2022年度重点实验室发表论文

一区（19篇）

[1]Cuiping Zhang, Qiaogan Liao, Jinyu Chen, Bolin Li, Chaoying Xu, Kun Wei,  Guozheng Du, Yang Wang,* Dachang Liu, Jidong Deng, Zhide Luo, Shuping Pang,  Ye Yang, Jingrui Li, Li Yang,* Xugang Guo,* and Jinbao Zhang*，Thermally Crosslinked Hole Conductor Enables Stable Inverted Perovskite Solar Cells with 23.9% Efficiency, Advanced Materials, 2022, doi.org/10.1002/adma.202209422(IF=32.086)

[2]Guozheng Du, Li Yang*,Cuiping Zhang, Xiaoli Zhang, Nicholas Rolston, Zhide Luo,Jinbao Zhang*, Evaporated undoped spiro-OMeTAD enables stable perovskite solar cells exceeding 20% efficiency, Advanced Energy Materials, 2022, 12, 2103966 (IF=29.698)

[3] Jidong Deng, Huifeng Zhang, Kun Wei, Yuanhui Xiao, Cuiping Zhang, Li Yang*, Xiaoli Zhang, Deyin Wu, Ye Yang, Jinbao Zhang*, Molecular bridge assisted bifacial defect healing enables low energy loss for efficient and stable perovskite solar cells, Advanced Functional Materials, 2022, 2209516(IF=19.924)

[4]Ri Ouyang, Yun Huang, Haotian Ye, Zijun Zhang, Hao Xue*, Copper particles-PTFE tube based triboelectric nanogenerator for wave energy harvesting, Nano Energy, 2022, 102, 107749(IF=19.069)

[5]Jingliang Yang, Hongjia Wang, Zhenwei Zhu, Mufei Yue, Weimin Yang, Xiaguang Zhang, Xiangyu Ruan, Zhiqiang Guan, Zhilin Yang, Weiwei Cai, Yuanfei Wu, Fengru Fan*, Jinchao Dong*, Hua Zhang, Hongxing Xu, Zhongqun Tian, and Jianfeng Li*, In Situ Raman Probing of Hot-Electron Transfer at Gold–Graphene Interfaces with Atomic Layer Accuracy, Angewandte Chemie-International Edition, 2022, 61(16), e202117834(IF=16.823)

[6]Tingting Hu, Fang Liu, Shuai Dou, Lubin Zhong, Xuan Cheng, Zaidong Shao*, Yuming Zheng*, Selective adsorption of trace gaseous ammonia from air by a sulfonic acid-modified silica xerogel: Preparation, characterization and performance, Chemical Engineering Journal, 2022, 443, 136357(IF=16.744)

[7]Jia Li, Shen Wang, Mufei Yue, Shuming Xing, Yuejiao Zhang, Jinchao Dong, Hua Zhang,* Zhuo Chen,* and Jianfeng Li*, Graphene-Isolated Satellite Nanostructure Enhanced Raman Spectroscopy Reveals the Critical Role of Different Intermediates on the Oxygen Reduction Reaction, ACS Catalysis, 2022, DOI: 10.1021/acscatal.2c05802. (IF=13.7)

[8]Sina Qin, Diye Wei, Jie Wei, Jiasheng Lin, Qingqi Chen, Yuanfei Wu, Huaizhou Jin, Hua Zhang, Jianfeng Li, Direct identification of the carbonate intermediate during water‐gas shift reaction at Pt‐NiO interfaces using surface‐enhanced Raman spectroscopy, Chinese Journal of Catalysis, 2022, 43, 8, 2010-2016(IF=12.92)

[9] Hengquan     Chen,     Lie  Zou,       Diye      Wei, Lingling      Zheng*,Yuanfei Wu,Hua Zhang,     JianfengLi, In situ studies of energy-related electrochemical reactions using Raman and X-ray absorption spectroscopy, Chinese Journal of Catalysis, 2022, 43, 33-46(IF=12.92)

[10]Guozheng Du, Li Yang*, Jinbao Zhang*, Light soaking induced halide doping of evaporated Spiro-OMeTAD in perovskite solar cells, Laser & Photonics Reviews, 2022, 2200475(IF=10.947)

