-Block Atom Modified Sn(200) Surface as a Promising Electrocatalyst for Two-Electron CO2 Reduction: A First-Principles Study.” Physical Chemistry Chemical Physics 24 (January): 26556–63. http://widgets.ebscohost.com/prod/customlink/proxify/proxify.php?count=1&encode=0&proxy=&find_1=&replace_1=&target=https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&scope=site&db=edsair&AN=edsair.doi...........0205db3b7b3fe9acdcb887c370d0ae49&authtype=sso&custid=ns315887.