![]()
- Li Wei;Liu Minbo;Feng Shanshan;Li Xiaomin;Wang Jinxiu;Shen Dengke;Li Yuhui;Sun Zhenkun;Elzatahry Ahmed A.;Lu Haojie;Zhao Dongyuan,Template-free synthesis of uniform magnetic mesoporous TiO2 nanospindles for highly selective enrichment of phosphopeptides.-Materials Horizons-2014-01-01-1
- Li Wei;Wang Fei;Liu Yupu;Wang Jinxiu;Yang Jianping;Zhang Lijuan;Elzatahry Ahmed A.;Al-Dahyan Daifallah;Xia Yongyao;Zhao Dongyuan,General Strategy to Synthesize Uniform Mesoporous TiO2/Graphene/Mesoporous TiO2 Sandwich-Like Nanosheets for Highly Reversible Lithium Storage.-NANO LETTERS-2015-01-01-15
- Li Wei;Liu Jun;Zhao Dongyuan,Mesoporous materials for energy conversion and storage devices.-Nature Reviews Materials-2016-01-01-1
- Li Wei;Elzatahry Ahmed;Aldhayan Dhaifallah;Zhao Dongyuan,Core-shell structured titanium dioxide nanomaterials for solar energy utilization.-CHEMICAL SOCIETY REVIEWS-2018-01-01-47
- 李伟;赵东元;Ruicong Wang;Kun Lan;Zheng Chen;Xingmiao Zhang;Chin-Te Hung;Wei Zhang;Changyao Wang;Shuai Wang;Aibing Chen;Xin Xu,Janus介孔器件用于不同气体的同时检测分析.-科学新闻-2020-01-01
- Li, Wei,Learning from Nature: Chemical Self-Assembly for Materials Science.-MATTER-2020-01-01-3
- Gao Wenjun;Li Siwen;Pal Manas;Liu Yong;Wan Xiaoyue;Li Wei;Wang Shuai;Wang Changyao;Zheng Gengfeng;Zhao Dongyuan,Capping agent-free highly dispersed noble metal nanoparticles supported in ordered mesoporous carbon with short channels and their catalytic applications.-RSC Advances-2016-01-01-6
- Chen Xianjue;Li Wei;Luo Da;Huang Ming;Wu Xiaozhong;Huang Yuan;Lee Sun Hwa;Chen Xiong;Ruoff Rodney S.,Controlling the Thickness of Thermally Expanded Films of Graphene Oxide.-ACS Nano-2017-01-01-11
- Liu Xiaoguo;Zhang Fei;Jing Xinxin;Pan Muchen;Liu Pi;Li Wei;Zhu Bowen;Li Jiang;Chen Hong;Wang Lihua;Lin Jianping;Liu Yan;Zhao Dongyuan;Yan Hao;Fan Chunhai,Complex silica composite nanomaterials templated with DNA origami.-NATURE-2018-01-01-559
- Xiao Yuting;Tian Guohui;Li Wei;Xie Ying;Jiang Baojiang;Tian Chungui;Zhao Dongyuan;Fu Honggang,Molecule Self-Assembly Synthesis of Porous Few-Layer Carbon Nitride for Highly Efficient Photoredox Catalysis.-JOURNAL OF THE AMERICAN CHEMICAL SOCIETY-2019-01-01-141