[11]Huijun Cao, Yu Zhang, Yinggan Zhang, Jiajia Han*, Dongchuan Su, Zhihao Zhang*, Effect of the anisotropic characteristics of β-Sn on current-induced solder evolution, Materials & Design, 2022, 224, 111339(IF=9.417)

[12]Zhiguo Wang, Jibin Zhao, Yuhui Zhao*, Zhihao Zhang*, Microstructural characteristics and material removal mechanisms in nano-scale finished surface of mirror-like injection mould fabricated by laser metal deposition and post treatments, Applied Surface Science, 2022, 602,154263(IF=7.392)

[13]Sainan Zhang, Zhihua Zhong, Yu Hua, Qi Wang, Gaojing Zhang, Siwei Li*, Lifu Chen, Properties of super heat-resistant silicon carbide fibres with in situ BN coating, Journal of the European Ceramic Society, 2022, 42, 6404–6411(IF=6.364)

[14]Sainan Zhang, Zhihua Zhong, Yu Hua, Qi Wang, Gaojing Zhang, Siwei Li*, Lifu Chen, Effects of oxygen on the thermal stability of silicon nitride fibers, Journal of the European Ceramic Society, 2022, 42, 2691-2698 (IF=6.364)

[15] Zhenguo Huang, Jiahao Hu, Wenyan Huang, Kun Zhuang, Yinong Zheng, Ke Li, Chao Jin, Yufeng Wang, Zhichao Xue, Jiahao Liang, Rongqian Yao*, Achieving high permeability of in-situ formed lightweight C_f/SiC(rGO)_px/SiC porous ceramics with improved interfacial compatibility for transpiration cooling, Journal of the European Ceramic Society, 2022, 42, 5399-5409(IF=6.364)

[16]Jiawei Zheng, Jinchuan Yang, Wen Cao, Yue Huang, Zhonghua Zhou, Yaxi Huang*, Fabrication of transparent wear-resistant superhydrophobic SiO₂ film viaphase separation and chemical vapor deposition methods, Ceramics International, 2022, 48, 32143-32151(IF=5.532)

[17]Wen Cao, Zhonghua Zhou*, Huihui Sun, Ziji Zhou, Yue Huang*, Shirley Shen, Fabrication of abrasion-resistant micro-nano hierarchical structure on glass surface by a hydrothermal corrosion method, Ceramics International, 2022,48, 6, 8012-8024(IF=5.532)

[18]Jie Xu, Yuxi Yu*, Liuying Huang, Sa Zhang, Dielectric and electromagnetic properties of amorphous PDCs-Si(Al)CNO with different Al contents in X-band, Ceramics International, 2022, 48, 25872-25879(IF=5.532)

[19]Wenyan Huang, Jiahao Liang, Kun Zhuang, Shengjian Mao, Yinong Zheng, Yeqi Zhu, Qianwen Tao, Rongqian Yao*, Realizing load bearing-heat insulation integration of lightweight porosity-controlled SiC(rGO) bulk ceramics via precursor route for hypersonic vehicles, Ceramics International, 2022, 48, 31984-31994(IF=5.532)

二区（11篇）

[1] Pengfei Wu, Zhicheng Zheng, Benyang Shi, Chao Liu, Shaohong Chen, Binbin Xu, and Anhua Liu*, SiOC Phase Control and Carbon Nanoribbon Growth by Introducing Oxygen at Atom Level for Lithium-Ion Batteries, Small Methods, 2022, 2201299(IF=15.367)

[2] Jidong Deng, Li Yang*, Xiaoli Zhang, Kun Wei, Guozheng Du, Guojie Zhu, Jinbao Zhang*, Synergistic effects of morphological control and enhanced charge collection enable efficient and stable lead-free CsBi₃I₁₀ thin film solar cells, Journal of Materials Chemistry A, 2022, 10, 9384-9392(IF=14.511)

[3] Naiyuan Fan, Yang Wang*, Cuiping Zhang, Guojie Zhu, Guozheng Du, Kun Wei, Jidong Deng, Zhide Luo, Li Yang*, Jinbao Zhang*, Simple benzothiadiazole derivatives as buried interface materials towards efficient and stable n-i-p perovskite solar cells, Journal of Materials Chemistry A, 2022, 10, 8911-8922(IF=14.511)

