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[1] Liaochuan Zhang , Yuyu Liang , Lingmin Yu , Hongjun Wang , Mingli Yin, Activating and modifying the basal planes of MoS₂ for superior NO₂ sensing at room temperature, Sensors & Actuators: B. Chemical 359 (2022) 131539.

[2]Li Yuan; Zhang Mingjia; Hu Xiuli; Fan Xinhui; Yu Lingmin Y ; Huang Changshui ; Light and Heat Triggering Modulation of the Electronic Performance of a Graphdiyne-Based Thin Film Transistor, The Journal of Physical Chemistry Letters, 2020, 11: 1998-2005

[3] Chonghao Hu; Lingmin Yu ; Senlin Li; Mingli Yin; Hongbo Du; Haifeng Li ; Sacrificial template triggered to synthesize hollow nanosheet-assembled Co₃O₄ microtubes for fast triethylamine detection, Sensors & Actuators: B. Chemical, 2021, 355: 131246

[4] Li Yuan, Zhang Mingjia, Hu Xiuli,Yu Lingmin, Fan Xinhui, Huang Changshui, Li Yuliang, Graphdiyne-based flexible respiration sensors for monitoring human health, Nano Today, 2021, 39, 101214.

[5] Li Yuan, Zhang Mingjia,Hu Xiuli, Li Xiaodong, Li Ru,Yu Lingmin, Fan Xinhui, Wang Naiyin, Huang Changshui, Li Yuliang, Graphdiyne Visible-Light Photodetector with Ultrafast Detectivity, Advanced optical materials, 2021,9,6

[6] Liu, Bin, Yu, Lingmin, Zhang, Yonghai , Di Marco, Paolo, Wei, Jinjia, Enhanced Nucleate Pool Boiling by Coupling the Pinning Act and Cluster Bubble Nucleation of Micro-nano Composited Surfaces, International journal of Heat and Mass Transfer, 157, 2020, 119979.

[7] Li, Yanni, Zhu, Lei, Yao, Tianhao, Liu, Ting, Qian, Ruifeng, Li, Fang, Han, Xiaogang, Yu, Lingmin^*, Wang, Hongkang*, Space-Confined Synthesis of Ultrasmall SnO₂ Nanodots within Ordered Mesoporous Carbon CMK-3 for High-Performance Lithium Ion Batteries, ENERGY & FUELS,  2020, 34, 6,7709-7715.

[8] Tunable NH4F-Assisted Synthesis of 3D Porous In2O3 Microcubes for Outstanding NO₂ Gas-Sensing Performance: Fast Equilibrium at High Temperature and Resistant to Humidity at Room Temperature£¬ ACS APPLIED MATERIALS & INTERFACES£¬2021£¬ 13 (12) , pp.14368-14377

[9] Hierarchical flower-like TiO2 microspheres for high-selective NH3 detection: A density functional theory study£¬SENSORS AND ACTUATORS B-CHEMICAL£¨2021£© 345

[10] Activating the Basal Plane of Defective SnS2 Nanosheets for NH3 Gas Sensing£¬ ACS APPLIED NANO MATERIALS 2020£¬3 (5) , pp.4642-4653

[11] Ultrasensitive Pressure Sensor Sponge Using Liquid Metal Modulated Nitrogen-Doped Graphene Nanosheets, Nano letters, 2022

[12] Electric field controlled CO₂ capture and activation on BC6N monolayers: A first-principles study, Surfaces and Interfaces 30 (2022) 101885

[13] High-Performance Electrochemical Nitrate Reduction to Ammonia under Ambient Conditions Using a FeOOH Nanorod Catalyst,ACS Appl. Mater. Interfaces

[14] A 3D FeOOH nanotube array: an efficient catalyst for ammonia electrosynthesis by nitrite reduction,Chem. Commun. DOI: 10.1039/d2cc00611a

²»ÏÞip×¢²áËÍ37Ôª½ð±Ò:[15]Chen Yang,Yu Lingmin^*, et al., Hierarchical flower-like TiO₂ microspheres for high-selective NH₃ detection: A density functional theory study, Sensors and Actuators B, 2021,345,130303.

[16]Li Yuan, Zhang Mingjia, Hu Xiuli,Yu Lingmin, Fan Xinhui, Huang Changshui, Li Yuliang, Graphdiyne-based flexible respiration sensors for monitoring human health, Nano Today, 2021, 39, 101214.

