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课题组代表性论文情况
作者:张冬至,等
关键字:Measurement Instrument, Gas Sensor, Micro-Nano Sensing, Micro-System
论文来源:期刊
发表时间:2023年

[212] Chen Yajing, Zhang Dongzhi, Tang Mingcong, Wang Zijian, Deep learning-assisted colorimetric/electrical dual-sensing system for ultra-fast detection of hydrogen sulfide, ACS Sensors, in press, 2024.

[211] Zhang Yubiao, Zhang Dongzhi*, Liu Xiaohua, Yao Yao, Tang Mingcong, Zhang Hao, Xi Guangshuai, Ultralow-hysteresis quartz crystal microbalance humidity sensor based on electrospinned cellulose acetate/konjac glucomannan network-like film, Sensors and Actuators B: Chemical, v 410, p 135643, 2024.

[210] Ji Xinyi, Zhang Dongzhi*, Zhou Lina, Xu Zhenyuan, Wu Yan, Yang Chao, Efficient self-powered cathodic corrosion protection system based on multi-layer grid synergistic triboelectric nanogenerator and power management circuits, Chemical Engineering Journal, v 485, p 149753, 2024.

[209] Tang Mingcong#, Liu Xiaohua#, Zhang Dongzhi*, Zhang Hao, Xi Guangshuai, Ultra-sensitive humidity QCM sensor based on sodium alginate/polyacrylonitrile composite film for contactless Morse code communication, Sensors and Actuators B: Chemical, v 407, p 135429, 2024.

[208] Tang Mingcong, Zhang Dongzhi*, Sun Yuehang, Chen Qingdong, Chen Yajing, Xi Guangshuai, Wang Zijian, Shao Xingyan, CVD-fabricated Co3O4-Co3S4 heterojunction for ultra-sensitive detection of CO in SF6 discharge decomposition products, Sensors and Actuators B: Chemical,  v 401, p 134968, 2024.

[207] Chen Qingdong, Zhang Yong, Tang Mingcong, Wang Zijian, Zhang Dongzhi*, A fast response hydrogen sensor based on the heterojunction of MXene and SnO2 nanosheets for lithium-ion battery failure detection, Sensors and Actuators B: Chemical, v 405, p 135229, 2024.

[206] Zhang Hao, Chen Xiaoya, Liu Yan, Yang Chunqing, Liu  Wenzhe, Qi Mingyu, Zhang Dongzhi*, PDMS film-based flexible pressure sensor array with surface protruding structure for human motion detection and wrist posture recognition, ACS Applied Materials & Interfaces, v 16, n 2, p 2554-2563, 2024.

[205] Bian Jingdu, Zhang Yong*, Tang Mingcong, Wang Zijian, Chen Qingdong, Zhang Dongzhi*, Ultra-sensitive acetone detection based on flower-like MOF-CuO/α-Fe2O3 heterojunctions, IEEE Sensors Journal, in press, 2024.

[204] Gong Likun, Wang Zhaozheng, Zhao Junqing, Tang Jiajun, Li Zheng, Meng Weiqi, Qiu Zhipeng, Qin Yuhan, Wang Xingwei*, Zhang Chi*, Zhang Dongzhi*, High-performance supercapacitor and ultra-sensitive humidity sensor based on bifunctional NiCo2O4/g-C3N4 nanocomposites powered by triboelectric nanogenerator, Chemical Engineering Journal, v 477, p 147087, 2023.

[203] Tang Mingcong, Zhang Dongzhi*, Sun Yuehang, Wang Zijian, Xi Guangshuai, Chen Qingdong, Mao Ruiyuan, Zhang Hao, Chemiresistive detection of SO2 in SF6 decomposition products based on ZnO nanorod/MoS2 nanoflower heterojunctions: experimental and first-principles investigations, Sensors and Actuators B: Chemical, v 403, p 135170, 2023.

[202] Zhang Dongzhi*, Xu Zhenyuan, Wang Zihu, Cai Haolin, Wang Jun, Li Kangshuai, Machine-learning-assisted wearable PVA/acrylic fluorescent layer-based triboelectric sensor for motion, gait and individual recognition, Chemical Engineering Journal, v 478, p 147075, 2023.

[201] Qiu Changkun, Zhang Hao, Li Qingrun, Guo Yongxian, Song Yifan, An Fei, Zhu Liang*, Xiao Anshan, Lv Chunxiao*, Zhang Dongzhi*, PANI/CoMoO4 nanocomposite heterostructures for detection of NH3 at room temperatureACS Applied Nano Materials, v 7, n 1, p 857-865, 2023.

[200] Yang Chunqing, Wang Weiwei*, Zhang Dongzhi, Du Chen, Zhang Hao, Xia Hui, High-sensitivity wearable flexible pressure sensor based on MXene and polyaniline for human motion detection, ACS Applied Polymer Materials, v 5, n 12, p 10386-10394, 2023.

[199] Xi Guangshuai, Zhang Dongzhi*, Tang Mingcong, Zhang Hao, Sun Yuehang, Zhang Yubiao, Cai Haolin, Xia Hui, Zhou Dandi, Fast-response, high-sensitivity multi-modal tactile sensors based on PPy/Ti3C2Tx films for multifunctional applications, Nano Research, v 17, n 5, p 4410-4419, 2023.

[198] Zhang Hao, Zhang Dongzhi*, Luan Huixin, Wang Zihu, Zhang  Pengfei, Xi Guangshuai, Ji Xinyi, Multifunctional, self-adhesive MXene-based hydrogel flexible strain sensors for hand-written digits recognition with assistance of deep learning, Langmuir, v 39, n 45, p 16199-16207, 2023.

[197] Wang Jianghao, Zhang Dongzhi*, Gao Yonghai, Chen Fengjiao, Wang Tian, Xia Hao, Sui Xiaoxiao, Wang Zihu, Fast-response hydrogen sulfide gas sensor based on electrospinning Co3O4 nanofibers-modified CuO nanoflowers: experimental and DFT calculation, Sensors and Actuators B: Chemical,  v 396, p 134579, 2023.

[196] Xia Hui, Wang Lin, Zhang Hao,  Wang Zihu, Zhu Liang, Cai Haolin, Ma Yanhua, Yang Zhe, Zhang Dongzhi*, MXene/PPy@PDMS sponge-based flexible pressure sensor for human posture recognition with the assistance of convolutional neural network in deep-learningMicrosystems & Nanoengineering, v 9, p 155, 2023.

[195] Cai Haolin, Zhang Dongzhi*, Zhang Hao, Tang Mingcong, Xu Zhenyuan, Xia Hui, Li Kangshuai, Wang Jun, Trehalose-enhanced ionic conductive hydrogels with extreme stretchability, self-adhesive and anti-freezing abilities for both flexible strain sensor and all-solid-state supercapacitor, Chemical Engineering Journal, v 472, p 144849, 2023.

[194] Sui Xiaoxiao, Zhang Dongzhi*, Wang Jianghao, Tang Mingcong, Xia Hao, Wang Zihu, Ppb-level detection of trimethylamine as biomarker in exhaled gas based on MoO3/V2O5 hierarchical heterostructure, Journal of Alloys and Compounds, v 968, p 172104, 2023.

[193] Xia Hao, Zhang Dongzhi*, Sun Yuehang, Wang Jianghao, Tang Mingcong, Ultrasensitive H2S gas sensor based on SnO2 nanoparticles modified WO3 nanocubes heterojunction, IEEE Sensors Journal, v 23, n 22, p 27031-27037, 2023.