[4]Bolin Lyu, Li Yang*, Yiyun Luo, Xiaoli Zhang*, Jinbao Zhang*, Counter Electrodes for Perovskite Solar Cells: Materials, Interfaces and Device Stability, Journal of Materials Chemistry A,2022, 10, 10775-10798(IF=14.511)

[5]Li Yang*, Xiaoli Zhang, Jinbao Zhang*, A short review on surface-confined monolayers of π-conjugated polymers for photovoltaics, Solar RRL,2022, 6, 2101086(IF=9.173)

[6]Xiuzhen Xie, Liang Xu, Yuanming Pan, Jinxiao Mi*, Facile synthesis of rose-like composites of zeolites and layered double hydroxides: Growth mechanism and enhanced properties, Chemosphere, 2022, 309, 136741(IF=8.943)

[7]Yuhang Cui, Li Yang*, Xuejiao Wu, Jidong Deng, Xiaoli Zhang, Jinbao Zhang*, Recent progress of lead-free bismuth-based perosvskite materials for solar cells applications, Journal of Materials Chemistry C, 2022, 10, 16629-16656(IF=8.067)

[8]Wenyan Huang, Yeqi Zhu, Lei Zhong, Chao Jin, Yinong Zheng, Yinggan Zhang, Siqi Lan,  Shiwen Gong, Jiangnan Zhao, Meng Huang and Rongqian Yao*, Realizing highly efficient blue photoluminescence of dimethylsilane-aryl (phenylene, diphenylene, fluorenyl) main-chain polymers with r-p Conjugation, Journal of Materials Chemistry C, 2022, 10, 5284-5291(IF=8.067)

[9]Xiaoying Luo, Xuexia Wei, Cunhao Zhang, Jiaqi Huang, Xuan Cheng*, Surface depth-dependent and microstructural analyses of high performance lithium iron silicate with 15% vanadium modification , Surfaces and Interfaces, 2022, 28, 101621(IF=6.137)

[10]Jun Zhou, Diye Wei,a Yujin Zhang, Hua Zhang*, and Jianfeng Li*, Plasmonic Core–Shell Materials: Synthesis, Spectroscopic Characterization, and Photocatalytic Applications, Chinese Journal of Chemistry, 2022, 40, 392-406(IF=5.560)

[11] Jie Xu, Yuxi Yu*, Liuying Huang, and Sa Zhang, Simulation and Verification of the Method ofIncreasing the Wireless Detection Distance ofResonant Cavity Temperature Sensor byIntegrated Patch Antenna, IEEE Sensors Journal, 2022, 22, 3,2292-2300(IF=4.325)

其它（18篇）

[1] Fangmu Qu*, Zhaoju Yu*, Monika Krol, Nan Chai, Ralf Riedel and Magdalena Graczyk-Zajac, Electrochemical Performance of Carbon-Rich Silicon Carbonitride Ceramic as Support for Sulfur Cathode in Lithium Sulfur Battery, Nanomaterials, 2022, 12, 1283. (三区)

[2]Guojie Zhu, Li Yang*, Cuiping Zhang, Guozheng Du, Naiyuan Fan, Zhide Luo, Xiaoli Zhang, Jinbao Zhang*, Unveiling the Critical Role of Oxidants and Additives in Doped Spiro-OMeTAD toward Stable and Efficient Perovskite Solar Cells, ACS Applied Energy Material, 2022, 5, 3595-3604. (三区)

[3] Qing Gong, Peng Hu, Weifeng Yang, Tengfei Zhang, Jiaqi Liu, Hengyi Li,* and Xuan Cheng*, Microwave-Assisted Preparation of the Cubic RuSe₂/C Catalyst for Fuel Cell Applications, ACS Applied Energy Materials, 2022, 5, 13166-13175. (三区)