²»ÏÞip×¢²áËÍ37Ôª½ð±Ò:[17] Liu Nan, Yu Lingmin^*, et al.,Tunable NH₄F-Assisted Synthesis of 3D Porous In₂O₃ Microcubes for Outstanding NO₂ Gas-Sensing Performance: Fast Equilibrium at High Temperature and Resistant to Humidity at Room Temperature, ACS applied material interface, 2021,13, 12, 14355¨C14364

[18] Li Yuan, Zhang Mingjia,Hu Xiuli, Li Xiaodong, Li Ru,Yu Lingmin, Fan Xinhui, Wang Naiyin, Huang Changshui, Li Yuliang, Graphdiyne Visible-Light Photodetector with Ultrafast Detectivity, Advanced optical materials, 2021,9,6

[19] Liu, Bin, Yu, Lingmin, Zhang, Yonghai , Di Marco, Paolo, Wei, Jinjia, Enhanced Nucleate Pool Boiling by Coupling the Pinning Act and Cluster Bubble Nucleation of Micro-nano Composited Surfaces, International journal of Heat and Mass Transfer, 157, 2020, 119979.

²»ÏÞip×¢²áËÍ37Ôª½ð±Ò:[20]Yuan Li, Mingjia Zhang^*, Xiuli Hu, Xinhui Fan,Lingmin Yu* and Changshui Huang^*, Light and Heat Triggering Modulation of the Electronic Performance of a Graphdiyne-Based Thin Film Transistor, J. Phys. Chem. Lett. 2020, 11, 6, 1998¨C2005.

²»ÏÞip×¢²áËÍ37Ôª½ð±Ò:[21] Li, Yanni, Zhu, Lei, Yao, Tianhao, Liu, Ting, Qian, Ruifeng, Li, Fang, Han, Xiaogang, Yu, Lingmin^*, Wang, Hongkang*, Space-Confined Synthesis of Ultrasmall SnO₂ Nanodots within Ordered Mesoporous Carbon CMK-3 for High-Performance Lithium Ion Batteries, ENERGY & FUELS,  2020, 34, 6,7709-7715.

[22] Zhang, Bo, Liu, Yaoda , Liang, Tingting, Sakthivel, Thankavel , Yu, Lingmin^*, Dai, Zhengfei^*, Activating the Basal Plane of Defective SnS₂ Nanosheets for NH₃ Gas Sensing, ACS Applied Nano Materials, 2020,3, 5, 4642-4653

[23]Ma Shuai, Yu Lingmin^*, Cao Lei, Li Chun, Yin Mingli, Fan Xinhui, Resistive-type UV-visible photodetector based on CdS NWs/ZnO nanowalls heterostructure fabricated using in-situ synthesis method, Journal of Alloy and Compounds, 2020, 827, 25,  154090.

[24] Li Chun, Yu Lingmin^*, Yuan Xiong, Li Yuan et al., Ag nanorods assembled with ZnO nanowalls for near-linear high-response UV photodetectors, Journal of Alloy and Compounds, 2020, 830, 154652.

[25]Li, Chun ; Fan, Xinhui ; Yu, Lingmin; Cui, Le; Yin, Mingli; Li, Yuan; Nan, Ning ; Liu, Nan,A resistive-type UV detector based on ZnO nanowalls decoated by Ag nanowires, Optical materials, 2020, 103 , 109891.

[26] Lichun, Yu Lingmin*, Fan Xinhui, Yin Mingli, Nan Ning, Nucleation density and pore size tunable growth of ZnO nanowalls by a facile solution approach: growth mechanism and NO₂ gas sensing properties, RSC advance, 2020,10:3319

[27]HainingMa, LingminYu*, Room temperature photoelectric NO₂ gas sensor based on direct growth of walnut-like In₂O₃nanostructures, Journal of Alloys and Compounds, 782,  (2019) 1121-1126.

[28] Yuan Xiong, Yu Lingmin, Direct Synthesis of Upstanding Graphene/ZnONanowalls/Graphene Sandwich Heterojunction and Its Application for NO₂ Gas Sensor, Journal of Nanoscience and Nanotechnology 19, (2019)1¨C5.