[192] Zhang Yong, Chen Fengjiao, Wang Dongyue, Wang Tian, Zhang Dongzhi*, Vanadium dioxide/molybdenum telluride heterojunction gas sensor for methane detection, Journal of Alloys and Compounds, v 969, p 172023, 2023.

[191] Wang Jun, Zhang Dongzhi*, Wang Dongyue, Xu  Zhenyuan, Zhang Hao, Chen Xiaoya, Wang Zihu, Xia Hui, Cai  Haolin, Efficient fabrication of TPU/MXene/tungsten disulfide fibers with ultra-fast response for human respiratory pattern recognition and disease diagnosis via deep learningACS Applied Materials & Interfaces, v 15, n 31, p 37946-37956, 2023.

[190] Li Kangshuai, Zhang Dongzhi*, Zhang Hao, Wang  Dongyue, Xu Zhenyuan, Cai Haolin, Xia Hui, Triboelectric nanogenerators based on super-stretchable conductive hydrogels with assistance of deep-learning for handwriting recognitionACS Applied Materials & Interfaces, v 15, n 27, p 32993-33002, 2023.

[189] Wang Zijian, Zhang Dongzhi*, Tang Mingcong, Chen Qingdong, Zhang Hao, Shao Xingyan, Construction of ultra-fast hydrogen sensor for dissolved gas detection in oil-immersed transformers based on titanium dioxide quantum dots modified tin dioxide nanosheets, Sensors and Actuators B: Chemical,  v 393, p 134141, 2023. 

[188] Qin Zhangjie, Wu Zhaofeng, Sun Qihua, Sun Jun, Zhang Min, Chen Fengjuan, Zhang Dongzhi, Lv Changwu, Duan Haiming, Dog nose-inspired high-performance ammonia sensor based on biochar/SnO2 composite, Carbon, v 213, p 118297, 2023.

[187] Xu Zhenyuan, Zhang Dongzhi*, Li Zheng, Du Chen, Yang Yan, Zhang Bao, Zhao Wenhao, Waterproof flexible pressure sensors based on electrostatic self-assembled MXene/NH2-CNTs for motion monitoring and electronic skin, ACS Applied Materials & Interfaces, v 15, n 27, p 32569-32579, 2023.

[186] Zhou Dandi, Kang Zhanjia, Liu Xiaohua, Yan Weiyu, Cai Haolin, Xu Jiaqiang*, Zhang Dongzhi*, High sensitivity ammonia QCM sensor based on ZnO nanoflower assisted cellulose acetate-polyaniline composite nanofibers, Sensors and Actuators B: Chemical,  v 392, p 134072, 2023.

[185] Ma Yanhua, Zhang Dongzhi*, Wang Zihu, Zhang Hao, Xia  Hui, Mao Ruiyuan, Cai Haolin, Luan Huixin, Self-adhesive, anti-freezing MXene-based hydrogel strain sensor for motion monitoring and handwriting recognition with deep-learning, ACS Applied Materials & Interfaces, v 15, n 24, p 29413-29424, 2023.

[184] Tang Mingcong, Zhang Dongzhi*, Chen Qingdong, Wang Zijian, Wang Dongyue, Yang Zhe, Xu Wei, Wang Lin, Zhu Liang, An Fei, Heterostructure construction of SnS2 Debye nanowires modified with ZnO nanorods for chemiresistive H2S detection in sulfur hexafluoride decomposition products, Sensors and Actuators B: Chemical, v 390, p 133952, 2023. (ESI高被引论文)

[183] Zhai Xinwang, Wu Zhaofeng*, Sun Qihua*, Tursun Rabigul, Zhang Min, Duan Haiming, Zhang Dongzhi*, Fe2O3 nanorod/bacterial cellulose carbon nanofiber composites for enhanced acetone sensing, ACS Applied Nano Materials,  v 6, n 13, p 12168-12176, 2023.

[182]  Mao Ruiyuan, Zhang Dongzhi*, Wang Zihu, Zhang Hao, Wang Dongyue, Tang Mingcong, Zhou Lina, Cai Haolin, Xia Hui, Deep-learning-assisted low-cost flexible cotton yarn-based triboelectric nanogenerator for ultra-sensitive human-computer merging interfaces, Nano Energy, v 111, p 108418, 2023.

[181]  Tang Mingcong, Wang Zijian, Wang Dongyue, Mao Ruiyuan, Zhang Hao, Xu Wei, Yang Zhe*, Zhang Dongzhi*, Construction of LaF3 QD-modified SnS2 nanorod composites for ultrasensitive detection of H2S, Journal of Materials Chemistry A, v 11, p 9942-9954, 2023. (ESI高被引论文)

[180] Wang Xingwei, Gong Likun, Li Zheng, Yin Yingda, Zhang Dongzhi*, A room temperature ammonia gas sensor based on cerium oxide/MXene and self-powered by freestanding-mode triboelectric nanogenerator and its multifunctional monitoring application, Journal of Materials Chemistry A, v 11, p 7690-7701, 2023.

[179] Zhang Hao, Zhang Dongzhi*, Wang Zihu, Xi Guangshuai, Mao Ruiyuan, Ma Yanhua, Wang Dongyue, Tang Mingcong, Xu Zhenyuan, Luan Huixin, Ultrastretchable, self-healing conductive hydrogel-based triboelectric nanogenerators for human-computer interactionACS Applied Materials & Interfaces, v 15, n 4, p 5128-5138, 2023. (ESI高被引论文)

[178] Zhang Dongzhi*, Pan Wenjing, Tang Mingcong, Wang Dongyue, Yu Sujing, Mi Qian, Pan Qiannan, Hu Yaqing, Diversiform gas sensors based on two-dimensional nanomaterials, Nano Research, v 16, n 10, p 11959-11991,  2023.

[177] Chen Xiaoya, Zhang Dongzhi*, Yang Chunqing, Luan Huixin, Yan Weiyu, Liu Wenzhe, Flexible pressure sensors based on molybdenum  disulfide/hydroxyethyl cellulose/polyurethane sponge for motion detection and speech recognition using machine learning, ACS Applied Materials & Interfaces, v 15, n 1, p 2043-2053, 2023.

[176] Yang Chunqing, Zhang Dongzhi*, Wang Dongyue, Luan Huixin, Chen Xiaoya, Yan Weiyu, In situ polymerized MXene/polypyrrole/hydroxyethylcellulose-based flexible strain sensor enabled by machine learning for handwriting recognition, ACS Applied Materials & Interfaces, v 15, n 4, p 5811-5821, 2023. (ESI高被引论文)

[175] Zhang Dongzhi*, Wang Mengyu, Tang Mingcong, Song Xiaoshuang, Zhang Xixi, Kang Zhanjia, Liu Xiaohua, Zhang Jianhua, Xue Qingzhong*, Recent progress of diversiform humidity sensors based on versatile nanomaterials and their prospective applications, Nano Research, v 16, n 10, p 11938-11958, 2023.

[174] Liu Xichen, Wang Jianghao, Zhang Yating, Zhang Dongzhi*, Hydrogen sulfide gas sensing characteristics based on copper oxide/molybdenum dislenide heterojunction, Journal of Alloys and Compounds, v 963, p 171197, 2023.

[173] Tang Mingcong, Zhao Peipei, Wang Lin, Zhu Liang, Wu Zhaofeng*, Zhang Dongzhi*, Density functional theory study of adsorption of dissolved gas in transformer oil on a metal (Ag, Pd, Pt)-doped NbSe2 monolayer, ACS Applied Nano Materials, v 6, n 7, p 5517-5526, 2023.

