代表性论文:
(光伏材料与器件)
1. Xiaopeng Xu, YingLi, Qiang Peng*. Ternary Blend Organic Solar Cells: Understanding the Morphology from Recent Progress. Adv. Mater., 2022, DOI: 10.1002/adma.202107476.
2. Huifeng Meng, Chentong Liao, Min Deng, Xiaopeng Xu*, Liyang Yu, Qiang Peng*. 18.77% Efficiency Organic Solar Cells Promoted by Aqueous Solution Processed Cobalt(II) Acetate Hole Transporting Layer. Angew. Chem. Int. Ed., 2021, 60, 22554-22561.
3. Dewei Zhao*, Liming Ding*, “All-perovskite tandem structures shed light on thin-film photovoltaics”, Science Bulletin, 65(14), 1144-1146, (2020)
4. Wei-Qiang Liao†, Dewei Zhao†, Yuan-Yuan Tang†, Yi Zhang†, Peng-Fei Li, Ping-Ping Shi, Xiao-Gang Chen, Yu-Meng You, Ren-Gen Xiong*, “A Molecular Perovskite Solid Solution with Piezoelectricity Stronger than Lead Zirconate Titanate”, Science, 363 (6432), 1206-1210 (2019)
5. Dewei Zhao*, Cong Chen, Changlei Wang, Maxwell M. Junda, Zhaoning Song, Corey R. Grice, Yue Yu, Chongwen Li, Biwas Subedi, Nikolas J. Podraza, Xingzhong Zhao, Guojia Fang, Ren-Gen Xiong, Kai Zhu, Yanfa Yan*,“Efficient two-terminal all-perovskite tandem solar cells enabled by high-quality low-bandgap absorber layers”, Nat. Energy, 3(12), 1093 (2018)
6. Dewei Zhao*, Yue Yu, Changlei Wang, Weiqiang Liao, Niraj Shrestha, Corey R. Grice, Alexander J. Cimaroli, Lei Guan, Randy J. Ellingson, Kai Zhu, Xingzhong Zhao, Ren-Gen Xiong, and Yanfa Yan*, “Low-Bandgap Mixed Tin–Lead Iodide Perovskite Absorbers with Long Carrier Lifetimes for All-Perovskite Tandem Solar Cell”, Nat. Energy, 2, 17018 (2017)
(氢能与电化学储能)
1. Ma G.#, Shao H.#, Xu J., Liu Y.*, Huang Q., Taberna P.-L., Simon P.*, Lin Z.*, Li-ion storage properties of two-dimensional titanium-carbide synthesized via fast one-pot method in air atmosphere. Nature Communications 2021, 12, Article number: 5085.
2. X. L. Qiu, X. L. Wang, Y. X. He, J. Liang, K. Liang, B. L. Tardy, J. Richardson, M. Hu, H. Wu*, Y. Zhang*, O. Rojas, I. Manners, J. Guo, Superstructured mesocrystals through multiple inherent molecular interactions for highly reversible sodium ion batteries. Science Advances 7, eabh3482, 2021.
3. Liu Wei*, Chen Zidong, Zhang Zheng, Jiang Pingxian, Chen Yungui*, Paek Eunsu, Wang Yixian, Mitlin David*, Lithium-activated SnS-graphene alternating nanolayers enable dendrite-free cycling of thin sodium metal anodes in carbonate electrolyte, Energy and Environmental Science, 2021, 14(1):382-395.
4. Wanhai Zhou, Ding Zhu*, Jian He, Jinchi Li, Huichen, Yungui Chen*, Dongliang Chao*, A scalable top-down strategy twoard practical metrics of Ni-Zn Battery with total energy densities of 165 Wh/kg and 506 Wh/L, Energy and Environmental Science, 2020, 13, 4157-4167
5. Realizing Reversible Conversion-Alloying of Sb(V) in Polyantimonic Acid for Fast and Durable Lithium- and Potassium-Ion Storage. B. Y. Wang, Z. W. Deng, Y. T. Xia, J. X. Hu, H. J. Li, H. Wu*, Q. B. Zhang, Y. Zhang*, H. K. Liu, S. X. Dou, Advanced Energy Materials 10, 1903119, 2020.
