黄小青 - 厦门大学 - 化学化工学院

个人简介

2005年：西南师范大学（现西南大学）获理学学士学位 2011年：厦门大学获理学博士学位，导师为郑南峰教授、郑兰荪教授 2011-2014年：美国加州大学洛杉矶分校博士后研究，合作导师为Prof. Yu Huang和Prof. Xiangfeng Duan 2014年至今先后于苏州大学材料与化学化工学部、厦门大学化学化工学院担任教授，博士生导师

研究领域

研究团队主要从事无机纳米材料的设计合成及其在电催化、能源转移、小分子活化等领域的催化研究，属于无机、材料、催化和能源交叉学科。在非均相催化应用领域，由于贵金属独特的物理化学性质，贵金属催化在过去几十年中取得了长足的发展。贵金属的尺寸、形貌、组成和结构是设计高效贵金属催化剂的关键因素。重要的催化反应有选择性氧化、选择性氢化、重整反应、CH4转化、CO2转化等。建立高效的纳米材料合成技术，研究构效关系，从而实现一系列新型高效贵金属催化剂的开发。由于贵金属催化剂的结构多样性和高效催化性能，贵金属催化材料的设计合成已经引起了人们的广泛关注。当前，能源问题和环境危机日益严重。人们迫切需要寻求和开发高效率、低排放的新型能源转换技术，以缓解当今社会日益突出的能源和环境问题。其中，电催化被认为是最具发展前景的清洁能源转换方法之一。常见的电催化反应有ORR、MOR、HOR、 HER、OER和CO2RR等，这些电催化反应的实际应用价值很大程度上依赖于电催化剂的性能。如何通过调控催化剂的尺寸、组分、形貌、晶相等，从而设计高性能贵金属催化剂，进而实现能源的高效转化，是目前纳米科学、材料科学和催化领域中一个十分重要的研究方向。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Yonggang Feng; # Yujin Ji; # Ying Zhang; Qi Shao; Yong Xu;* Youyong Li; Xiaoqing Huang*; Synthesis of noble metal chalcogenides via cation exchange reactions, Nature Synthesis, 2022, 1, 626-634. Juan Wang,# Hao Yang,# Fan Li,# Leigang Li, Jianbo Wu, Shangheng Liu, Tao Cheng, Yong Xu,* Qi Shao, Xiaoqing Huang*; Single-site Pt doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting, Science Advances, 2022, 8: eabl9271. Shangheng Liu; Shize Geng; Ling Li; Ying Zhang; Guomian Ren; Bolong Huang*; Zhiwei Hu; Jyh-Fu Lee; Yu-Hong Lai; Ying-Hao Chu; Yong Xu*; Qi Shao; Xiaoqing Huang*; A Versatile Top-Down Strategy to Realize Amorphization of Hydroxyl Compound for Oxygen Evolution Reaction, Nature Communications, 2022, 13: 1187. Pengtang Wang; Yu Cheng; Cheng Tang; Hao Yang; Yao Zheng; Tao Cheng; Xiaoqing Huang*; Shizhang Qiao *; Boosting electrocatalytic CO2–to–ethanol production via asymmetric C–C coupling, Nature Communications, 2022, 13: 3754. Hong-chao Li; Qiang Wan; Congcong Du; Jiafei Zhao; Fumin Li; Ying Zhang; Kelvin H.L.Zhang; Jianyu Huang; Sen Lin;* Xiaoqing Huang;* Haifeng Xiong*; Layered Pd oxide on PdSn Nanowires for Boosting Direct H2O2 Synthesis, Nature Communications, 2022, 13: 6072. Shize Geng; Yujin Ji; Shize Yang; Yecan Pi; Shangheng Liu; Yiming Zhu; Miaomiao Fang; Ting Zhu; Youyong Li*; Mingwang Shao; Xiaoqing Huang*; Qi Shao*; Phosphorus Optimized…..Production in Neutral Media, Nature Communications, 2022, In revision. Juan Wang, Chen Cheng, Qi Yuan, Hao Yang, Fanqi Meng, Qinghua Zhang, Lin Gu, Jianlei Cao, Leigang Li, Shu-Chih Haw, Qi Shao*, Liang Zhang, Tao Cheng, Feng Jiao, and Xiaoqing Huang*; Exceptionally active and stable RuO2 with interstitial carbon for water oxidation in acid, Chem, 2022, 8: 1673-1687. Mengjun Wang; Leigang Li; Mingmin Wang; Xiaoqing Huang*; Recent progress in palladium-nonmetal nanostructures for fuel cell application, Nature (NPG) Asia Materials, 2022, 14: 78. Juntao Zhang; Xinnan Mao; Suling Wang; Lingling Liang; Maofeng Cao; Lu Wang;* Gen Li; Yong Xu*; Xiaoqing Huang*; Superlattice in a Ru superstructure for enhancing hydrogen evolution, Angewandte Chemie-International Edition, 2022, 61: e202116867. Changhong Zhan;# Lingzheng Bu;# Haoran Sun;# Xingwei Huang;# Zhipeng Zhu; Tang Yang; Haibin Ma; Leigang Li; Yucheng Wang;* Hongbo Geng; Weizhen