[172] Zhang Dongzhi*, Mao Ruiyuan, Song Xiaoshuang, Wang Dongyue, Zhang Hao, Xia Hui, Ma Yanhua, Gao Yonghai*, Humidity sensing properties and respiratory behavior detection based on chitosan-halloysite nanotubes film coated QCM sensor combined with support vector machine, Sensors and Actuators B: Chemical, v 374, p 132824, 2023.

[171] Li Zheng, Zhang Dongzhi*, Wang Xingwei, Yang Yan, Du Chen, Guo Jingyu, Zhang Yating, Passive and wireless NFC tag-type trimethylamine gas detection based on WO3/MXene composite sensors, Journal of Alloys and Compounds, v 939, p 168730, 2023.

[170] Lu Yang, Wang Mengyu, Wang Dongyue, Sun Yuehang, Liu Zihao, Gao Rongke, Yu Liandong*, Zhang Dongzhi*, Flexible impedance sensor based on Ti3C2Tx MXene and graphitic carbon nitride nanohybrid for humidity-sensing application with ultrahigh response, Rare Metals, v 23, n 7, p 2204-2213, 2023.

[169] Lu Yang, Zhan Changbiao, Yu Liandong*, Yu Yiyue, Jia Huakun, Chen Xiaozhe, Zhang Dongzhi, Gao Rongke*, Multifunctional nanocone array as solid immunoassay plate and SERS substrate for the early diagnosis of prostate cancer on microfluidic chip, Sensors and Actuators B: Chemical, v 376, p 133046, 2023.

[168] Liu Yiyuan, Gao Rongke, Zhuo Ying, Wang Yeru, Jia Huakun, Chen Xiaozhe, Lu Yang, Zhang Dongzhi, Yu Liandong, Rapid simultaneous SERS detection of dual myocardial biomarkers on single-track finger-pump microfluidic chip, Analytica Chimica Acta, v 1239, p 340673, 2023.

[167] Wang Lin, An Fei, Liu Xinmei*, Zhang Dongzhi, Yang Zhe*, Preparation and hydrogen-sensitive property of WO3/graphene/Pd ternary composite, Chemosensors, v 11, p 410, 2023.

[166] Wang Dongyue, Zhang Dongzhi*, Chen Xiaoya, Zhang Hao, Tang Mingcong, Wang Jianghao, Multifunctional respiration-driven triboelectric nanogenerator for self-powered detection of formaldehyde in exhaled gas and respiratory behavior, Nano Energy, v 102, p 107711, 2022. (ESI高被引论文)

[165] Xu Zhenyuan, Zhang Dongzhi*, Cai Haolin, Yang Yan, Zhang Hao, Du Chen, Performance enhancement of triboelectric nanogenerators using contact-separation mode in conjunction with the sliding mode and multifunctional application for motion monitoring, Nano Energy, v 102, p 107719, 2022.

[164] Wang Dongyue, Zhang Dongzhi*, Tang Mingcong, Zhang Hao, Sun Tianheng, Yang Chunqing, Mao Ruiyuan, Li Kangshuai, Wang Jianghao, Ethylene chlorotrifluoroethylene/hydrogel-based liquid-solid triboelectric nanogenerator driven self-powered MXene-based sensor system for marine environmental monitoring, Nano Energy, v 100, p 107509, 2022. (ESI高被引论文、热点论文)

[163] Wang Dongyue, Zhang Dongzhi*, Tang Mingcong, Zhang Hao, Chen Fengjiao, Wang Tian, Li Zheng, Zhao Peipei, Rotating triboelectric-electromagnetic nanogenerator driven by tires for self-powered MXene-based flexible  wearable electronicsChemical Engineering Journal, v 446, p 136914, 2022. (ESI高被引论文)

[162] Gao Rongke, Mao Yuanshuo, Ma Chao, Wang Yeru, Jia Huakun, Chen Xiaozhe, Lu Yang, Zhang Dongzhi, Yu Liandong, SERS-based immunoassay of myocardial infarction biomarkers on a microfluidic chip with plasmonic nanostripe microcones, ACS Applied Materials & Interfaces, v 14, n 50, p 55414-55422, 2022.

[161] Xu Zhenyuan, Zhang Dongzhi*, Liu Xiaohua, Yang Yan, Wang Xingwei, Xue Qingzhong*, Self-powered multifunctional monitoring and analysis system based on dual-triboelectric nanogenerator and chitosan/activated carbon film humidity sensor, Nano Energy, v 94, p 106881, 2022. (ESI高被引论文)

[160] Zhang Dongzhi*, Yu Sujing, Wang Xingwei, Huang Jiankun, Pan Wenjing, Zhang Jianhua, Zeng Jingbin*, UV illumination-enhanced ultrasensitive ammonia gas sensor based on (001)TiO2/MXene heterostructure for food spoilage detection, Journal of Hazardous Materials, v 423, p 127160, 2022. (ESI高被引论文、热点论文)

[159] Zhang Hao, Zhang Dongzhi*, Zhang Bao, Wang Dongyue, Tang Mingcong, Wearable pressure sensor array with layer-by-layer assembled MXene nanosheets/Ag nanoflowers for motion monitoring and human-machine interfaces, ACS Applied Materials & Interfaces, v 14, n 43, p 48907-48916, 2022.

[158] Zhang Dongzhi*, Luo Yuwei, Huang Zhaodi, Tang Mingcong, Sun Jianpeng, Wang Xiaokang, Wang Xia, Wang Yutong, Wu Wenting, Dai Fangna*, Ultrathin coordination polymer nanosheets modified with carbon quantum dots for ultrasensitive ammonia sensors, Journal of Colloid and Interface Science, v 630, p 776-785, 2023.

[157] Xie Jingyi, Zhang Xinyu, Yu Ning, Luan Renni, Zhang Dongzhi, Zeng Jingbin, Chai Yongming, Dong Bin, Accelerating Fe sites saturation coverage through bi-metal dynamic balances on double-layer hollow MOF nanocages for oxygen evolution, Materials Today Physics, v 27, p 100778, 2022.

[156] Dai Fangna, Cui Xiaoya, Luo Yuwei, Zhang Dongzhi, Li Nanjun, Huang Ying, Peng Yongwu, Ultrathin MOF nanosheet-based resistive sensors for highly sensitive detection of methanol, Chemical Communications, v 58, p 11543-11546, 2022.

[155] Zhang Fangdou, Liu Kaiwen, Li Honglin, Cui Shuhua, Zhang Dongzhi, Zeng Jingbin, Yan Zifeng, MoO3 nanorods decorated by PbMoO4 nanoparticles for enhanced trimethylamine sensing performances at low working temperature, ACS Applied Materials & Interfaces, v 14, n 21, p 24610-24619, 2022.

[154] Yan Weiyu, Zhang Dongzhi*, Liu Xiaohua, Chen Xiaoya, Yang Chunqing, Kang Zhanjia, Guar gum/ethyl cellulose-polyvinyl pyrrolidone composites based QCM humidity sensor for human respiration monitoring, ACS Applied Materials & Interfaces, v 14, n 27, p 31343-31353, 2022.

[153] Wang Dongyue, Zhang Dongzhi*, Pan Qiannan, Wang Tian, Chen Fengjiao, Gas sensing performance of carbon monoxide sensor based on rod-shaped tin diselenide/MOFs derived zinc oxide polyhedron at room temperature, Sensors and Actuators B: Chemical, v 371, p 132481, 2022. (ESI高被引论文)

[152] Gao Rongke, Chen Feng, Yang Dongdong, Zheng Lihua, Jing Tongmei, Jia Huakun, Chen Xiaozhe, Lu Yang, Xu Shenghao, Zhang Dongzhi, Yu Liandong, Simultaneous sers-based immunoassay of dual cardiac markers on pump-free hybrid microfluidic chip, Sensors and Actuators B: Chemical, v 369, p 132378, 2022.

