{"id":17,"date":"2016-08-08T22:22:02","date_gmt":"2016-08-09T02:22:02","guid":{"rendered":"http:\/\/physics.cos.ucf.edu\/fenglab\/?page_id=17"},"modified":"2024-02-08T15:39:50","modified_gmt":"2024-02-08T20:39:50","slug":"publications","status":"publish","type":"page","link":"https:\/\/sciences.ucf.edu\/physics\/fenglab\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Google Scholar Citations<\/a><\/strong><\/span><\/h4>\n
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(33)\u00a0 Kaige Shi, Zhuanghe Ren, Zhen Meng, Xiaofeng Feng.* Hydrophilic or hydrophobic? Optimizing the catalyst microenvironment for gas-involving electrocatalysis<\/a><\/span>. ChemCatChem<\/strong>, 2024, 16, e202301308.<\/span><\/p>\n

(32)\u00a0 Kaige Shi, Maia D. Willis, Zhuanghe Ren, Xiaofeng Feng.* Efficient recycling of dilute nitrate to ammonia using Cu nanowire electrocatalyst<\/a><\/span>. Journal of Physical Chemistry C<\/strong>, 2023, 127, 20710\u221220717.<\/span><\/p>\n

(31)\u00a0 Zhuanghe Ren, Kaige Shi, Xiaofeng Feng.* Elucidating the intrinsic activity and selectivity of Cu for nitrate electroreduction<\/a><\/span>. ACS Energy Letters<\/strong>, 2023, 8, 3658\u22123665.<\/span><\/p>\n

(30)\u00a0 Zackary S. Parsons, Lorianne R. Shultz-Johnson, Titel Jurca,* Xiaofeng Feng.* Cobalt (oxy)hydroxide nanosheets supported on nickel foam as efficient electrocatalysts for oxygen evolution<\/a><\/span>. ACS Applied Engineering Materials<\/strong>, 2023, 1, 2119\u22122126.<\/span><\/p>\n

(29)\u00a0 Kaige Shi, Zackary S. Parsons, Xiaofeng Feng.* Sensitivity of gas-evolving electrocatalysis to the catalyst microenvironment<\/a><\/span>. ACS Energy Letters<\/strong>, 2023, 8, 2919\u22122926.<\/span><\/p>\n

(28)\u00a0 Lorianne R. Shultz, Zackary S. Parsons, Melanie Beazley, Xiaofeng Feng, Titel Jurca.* Tracking the seconds of a clock reaction: A multiparametric experimental study on the catalytic reduction of methylene blue<\/a><\/span>. Journal of Physical Chemistry C<\/strong>, 2023, 127, 4042\u22124050.<\/span><\/p>\n

(27)\u00a0 Zhuo Xing, Kaige Shi, Zackary S. Parsons, Xiaofeng Feng.* Interplay of active sites and microenvironment in high-rate electrosynthesis of H2<\/sub>O2<\/sub> on doped carbon<\/a><\/span>. ACS Catalysis<\/strong>, 2023, 13, 2780\u22122789.<\/span><\/p>\n

(26)\u00a0 Lin Hu, Hemanth Somarajan Pillai, Corbin Feit, Kaige Shi, Zhengning Gao, Parag Banerjee,* Hongliang Xin,* Xiaofeng Feng.* Identification of active sites for ammonia electrosynthesis on ruthenium<\/span><\/a>. ACS Energy Letters<\/strong>, 2022, 7, 4290\u22124298.<\/span><\/p>\n

(25)\u00a0 Zhuo Xing, Kaige Shi, Xun Hu,* Xiaofeng Feng.* Beyond catalytic materials: Controlling local gas\/liquid environment in the catalyst layer for CO2<\/sub>\u00a0electrolysis<\/a><\/span>. Journal of Energy Chemistry<\/strong>, 2022, 66, 45\u221251.<\/span><\/p>\n

(24)\u00a0 Zhuo Xing, Xun Hu,* Xiaofeng Feng.* Tuning the Microenvironment in Gas-Diffusion Electrodes Enables High-Rate CO2<\/sub>\u00a0Electrolysis to Formate<\/a><\/span>. ACS Energy Letters<\/strong>, 2021, 6, 1694\u22121702.<\/p>\n

(23)\u00a0 Zhuo Xing, Lin Hu, Donald S. Ripatti, Xun Hu,* Xiaofeng Feng.* Enhancing carbon dioxide gas-diffusion electrolysis by creating a hydrophobic catalyst microenvironment<\/span><\/a>. Nature Communications<\/strong>, 2021, 12, 136.\u00a0 [PDF]<\/a><\/span><\/p>\n