Wang; Huaze Zhu; Chih-Wen Pao; Qi Shao; Zhiqing Yang;* Wei Liu;* Zhaoxiong Xie; Xiaoqing Huang*; ….. Core/Shell Nanoplate Achieves Efficient Formic Acid Catalysis for DFAFC, Angewandte Chemie-International Edition, 2022, In revision. Ying Zhang;# Xiaozhi Liu;# Tianyang Liu;# Xianyin Ma; Yonggang Feng; Bingyan Xu; Wenbin Cai; Yafei Li;* Dong Su;* Qi Shao; Xiaoqing Huang*; Rhombohedral Pd-Sb Nanoplate with Pd-Terminated Surface: An Efficient Bifunctional Fuel Cell Catalyst, Advanced Materials, 2022, 34, 2202333. Bingyan Xu;# Tianyang Liu;# Xiaocong Liang; Wenjie Dou; Hongbo Geng; Zhiyang Yu; Yafei Li*; Ying Zhang;* Qi Shao; Jingmin Fan; Xiaoqing Huang*; Pd-Sb Rhombohedron with Unconventional Rhombohedral Phase as Trifunctional Electrocatalyst, Advanced Materials, 2022, In press. Zhiyong Yu; Sheng-Yao Lv; Qing Yao; Yong Xu;* Qi Shao; Chih-Wen Pao; Jyh-Fu Lee; Guoliang Li; Li-Ming Yang;* Xiaoqing Huang*; Isolated Pd Site …. for Active, Selective and Stable H2O2 Electrosynthesis, Advanced Materials, 2022, In revision. Lingzheng Bu;* Jiashun Liang; Fandi Ning; Ju Huang; Bolong Huang*; Mingzi Sun; Changhong Zhan; Yanhang Ma; Xiaochun Zhou; Qing Li;* Xiaoqing Huang*; Low-Coordination …. for Practical Fuel Cells, Advanced Materials, 2022, In revision. Tang Yang; Hao Zhang; Changhong Zhan; Lingling Liang; Yong Xu;* Pengpeng Ruan; Ying Zhang; Jiwei Li; Lu Wang;* Ximeng Lv; Shize Yang; Chih-Wen Pao; Xiaoqing Huang*; Strong Synergy between Single Atom and Single Atom Alloy Enabling Active and Selective H2O2 Synthesis, Chem Catalysis, 2022, In press. Shangheng Liu; Yingtian Zhang; Xinnan Mao; Ling Li; Ying Zhang; Leigang Li; Yu Pan; Xingang Li; Lu Wang*; Qi Shao; Yong Xu*; and Xiaoqing Huang*; Ultrathin Perovskite Derived Ir-Based Nanosheets for High-Performance Electrocatalytic Water Splitting, Energy & Environmental Science, 2022, 15: 1672-1681. Lingzheng Bu*; Fandi Ning; Jing Zhou; Changhong Zhan; Mingzi Sun; Leigang Li; Yiming Zhu; Zhiwei Hu; Qi Shao; Xiaochun Zhou; Bolong Huang;* and Xiaoqing Huang*; Three-Dimensional Porous Platinum-Tellurium-Rhodium Surface/Interface Achieve Remarkable Practical Fuel Cell Catalysis, Energy & Environmental Science, 2022, 15: 3877-3890. Leigang Li; Shangheng Liu; Changhong Zhan; Jiajia Han;* Ting-Shan Chan; Qiaobao Zhang;* Zhiwei Hu; Xiaoqing Huang*; Surface and Lattice Engineered Ruthenium Superstructures towards High-Performance Bifunctional Hydrogen Catalysis, Energy & Environmental Science, 2022, In press. Huiping Peng; Tang Yang; Haiping Lin; Yong Xu;* Zihan Wang; Qinghua Zhang; Shangheng Liu; Hongbo Geng; Lin Gu; Cheng Wang; Xing Fan;* Wenxing Chen; Xiaoqing Huang*; Ru/In Dual-Single Atoms Modulated Charge Separation for Significantly Accelerated Photocatalytic H2 Evolution in Pure Water, Advanced Energy Materials, 2022, In press. Yuanting Dong; Qintao Sun; Changhong Zhan; Juntao Zhang; Hao Yang; Tao Cheng; Yong Xu*; Zhiwei Hu; Chih-Wen Pao; Hongbo Geng; Xiaoqing Huang*; Lattice and Surface Engineering of Ruthenium Nanostructures for Enhanced Hydrogen Oxidation Catalysis, Advanced Functional Materials, 2022, In press.