[151] Zhao Peipei (#), Tang Mingcong (#), Zhang Dongzhi*, Adsorption of dissolved gas molecules in the transformer oil on metal (Ag, Rh, Sb)-doped PdSe2 momlayer: A first-principles study, Applied Surface Science, v 600, p 154054, 2022.

[150] Zhang Hao, Zhang Dongzhi*, Guan Jingrun, Wang Dongyue, Tang Mingcong, Ma Yanhua, Xia Hui, A flexible wearable strain sensor for human motion detection and human-machine interfaces, Journal of Materials Chemistry C, v 10, p 15554, 2022.

[149] Xia Hui, Zhang Dongzhi*, Wang Dongyue, Tang Mingcong, Zhang Hao, Chen Xiaoya, Mao Ruiyuan, Ma Yanhua, Cai Haolin, High sensitivity, wide range pressure sensor based on layer-by-layer self-assembled MXene/carbon black@polyurethane sponge for human motion monitoring and intelligent vehicle control, IEEE Sensors Journal, v 22, n 22, p 21561-21568, 2022.

[148] Sun Tianheng, Cheng Xin, Zhang Dongzhi*, An electrochemical non-enzymatic microsensor modified by CuCo2O4 nanoparticles for glucose sensing, IEEE Sensors Journal, v 22, n 22, p 21462-21469, 2022.

[147] Chen Fengjiao, Zhang Yong*, Wang Dongyue, Wang Tian, Zhang Jianhua, Zhang Dongzhi*, High performance ammonia gas sensor based on electrospinned Co3O4 nanofibers decorated with hydrothermally synthesized MoTe2 nanoparticles, Journal of Alloys and Compounds, v 923, p 166355, 2022.

[146] Wang Weiwei, Wang Dongyue, Zhang Xixi, Yang Chunqing, Zhang Dongzhi*, Self-powered nitrogen dioxide sensor based on Pd-decorated ZnO/MoSe2 nanocomposite driven by triboelectric nanogenerator, Nanomaterials, v 12, n 23, p 4274, 2022.

[145] Tang Mingcong, Zhang Dongzhi*, Wang Dongyue, Deng Jin, Kong Detong, Zhang Hao, Performance prediction of 2D vertically stacked MoS2-WS2 heterostructures base on first-principles theory and pearson correlation coefficient, Applied Surface Science, v 596, p 153498, 2022. (ESI高被引论文)

[144] Wang Tian, Liu Guangfu*, Zhang Dongzhi*, Wang Dongyue, Chen Fengjiao, Guo Jingyu, Fabrication and properties of room temperature ammonia gas sensor based on SnO2 modified WSe2 nanosheets heterojunctions, Applied Surface Science, v 597, 153564, 2022.

[143] Zhang Dongzhi*, Kang Zhanjia, Liu Xiaohua, Guo Jingyu, Yang Yan, Highly sensitive ammonia sensor based on PSS doped ZIF-8-derived porous carbon/polyaniline hybrid film coated on quartz crystal microbalance, Sensors and Actuators B: Chemical, v 357, p 131419, 2022.

[142] Li Tingting, Zhang Dongzhi*, Pan Qiannan, Tang Mingcong, Yu Sujing, UV enhanced NO2 gas sensing at room temperature based on coral-like tin diselenide/MOFs-derived nanoflower-like tin dioxide heteronanostructures, Sensors and Actuators B: Chemical, v 355, p 131049, 2022.

[141] Hu Yaqing, Li Tingting, Zhang Jianhua, Guo Jingyu, Wang Weiwei*, Zhang Dongzhi*, High-sensitive NO2 sensor based on p-NiCo2O4/n-WO3 heterojunctions, Sensors and Actuators B: Chemical, v 352, p 130912, 2022.

[140] Wang Dongyue, Zhang Dongzhi*, Mi Qian, A high-performance room temperature benzene gas sensor based on CoTiO3 covered TiO2 nanospheres decorated with Pd nanoparticles, Sensors and Actuators B: Chemical, v 350, p 130830, 2022.  (ESI高被引论文)

[139] Zhang Dongzhi*, Wang Dongyue, Pan Wenjing, Construction and DFT study of Pd decorated WSe2 nanosheets for highly sensitive CO detection at room temperature, Sensors and Actuators B: Chemical, v 360, p 131634, 2022.

[138] Chen Xiaoya, Zhang Dongzhi*, Tang Mingcong, Yang Chunqing, Luan Huixin, Microstructured flexible pressure sensor based on nanofibrous films for human motions and physiological detection, IEEE Sensors Journal, v 22, n 20, p 19191-19197, 2022.

[137] Zhang Hao, Pan Qiannan, Zhang Yating, Zhang Yanting, Zhang Dongzhi*, High-performance sulfur dioxide gas sensor based on graphite-phase carbon nitride functionalized tin diselenide nanorods compositeChemosensors, v 10, n 10, p 401, 2022.

[136] Yang Yan, Yu Sujing, Guo Jingyu, Zhang Dongzhi*, UV-enhanced highly sensitive ammonia sensing properties based on 2DPI/In2O3 heterostructure at room temperature, Journal of Alloys and Compounds, v 920, p 165878, 2022.

[135] Wang Dongyue, Mi Qian, Zhang Hao, Li Guolin, Zhang Dongzhi*, Highly sensitive xylene gas sensor based on NiO-NiCo2O4 hierarchical spherical structure constructed with nanorods, IEEE Sensors Journal, v 22, p 10346-10352, 2022.

[134] Zhang Yating, Zhang Hao*, Zhang Jianhua, Guo Jingyu, Zhang Dongzhi*, Fast response and low detection limit of ammonia sensor based on WO3 nanoparticles-decorated BiFeO3 nanoplates, IEEE Sensors Journal, v 22, n 15, p 14736-14742, 2022.

[133] Luan Huixin, Zhang Dongzhi*, Xu Zhenyuan, Zhao Wenhao, Yang Chunqing, Chen Xiaoya, MXene-based composite double-network multifunctional hydrogels as highly sensitive strain sensors, Journal of Materials Chemistry C, v 10, p 7604-7613, 2022.

[132] Yang Chunqing, Zhang Dongzhi*, Wang Dongyue, Chen Xiaoya, Luan Huixin, Ultra-sensitive, stretchable, and bidirectional wearable strain sensor for human motion detection, Journal of Materials Chemistry C, v 10, p 7076-7086, 2022.

[131] Zhang Hao, Zhang Dong-zhi*, Wang Dong-yue, Xu Zhen-yuan, Yang Yan, Zhang Bao, Flexible single-electrode triboelectric nanogenerator with MWCNT/PDMS composite film for environmental energy harvesting and human motion monitoring, Rare Metals, v 41, n 9, p 3117-3128, 2022.

[130] Guo Jingyu, Zhang Dongzhi*, Li Tingting, Zhang Jianhua,Yu Liandong*, Green light-driven acetone gas sensor based on electrospinned CdS nanospheres/Co3O4 nanofibers hybrid for the detection of exhaled diabetes biomarker, Journal of Colloid and Interface Science, v 606, p 261-271, 2022.

[129] Liu Xichen, Zhang Jianhua, Zhang Hao, Chen Can, Zhang Dongzhi*, Enhanced sensing performance of electrospinned tin dioxide nanofibers decorated with cerium dioxide nanoparticles for the detection of liquefied petroleum gas, Chemosensors, v 10, n 12, p 497, 2022.