[4]Xuejiao Wu, Li Yang*, Jidong Deng, Kun Wei, Guozheng Du, Yuhang Cui, Xiaoli Zhang, Jinbao Zhang*, Antimony Doping of CsBi₃I₁₀ for Tailoring the Film Morphology and Defects toward Efficient Lead-Free Thin-Film Solar Cells, ACS Applied Energy Materials, 2022, 5, 10622-10631. (三区)

[5]Kun Wei, Li Yang*, Jidong Deng, Zhide Luo, Xiaoli Zhang*, Jinbao Zhang*, Facile exfoliation of the perovskite thin film for visualizing the buried interfaces in perovskite solar cells, ACS Applied Energy Material, 2022, 5, 7458-7465. (三区)

[6]Yuxi Yu*, Yujuan Huang, Lu Li, Liuying Huang, and Sa Zhang, Silica ceramic nanofiber membrane with ultra-softness and high temperature insulation, Journal of Materials Science, 2022, 57, 4080-4091. (三区)

[7]Liangjie Tang, Xiuzhen Xie, Yaxi Huang, Yuanming Pan, Jinxiao Mi*, Phase diagram for hydrothermal alkali activation of kaolin and quartz: Optimal digestion for the synthesis of zeolites, Materials Chemistry and Physics, 2022, 290, 126570. (三区)

[8]Yuxi Yu*, Lu Li, Yujuan Huang, Liuying Huang, Sa Zhang, Preparation and properties of low-density and high-temperature resistant yttrium doped silica aerogels, Journal of Non-Crystalline Solids, 2022, 590, 121572. (三区)

[9]Zhengyu Ke and Zhidong Zhou*, Performance analysis of the functionally graded flexoelectric-piezoelectric energy harvesting, Frontiers in Materials, 2022,DOI 10.3389/fmats.2022.1097683 (三区)

[10]Maomao Zhang, Zhidong Zhou*, Bending and vibration analysis of flexoelectric beam structure on linear elastic substrates, Micromachines, 2022, 13, 915. (三区)

[11]Huaifu Li, Yunsong Li*, Xuan Cheng*, Chaoyang Gong, Hollow Hemispherical Lithium Iron Silicate Synthesized by an Ascorbic Acid-Assisted Hydrothermal Method as a Cathode Material for Li Ion Batteries, Materials, 2022, 15, 3545. (三区)

[12]Cong Zhou, Shuang Li, Zhaoju Yu*, Polymer-derived FexSiy/SiC@SiOC ceramic nanocomposites with tunable microwave absorption behavior, International Journal of Applied Ceramic Technology, 2022, 12, 1283. (三区)

[13]Laichao Li , Yuxi Yu*, Sa Zhang , Tengbo Chen , Tengfei Zheng , Longfei Hang, Eliminate of cracking for the growth of large-size Tb₃Sc₂Al₃O₁₂ crystals, Journal of Crystal Growth, 2022, 579, 126458. (三区)

[14]Le Yang, Pei Zhang, Yao Feng, Zhaoju Yu*, Single-source-precursor synthesis and characterization of SiAlC(O) ceramics from a hyperbranched polyaluminocarbosilane, High Temperature Materials and Processes, 2022, 41, 150-160. (四区)

[15]Jiaqi Liu, Junfei Shen, Qing Gong, Peng Hu, Xuan Cheng*, Hengyi Li, Improving Nickel Diselenide Performance toward Oxygen Reduction Reaction with Ruthenium Incorporation and Heat Treatment, Journal of The Electrochemical Society, 2022, 169, 044518. (四区)

[16]Fengjuan Yang*, Xuan Cheng*, Ying Zhang, Domain orientation distributions in La,Nb-doped PZT ceramics based on in situ polarization angle analysis by Raman spectroscopy, Journal of Materials Science: Materials in Electronics, 2022, 33, 19405-19419. (四区)

[17]Huijun Cao, shiqin Li, Yinggan Zhang, Yichen Zhu, Mingyu Li*, Zhihao Zhang*, Mg₂Sn-induced whisker growth on the surfaces of Mg/Sn/Mg ultrasonic-assisted soldering joints，China Welding，2022, 31, 47-59

[18]郭莉莉，张诺伟*，陈秉辉,丝光沸石改性对合成气一器化制乙醇的影响,厦门大学学报(自然科学版), 2022.06