[29] Yu Lingmin^*, Lichun,  Optoelectronic gas sensor sensitized by hierarchically structured ZnO nanorods/Ag nanofibers via on-chip fabrication, Material Letters 242 (2019) 71¨C74

[30] Zhu Yuanyuan, Yu Lingmin, et al.,High-performance gas sensors based on the WO₃-SnO₂ nanosphere composites, Journal of Alloys and Compounds, 782(2019)798-795

²»ÏÞip×¢²áËÍ37Ôª½ð±Ò:[31] LijunQi, LingminYu^*, An enhanced optoelectronic NO₂ gas sensors based on direct growth ZnOnanowalls in situ on porous rGO,  Journal of Alloys and Compounds, 749, (2018) 244-249.

[32]Zongyuan Liu, Lingmin Yu^?, Fen Guo, Sheng Liu, Lijun Qi, Minyu Shan, Xinhui Fan, Facial development of high performance room temperature NO₂ gas sensors based on ZnOnanowalls decorated rGO nanosheets, Applied Surface Science 423 (2017) 721¨C727

[33] Ling-min Yu^?, Fen Guo, Zong-yuan Liu, Sheng Liu, Bing Yang, Ming-Li Yin, Xin-hui Fan, Facile synthesis of three dimensional porous ZnO films with mesoporous walls and gas sensing properties,Materials Characterization 112 (2016) 224¨C228

[34] Lingmin Yu^*, Fen Guo, Sheng Liu, Bing Yang, Yanxing Jiang, Lijun Qi, Xinhui Fan£¬Both oxygen vacancies defects and porosity facilitated NO₂?gas sensing response in 2D ZnOnanowalls at room temperature£¬Journal of Alloys and Compounds, 682,  £¨2016£©  352-356

[35] LingminYu^* , Sheng Liu, Jiansong Wei, Man Lei, Xinhui Fan, Sn-Ga co-doped ZnO nanobelts fabricated by thermal evaporation and application to ethanol gas sensors, Materials Letters, Materials Letters 141(2015)79¨C82.£¨ESIÂÛÎÄ1.94%£©

[36] Yu Ling-min^*, Liu Sheng, Yang Bing, Huang Miao-miao, Kang Meng-di, Fan Xinhui, A highly sensitive ethanol gas sensor based on mesoporous SnO₂ fabricated from a facile double-surfactant template method, Materials Letters 158(2015)409-412

[37] Lingmin Yu^*, Jiansong Wei, Yuyang Luo, Yanlong Tao, Man Lei, XinhuiFan,Wen Yan, Peng Peng, Dependence of Al³⁺ on the growth mechanism of vertical standing ZnO nanowalls and their NO₂ gas sensing properties , Sensors and Actuators B 204 (2014) 96¨C101

[38] Yu Lingmin^* , Fan Xinhui , Lei Man, Wei Jiansong, Jin Yao hua, Yan Wen, Surface analysis of Ga-doped 3D urchin-like ZnO structure and density functional theory investigation of the quenching in photoluminescence property, Journal of Alloys and Compounds 604 (2014) 233¨C238

[39] LingminYu^* , Xinhui Fan, ManLei, JiansongWei, Yao-HuaJin, WenYan£¬Investigation of tailored planar defects arising from ZnO tetrapods doped with In₂O₃£¬Materials Letters121(2014)152¨C155

[40] Yu Lingmin^*, Fan Xinhui, Cao Lei, Qi Lijun, Yan Wen£¬Gas sensing enhancement of aluminum-doped ZnO nanovase structure with many gas facile diffusivity paths£¬Applied Surface Science 265 (2013) 108¨C 113

[41] Yu Ling-min^* , Fan  Xin-hui, Shui Jing-yi, Cao Lei, Yan Wen £¬Research on the growth of ZnOnanowall by soft-solution route£¬Materials Letters 2012 (68) 423¨C425.

[42] Yu Ling-min^* , Fan Xin-hui, Cao Lei,  Shui Jing-yi, Yan Wen£¬Shape-controlled cluster-growth of ZnO nanoflowers using Sol-Gel method£¬ Micro & Nano Letters

[43] Yu Ling min^*, Fan Xin hui, Qi Li jun, Ma Li he, Yan Wen, Dependence of morphologies for SnO₂ nanostructures on their sensing property, Applied Surface Science, 2011£¬257 (7): 3140¨C3144

[44] Yu Ling min^*, FanXinhui, Qi Lijun, Yan Wen, Field emission property of printed CNTs-mixed ZnO nanoneedles, Applied Surface Science 257 (2011) 6332¨C6335