[128] Zhang Dongzhi*, Yang Yan, Xu Zhenyuan, Wang Dongyue, Du Chen, An eco-friendly gelatin based triboelectric nanogenerator for self-powered PANI nanorods/NiCo2O4 nanospheres ammonia gas sensor, Journal of Materials Chemistry A, v 10, p 10935-10949, 2022.

[127] Wang Dongyue, Zhang Dongzhi*, Yang Yan, Mi Qian, Zhang Jianhua, Yu Liandong*, Multifunctional latex/polytetrafluoroethylene-based triboelectric nanogenerator for self-powered organ-like MXene/metal organic frameworks-derived CuO nanohybrid ammonia sensor, ACS Nano, v 15, p 2911–2919, 2021. (ESI高被引论文、热点论文

[126] Wang Dongyue, Zhang Dongzhi*, Guo Jingyu, Hu Yaqing, Yang Yan, Sun Tianheng, Zhang Hao, Liu Xiaohua, Multifunctional poly(vinyl alcohol)/Ag nanofibers-based triboelectric nanogenerator for self-powered MXene/tungsten oxide nanohybrid NO2 gas sensor, Nano Energy, v 89, p 106410, 2021. (ESI高被引论文、热点论文)

[125] Zhao Wenhao, Zhang Dongzhi*, Yang Yan, Du Chen, Zhang Bao, Fast self-healing multifunctional polyvinyl alcohol nano-organic composite hydrogel as building blocks for highly sensitive strain/pressure sensors, Journal of Materials Chemistry A, v 9, n 38, 22082-22094, 2021.

[124] Wang Xingwei, Zhang Dongzhi*, Zhang Haobing, Gong Likun,Yang Yan, Zhao Wenhao, Yu Sujing, Yin Yingda, Sun Daofeng*, In situ polymerized polyaniline/MXene (V2C) as building blocks of supercapacitor and ammonia sensor self-powered by electromagnetic-triboelectric hybrid generator, Nano Energy, v 88, p 106242, 2021.  (ESI高被引论文)

[123] Yang Yan, Zhang Dongzhi*, Wang Dongyue, Xu Zhenyuan, Zhang Jianhua, High-stability weighing paper/polytetrafluoroethylene-based triboelectric nanogenerator for self-Powered In2O3 nanocubes/SnS2 nanoflowers NO2 gas sensorJournal of Materials Chemistry A, v 9, p 14495-14506, 2021.

[122] Liu Xiaohua, Zhang Dongzhi*, Wang Dongyue, Li Tingting, Song Xiaoshuang, Kang Zhanjia, A humidity sensing and respiratory monitoring system constructed from quartz crystal microbalance sensors based on a chitosan/polypyrrole composite film, Journal of Materials Chemistry A, v 9, p 14524-14533, 2021.

[121] Zhang Bao, Wang Weiwei*, Zhang Dongzhi*, Zhao Wenhao, Highly sensitive and stretchable strain sensor based on wrinkled chitosan-multiwall carbon nanotube nanocompositeJournal of Materials Chemistry C, v 9, n 41, p 14848-14857, 2021.

[120] Du Chen, Zhang Yong, Zhang Dongzhi*, Zhang Bao, Zhao Wenhao, An in situ polymerized polypyrrole/halloysite nanotubes-silver nanoflowers based flexible wearable pressure sensor with a large measurement range and high sensitivity, Journal of Materials Chemistry C, v 9, n 38, p 13172-13181, 2021.

[119] Kang Zhanjia, Zhang Dongzhi*, Li Tingting, Liu Xiaohua, Song Xiaosong, Polydopamine-modified SnO2 nanofiber composite coated QCM gas sensor for high-performance formaldehyde sensingSensors and Actuators B: Chemical, v 345, p 130299, 2021. (ESI热点论文)

[118] Pan Wenjing, Zhang Yong*, Yu Sujing, Liu Xiaohua, Zhang Dongzhi*, Hydrogen sulfide gas sensing properties of metal organic framework-derived α-Fe2O3 hollow nanospheres decorated with MoSe2 nanoflowers, Sensors and Actuators B: Chemical, v 344, p 130221, 2021.

[117] Zhang Dongzhi*, Pan Wenjing, Zhou Lanjuan, Yu Sujing, Room-temperature benzene sensing with Au-doped ZnO nanorods/WSe2 exfoliated nanosheets and DFT simulations, ACS Applied Materials & Interfaces, v 13, p 33392-33403, 2021.

[116] Zhou Lanjuan, Wang Mengyu, Liu Zihao, Guan Jingrun, Li Tingting*, Zhang Dongzhi*, High-performance humidity sensor based on graphitic carbon nitride/polyethylene oxide and construction of sensor array for non-contact humidity detection, Sensors and Actuators B: Chemical, v 344, p 130219, 2021.

[115] Zhang Dongzhi*, Mi Qian, Wang Dongyue, Li Tingting, MXene/Co3O4 composite based formaldehyde sensor driven by ZnO/MXene nanowire arrays piezoelectric nanogenerator, Sensors and Actuators B: Chemical, v 339, p 129923, 2021. (ESI高被引论文)

[114] Gong Likun, Wang Xingwei, Zhang Dongzhi*, Ma Xiaodong, Yu Sujing, Flexible wearable humidity sensor based on cerium oxide/graphitic carbon nitride nanocomposite self-powered by motion-driven alternator and its application for human physiological detection, Journal of Materials Chemistry A, v 9, p 5619-5629, 2021.

[113] Pan Qiannan, Li Tingting*, Zhang Dongzhi*, Ammonia gas sensing properties and density functional theory investigation of coral-like Au-SnSe2 Schottky junction, Sensors and Actuators B: Chemical, v 332, p 129440, 2021.

[112] Mi Qian, Zhang Dongzhi*, Zhang Xixi, Wang Dongyue, Highly sensitive ammonia gas sensor based on metal-organic frameworks-derived CoSe2@nitrogen-doped amorphous carbon decorated with multi-walled carbon nanotubes, Journal of Alloys and Compounds, v 860, p 158252, 2021.

[111] Wang Dongyue, Zhang Dongzhi*, Li Peng*, Yang Zhimin, Mi Qian, Yu Liandong*, Electrospinning of flexible poly(vinyl alcohol)/MXene nanofibers based humidity sensor self-powered by monolayer molybdenum diselenide piezoelectric nanogenerator, Nano-Micro Letters, v 13, p 57, 2021. (ESI高被引论文、热点论文)

[110] Li Peng*, Zhang Zekun, Shen Wangtian, Hu Chunguang, Shen Wanfu*, Zhang Dongzhi*, Self-powered 2D-material sensor unit driven by SnSe piezoelectric nanogenerator, Journal of Materials Chemistry A, v 9, p 4716-4723, 2021.

[109] Zhang Jianhua, Li Tingting, Guo Jingyu, Hu Yaqing, Zhang Dongzhi*, Two-step hydrothermal fabrication of CeO2-loaded MoS2 nanoflowers for ethanol gas sensing applicationApplied Surface Science, v 568, p 150942, 2021.

[108] Zhang Dongzhi*, Song Xiaoshuang, Wang Zhao, Ultra-highly sensitive humidity sensing by polydopamine/graphene oxide nanostructure on quartz crystal microbalance, Applied Surface Science, v 538, p 147816, 2021.