6. Shao H.#, Wu Y.-C.#, Lin Z.*, Taberna P.-L., Simon P.*, Nanoporous carbon for electrochemical capacitive energy storage. Chem. Soc. Rev. 2020, 49 (10), 3005-3039.
7. Li Y.#, Shao H.#, Lin Z.*, Lu J., Liu L., Duployer B., Persson P. O. Å., Eklund P., Hultman L., Li M., Chen K., Zha X.-H., Du S., Rozier P., Chai Z., Raymundo-Piñero E., Taberna P.-L., Simon P.*, Huang Q.*, A general Lewis acidic etching route for preparing MXenes with enhanced electrochemical performance in non-aqueous electrolyte. Nature Materials 2020, 9, 894-899.
8. Chaonan Jin, Jiao Li, Keyan Zhang, Habibullah, Guanghui Xia, Chaoling Wu*, Yao Wang*, Wanglai Cen, Yiwen Chen, Yigang Yan, Yungui Chen, Pd3P nanoparticles decorated P-doped graphene for high hydrogen storage capacity and stable hydrogen adsorption-desorption performance, Nano Energy, 2022, 107360.
(低碳技术与工程)
1. Xie, W.; Tang, P.; Wu, Q.; Chen, C.; Song, Z.; Li, T.; Bai, Y.; Lin, S.; Tiraferri, A.;Liu, B.*, Solar-driven desalination and resource recovery of shale gas wastewater by on-site interfacial evaporation.Chemical Engineering Journal 2022,428, 132624.
2. Ya-Ting Chen, Yan Zeng, Jie Li, Xin-Yu Zhao, Yue Yi, Min Gou, Yoichi Kamagata, Takashi Narihiro, Masaru Konishi Nobu*, Yue-Qin Tang*. Novel syntrophic isovalerate-degrading bacteria and their energetic cooperation with methanogens in methanogenic chemostats. Environmental Science and Technology, 2020, 54, 9618-9628
3. Chang, H.; Liu, S.; Tong, T.; He, Q.; Crittenden, J. C.; Vidic, R. D.;Liu, B.*, On-Site Treatment of Shale Gas Flowback and Produced Water in Sichuan Basin by Fertilizer Drawn Forward Osmosis for Irrigation.Environmental Science & Technology2020,54, (17), 10926-10935.(Front Cover)
4. Bai-Xue Yang, Cai-Yun Xie, Zi-Yuan Xia, Ya-Jing Wu, Bo Li, Yue-Qin Tang*. The effect of xylose reductase genes on xylitol production by industrial Saccharomyces cerevisiae in fermentation of glucose and xylose. Process Biochemistry, 2020, 95, 122-130
5. Ronghao Zhang, Hong Wang, Siyang Tang*, Changjun Liu, Fan Dong, Hairong Yue*, and Bin Liang, “Photocatalytic Oxidative Dehydrogenation of Ethane Using CO2 as a Soft Oxidant over Pd/TiO2 Catalysts to C2H4 and Syngas,” ACS Catal. 2018, 8, 10, 9280-9286. (Cover Story) https://doi.org/10.1021/acscatal.8b02441.
6. Changan Zhou, Kaiwu He, Wenyao Lv, Yaxin Chen, Siyang Tang, Changjun Liu, Hairong Yue*, and Bin Liang, “Energy and Economic Analysis for Post-combustion CO2 Capture using Amine-Functionalized Adsorbents in a Temperature Vacuum Swing Process,” Energy Fuels, 2019, 33, 3, 1774-1784. (Cover Story) https://doi.org/10.1021/acs.energyfuels.8b02837.