[107] Xu Zhenyuan, Pang Maosong, Zhao Wenhao, Zhang Dongzhi*, Hydrogen sulfide gas sensor based on graphitic nitrogen carbide/alpha-iron oxide binary nanostructure, IEEE Sensors Journal, v 21, n 4, p 4250-4256, 2021.

[106] Zhang Dongzhi*, Wang Dongyue, Xu Zhenyuan, Zhang Xixi, Yang Yan, Guo Jingyu, Zhang Bao, Zhao Wenhao, Diversiform sensors and sensing systems driven by triboelectric and piezoelelctric nanogenerators, Coordination Chemistry Reviews, v 427, p 213597, 2021. (ESI高被引论文)

[105] Chen Haonan, Zhang Dongzhi*, Pan Qiannan, Song Xiaosong, Highly sensitive humidity sensor based on MOFs-derived SnO2/chitosan hybrid film coated on quartz crystal microbalance, IEEE Sensors Journal, v 21, n 4, p 4385-4390, 2021.

[104] Pan Qiannan, Yang Zhimin, Wang Weiwei, Zhang Dongzhi*, Sulfur dioxide gas sensing at room temperature based on tin selenium/tin dioxide hybrid prepared via hydrothermal and surface oxidation treatment, Rare Metals, v 40, n 6, p 1588-1596, 2021.

[103]Chen Shuai, Zhang Dongzhi*, Yang Yan, Song Xiaoshuang, An electrochemical nonenzymatic microsensor modified by nickel cobaltate nanospheres for glucose sensing in urine, IEEE Sensors Journal, v 21, n 12, p 13074-13081, 2021.

[102]Yu Sujing, Zhang Dongzhi*, Li Qi, Room temperature acetone-sensing properties of Ru-doped MoSe2 nanoflowers: experimental and density functional theory studies, IEEE Electron Device Letters, v 42, n 5, p 739-742, 2021.

[101]Zhao Peipei (#), Li Tingting (#), Zhang Dongzhi*, Adsorption of dissolved gas molecules in the transformer oil on silver-modified (002) planes of molybdenum diselenide monolayer: A DFT study, Journal of Physics : Condensed Matter, v 33, n 48, p 485201, 2021.

[100] Zhang Wenyuan, Chen Guo, Wang Haopeng, Chen Pengkun, Zhang Bin*, Zhang Dongzhi*, High performance ammonia gas sensor based on bimetallic oxide Zn2SnO4 decorated with reduced graphene oxide, Journal of Materials Science: Materials in Electronics, v 32, n 15, p 20139-20148, 2021.

[99] Guan Jingrun, Zhang Dongzhi*, Li Tingting, Flexible pressure sensor based on molybdenum diselide/multi-walled carbon nanotubes for human motion detection, IEEE Sensors Journal, v 21, n 9, p 10491-10497, 2021.

[98] Yu Sujing, Zhang Dongzhi*, Pan Wenjing, Zeng Jingbin*, Adsorption of atmospheric gas molecules (NH3, H2S, CO, H2, CH4, NO, NO2, C6H6 and C3H6O) on two-dimensional polyimide with hydrogen bonding: a first-principles study, New Journal of Chemistry, v 45, n 11, p 5240-5251, 2021.

[97] Zhou Lanjuan, Mi Qian, Jin Yingbo, Li Tingting*, Zhang Dongzhi*, Construction of MoO3/MoSe2 nanocomposite-based gas sensor for low detection limit trimethylamine sensing at room temperature, Journal of Materials Science: Materials in Electronics, v 32, p 17301-17310, 2021.

[96] Zhang Xixi, Wang Weiwei*, Zhang Dongzhi*, Mi Qian, Yu Sujing, Self-powered ethanol gas sensor based on the piezoelectric Ag/ZnO nanowire arrays at room temperature, Journal of Materials Science: Materials in Electronics, v 32, n 6, p 7739-7750, 2021.

[95] Zhou Lanjuan, Yu Sujing, Li Qi, Li Tingting*, Zhang Dongzhi*, Adsorption of the gas molecules (NH3, C2H6O, C3H6O, CO, H2S) on noble metal (Ag, Au, Pt, Pd, Ru)–doped MoSe2 monolayer: a first-principles study, New Journal of Chemistry, v 45, p 12367-12376, 2021.

[94] Li Ying, Lu Yu-Ling, Wu Kai-Di, Zhang Dong-Zhi, Debliquy Marc, Zhang Chao*, Microwave-assisted hydrothermal synthesis of copper oxide based gas-sensitive nanostructures, Rare Metals, v 40, n 6, p 1477-1493, 2021.

[93] Yu Sujing, Zhang Dongzhi*, Zhang Yu, Pan Wenjing, Meteku Nenjamin Edem, Zhang Fangdou, Zeng Jingbin*, Green light-driven enhanced ammonia sensing at room temperature based on seed-mediated growth of gold-ferrosoferric oxide dumbbell-like heteronanostructures, Nanoscale, v 12, p 18815-18825, 2020.

[92] Wang Xingwei, Gong Likun, Zhang Dongzhi*, Fan Xiaoxi, Jin Yingbo, Guo Liang*, Room temperature ammonia gas sensor based on polyaniline/copper ferrite binary nanocomposites, Sensors and Actuators B: Chemical, v 304, p 128615, 2020.

[91] Luo Yuwei, Zhang Dongzhi*, Fan Xin, Hydrothermal fabrication of Ag-decorated MoSe2/reduced graphene oxide ternary hybrid for H2S gas sensing, IEEE Sensors Journal, v 20, n 22, p 13262-13268, 2020.

[90] Zhang Dongzhi*, Xu Zhenyuan, Yang Zhimin, Song Xiaoshuang. High-performance flexible self-powered tin disulfide nanoflowers/reduced graphene oxide nanohybrid-based humidity sensor driven by triboelectric nanogenerator, Nano Energy, v 67, p. 104251, 2020. (ESI高被引论文)

[89] Zhang Dongzhi*, Yang Zhimin, Yu Sujing, Mi Qian, Pan Qiannan. Diversiform metal oxide-based hybrid nanostructures for gas sensing with versatile prospects, Coordination Chemistry Reviews, v 413, p 213272, 2020. (ESI高被引论文)

[88] Zhang Dongzhi*, Cao Yuhua, Yang Zhimin, Wu Junfeng. Nanoheterostructure construction and DFT study of Ni-doped In2O3 nanocubes/WS2 hexagon nanosheets for formaldehyde sensing at room temperature, ACS Applied Materials & Interfaces, v 12, p 11979-11989, 2020.

[87] Zhang Dongzhi*, Wang Mengyu, Zhang Wenyuan, Li Qi, Flexible humidity sensing and portable applications based on MoSe2 nanoflowers/copper tungstate nanoparticles, Sensors and Actuators B: Chemical, v 304, p 127234, 2020.

[86] Pan Wenjing, Zhang Yong, Zhang Dongzhi*, Self-assembly fabrication of titanium dioxide nanospheres-decorated tungsten diselenide hexagonal nanosheets for ethanol gas sensing application, Applied Surface Science, v 527, p 146781, 2020.

[85] Yang Zhimin, Zhang Dongzhi*, Wang Dongyue. Carbon monoxide gas sensing properties of metal-organic frameworks-derived tin dioxide nanoparticles/molybdenum diselenide nanoflowers, Sensors and Actuators B: Chemical, v 304, p 127369, 2020.  (ESI高被引论文)

[84] Zhang Wenyuan, Zhang Dongzhi*, Zhang Yong*. High-performance NO2 gas sensor based on bimetallic oxide CuWO4 decorated with reduced graphene oxide, Journal of Materials Science: Materials in Electronics, v 39, p 6706-6715, 2020.

[83] Zhang Dongzhi*, Jin Yingbo, Chen Haonan, Luo Yuwei, Zhang Yong, Carbon microsphere-templated synthesis of ZnCo2O4 hollow spheres functionalized with Ag nanoparticles for sub-ppm-level acetone gas detection, Ceramics International, v 46, p 15176-15182, 2020.

[82] Meng Weiqi, Wu Shangyuan, Wang Xingwei, Zhang Dongzhi*, High-sensitivity resistive humidity sensor based on graphitic carbon nitride nanosheets and its application, Sensors and Actuators B: Chemical, v 315, p 128058, 2020.

[81] Sun Shibin, Wang Mingwei, Chang Xueting*, Jiang Yingchang, Zhang Dongzhi*, Wang Dongsheng, Zhang Yuliang, Lei Yanhua, W18O49/Ti3C2Tx Mxene nanocomposites for highly sensitive acetone gas sensor with low detection limit, Sensors and Actuators B: Chemical, v 304, p 127274, 2020. (ESI高被引论文)

[80] Zhang Dongzhi*, Cao Yuhua, Wu Junfeng, Zhang Xiaoxing*. Tungsten trioxide nanoparticles decorated tungsten disulfide nanoheterojunction for highly sensitive ethanol gas sensing application, Applied Surface Science, v 503, p 144063, 2020.

[79] Wang Dongyue, Chi Minghe*, Zhang Dongzhi*, Wu Di. Ammonia sensing properties of metal organic frameworks-derived zinc oxide/reduced graphene oxide nanocomposite, Journal of Materials Science: Materials in Electronics, v 31, n 6, p 4463-4472, 2020.

[78] Zhang Dongzhi*, Yang Zhimin, Li Peng, Pang Maosong, Xue Qingzhong*. Flexible self-powered high-performance ammonia sensor based on Au-decorated MoSe2 nanoflowers driven by single layer MoS2-flake piezoelectric nanogenerator, Nano Energy, v. 65, p. 103974, 2019. (ESI高被引论文)

[77] Yang Zhimin, Zhang Dongzhi*, Chen Haonan, MOF-derived indium oxide hollow microtubes/MoS2 nanoparticles for NO2 gas sensing, Sensors and Actuators B: Chemical, v 300, p 127037, 2019.

[76] Zhang Dongzhi*, Wu Junfeng, Li Peng, Cao Yuhua, Yang Zhimin. Hierarchical nanoheterostructure of tungsten disulfide nanoflowers doped with zinc oxide hollow spheres: Benzene gas sensing properties and first-principles study, ACS Applied Materials & Interfaces, v 11, n 34, p 31245-31256, 2019.

[75] Zhang Dongzhi*, Yang Zhimin, Chen Haonan, Ozone gas sensing properties of metal-organic frameworks-derived In2O3 hollow microtubes decorated with ZnO nanoparticles, Sensors and Actuators B: Chemical, v 301, p 127081, 2019.

[74] Li Bolun, Tian Qi, Su Hongxin, Wang Xingwei, Wang Tianen, Zhang Dongzhi*. High sensitivity portable capacitive humidity sensor based on In2O3 nanocubes-decorated GO nanosheets and its wearable application in respiration detection, Sensors and Actuators B: Chemical, v 299, p 126973, 2019.

[73] Zhang Dongzhi*, Wang Mengyu, Yang Zhimin. Facile fabrication of graphene oxide/Nafion/indium oxide for humidity sensing with highly sensitive capacitance response, Sensors and Actuators B: Chemical, v 292, p 187-195, 2019.

[72] Zhang Dongzhi*, Wu Zhenling, Zong Xiaoqi. Flexible and highly sensitive H2S gas sensor based on in-situ polymerized SnO2/rGO/PANI ternary nanocomposite with application in halitosis diagnosis, Sensors and Actuators B: Chemical, v 289, p 32-41, 2019. (ESI高被引论文)

[71] Zhang Dongzhi*, Wang Dongrui, Wang Dongyue, Wu Zhenling, Polypyrrole-modified tin disulfide nanoflower-based quartz crystal microbalance sensor for humidity sensing, IEEE Sensors Journal, v 19, n 20, p 9166-9171, 2019.

[70] Zhang Dongzhi*, Chen Haonan, Zhou Xiaoyan, Wang Dongyue, Jin Yingbo, Yu Sujing. In-situ polymerization of metal organic frameworks-derived ZnCo2O4/polypyrrole nanofilm on QCM electrodes for ultra-highly sensitive humidity sensing application, Sensors and Actuators A: Physical, v 295, p 687-695, 2019.

[69] Zhang Dongzhi*, Wu Di, Zong Xiaoqi, Yang Zhimin. Enhanced SO2 gas sensing properties of metal organic frameworks-derived titanium dioxide/reduced graphene oxide nanostructure, Journal of Materials Science: Materials in Electronics, v 30, n 12, p 11070-11078, 2019.

[68] Zhang Yong, Pan Wenjing, Dong Guokang, Zhang Dongzhi*, A high-performance room temperature methanol gas sensor based on alpha-iron oxide/polyaniline/PbS quantum dots nanofilm, Journal of Materials Science: Materials in Electronics, v 30, n 19, p 17907-17915, 2019.

[67] Chen Dachang, Zhang Xiaoxing*, Xiong Hao, Li Yi, Tang Ju, Xiao Song, Zhang Dongzhi*, A first-principles study of the SF6 decomposed products adsorbed over defective WS2 monolayer as promising gas sensing device, IEEE Transactions on Device and Materials Reliability, v 19, n 3, p 473-483, 2019. (ESI高被引论文)

[66] Zhang Dongzhi*, Wu Zhenling, Zong Xiaoqi. Metal-organic frameworks-derived zinc oxide nanopolyhedra/S, N: graphene quantum dots/polyaniline ternary nanohybrid for high-performance acetone sensing, Sensors and Actuators B: Chemical, v 288, p 232-242, 2019.

[65] Zhang Dongzhi*, Li Qi, Li Peng, Pang Maosong, Luo Yuwei, Fabrication of Pd-decorated MoSe2 nanoflowers and density functional theory simulation toward ammonia sensing, IEEE Electron Device Letters, v 40, n 4, p 616-619, 2019.

[64] Zhang Dongzhi*, Wu Junfeng, Cao Yuhua, Ultrasensitive H2S gas sensing properties of CuO nanorods/MoS2 nanosheets nanoheterostructure with synergistic effect, Sensors and Actuators B: Chemical, v 287, p 346-355, 2019.

[63] Zhang Dongzhi*, Zong Xiaoqi, Wu Zhenling, Fabrication of tin disulfide/graphene oxide nanoflower on flexible substrate for ultrasensitive humidity sensing with ultralow hysteresis and good reversibility, Sensors and Actuators B: Chemical, v 287, p 398-407, 2019.

[62] Zhang Dongzhi*, Fan Xin, Hao Xianfeng, Dong Guokang. Facile fabrication of polyaniline nanocapsules modified zinc oxide hexagonal microdiscs for H2S gas sensing applications, Industrial & Engineering Chemistry Research, v 58, p 1906-1913, 2019.

[61] Zhang Dongzhi*, Yang Zhimin, Wu Zhenling, Dong Guokang. Metal-organic frameworks-derived hollow zinc oxide/cobalt oxide nanoheterostructure for highly sensitive acetone sensing, Sensors and Actuators B: Chemical, v 283, p 42-51, 2019. (ESI高被引论文)

[60] Zhang Dongzhi*, Pang Maosong, Wu Junfeng, Cao Yuhua. Experimental and density functional theory investigation of Pt-loaded titanium dioxide/molybdenum disulfide nanohybrid for SO2 gas sensing application, New Journal of Chemistry, v 43, p 4900-4907, 2019.

[59] Zhang Dongzhi*, Dong Guokang, Wu Zhenling, Pan Wenjing, Fan Xin. Liquefied petroleum gas sensing properties of ZnO/PPy/PbS QDs nanocomposite prepared by self-assembly combining with SILAR method, IEEE Sensors Journal, v 19, p 2855-2862, 2019.

[58] Li Peng*, Zhang Dongzhi*, Wu Zhenling, Flexible MoS2 sensor arrays for high performance label-free ion sensing, Sensors and Actuators A: Physical, v 286, p 51-58, 2019.

[57] Zhang Dongzhi*, Wu Junfeng, Cao Yuhua. Cobalt-doped indium oxide/molybdenum disulfide ternary nanocomposite toward carbon monoxide gas sensing, Journal of Alloys and Compounds, v 777, p 443-453, 2019.

[56] Wang Mengyu, Zhang Dongzhi*, Yang Aijun, Wang Dongrui, Zong Xiaoqi. Fabrication of polypyrrole/graphene oxide hybrid nanocomposite for ultrasensitive humidity sensing with unprecedented sensitivity, Journal of Materials Science: Materials in Electronics, v 30, p 4967-4976, 2019.

[55]Zhang Dongzhi*, Chen Haonan, Li Peng, Wang Dongyue, Yang Zhimin. Humidity sensing properties of metal organic framework-derived hollow ball-like TiO2 coated QCM sensor, IEEE Sensors Journal, v 19, p 2909-2915, 2019.

[54] Zhang Dongzhi*, Jin Yingbo, Cao Yuhua. Facile synthesis and ammonia gas sensing properties of NiO nanoparticles decorated MoS2 nanosheets heterostructure, Journal of Materials Science: Materials in Electronics, v 30, n 1, p 573-581, 2019.

[53] Zhang Dongzhi*, Zong Xiaoqi, Wu Zhenling, Zhang Yong. Hierarchical self-assembled SnS2 nanoflower/Zn2SnO4 hollow sphere nanohybrid for humidity sensing applications, ACS Applied Materials & Interfaces, v 10, n 38, p 32631-32639, 2018.

[52] Li Peng*, Zhang Dongzhi*, Wu Junfeng, Cao Yuhua, Wu Zhenling. Illumination impact on monolayer MoS2 chemical sensor arrays, Sensors and Actuators A: Physical, v 283, p 34-41, 2018.

[51] Zhang Dongzhi*, Wu Di, Cao Yuhua, Zong Xiaoqi, Yang Zhimin. Construction of Co3O4 nanorods/In2O3 nanocubes heterojunctions for efficient sensing of NO2 gas at low temperature, Journal of Materials Science: Materials in Electronics, v 29, n 22, p 19558-19566, 2018.

[50] Ren Xiaoning, Zhang Dongzhi*, Wang Dongyue, Li Zhenguo, Liu Shuangxi. Quartz crystal microbalance sensor for humidity sensing based on layer-by-layer self-assembled PDDAC/graphene oxide film, IEEE Sensors Journal, v 18, n 23, p 9471-9476, 2018.

[49] Zhang Dongzhi*, Wu Zhenling, Zong Xiaoqi, Zhang Yong. Fabrication of polypyrrole/Zn2SnO4 nanofilm for ultra-highly sensitive ammonia sensing application, Sensors and Actuators B: Chemical, v 274, p 575-586, 2018.

[48] Li Peng*, Zhang Dongzhi*, Wu Junfeng, Cao Yuhua, Wu Zhenling. Flexible integrated black phosphorus sensor arrays for high performance ion sensing, Sensors and Actuators B: Chemical, v 273, p 358-364, 2018.

[47] Zhang Dongzhi*, Jiang Chuanxing, Wu Junfeng. Layer-by-layer assembled In2O3 nanocubes/flower-like MoS2 nanofilm for room temperature formaldehyde sensing, Sensors and Actuators B: Chemical, v 273, p 176-184, 2018.

[46] Zhang Dongzhi*, Dong Guokang, Cao Yuhua, Zhang Yong. Ethanol gas sensing properties of lead sulfide quantum dots-decorated zinc oxide nanorods prepared by hydrothermal process combining with successive ionic-layer adsorption and reaction method, Journal of Colloid and Interface Science, v 528, p 184-191, 2018.

[45] Wu Junfeng, Zhang Dongzhi*, Cao Yuhua, Fabrication of Iron-doped titanium dioxide quantum dots/molybdenum disulfide nanoflower for ethanol gas sensing, Journal of Colloid and Interface Science, v 529, p 556-567, 2018.

[44] Yang Aijun, Wang Dawei, Wang Xiaohua*, Zhang Dongzhi*, Koratkar Nikhil*, Rong Mingzhe. Recent advances in phosphorene as a sensing material, Nano Today, v 20, p 13-32, 2018.

[43] Zhang Dongzhi*, Fan Xin, Yang Aijun, Zong Xiaoqi. Hierarchical assembly of urchin-like alpha-iron oxide hollow microspheres and molybdenum disulphide nanosheets for ethanol gas sensing, Journal of Colloid and Interface Science, v 523, p 217-225, 2018.

[42] Zhang Dongzhi*, Cao Yuhua, Li Peng, Wu Junfeng, Zong Xiaoqi. Humidity-sensing performance of layer-by-layer self-assembled tungsten disulfide/tin dioxide nanocomposite, Sensors and Actuators B: Chemical, v 265, p 529-538, 2018.

[41] Zhang Dongzhi*, Zong Xiaoqi, Wu Zhenling, Zhang Yong. Ultrahigh-performance impedance humidity sensor based on layer-by-layer self-assembled tin disulfide/titanium dioxide nanohybrid film, Sensors and Actuators B: Chemical, v 266, p 52-62, 2018.

[40] Zhang Dongzhi*, Wang Dongyue, Zong Xiaoqi, Dong Guokang, Zhang Yong. High-performance QCM humidity sensor based on graphene oxide/tin oxide/polyaniline ternary nanocomposite prepared by in-situ oxidative polymerization method, Sensors and Actuators B: Chemical, v 262, p 531-541, 2018.

[39] Zhang Dongzhi*, Wu Zhenling, Li Peng, Zong Xiaoqi, Dong Guokang, Zhang Yong. Facile fabrication of polyaniline/multi-walled carbon nanotubes/molybdenum disulfide ternary nanocomposite and its high-performance ammonia-sensing at room temperature, Sensors and Actuators B: Chemical, v 258, p 895-905, 2018. (ESI高被引论文)

[38] Zhang Dongzhi*, Jiang Chuanxing, Zhou Xiaoyan. Fabrication of Pd-decorated TiO2/MoS2 ternary nanocomposite for enhanced benzene gas sensing performance at room temperature, Talanta, v 182, p 324-332, 2018.

[37] Zhang Dongzhi*, Wang Dongyue, Li Peng, Zhou Xiaoyan, Zong Xiaoqi, Dong Guokang. Facile fabrication of high-performance QCM humidity sensor based on layer-by-layer self-assembled polyaniline/graphene oxide nanocomposite film, Sensors and Actuators B: Chemical, v 255, p 1869-1877, 2018. (ESI高被引论文

[36] Zhang Dongzhi*, Jiang Chuanxing, Tong Jun, Zong Xiaoqi, Hu Wei. Flexible strain sensor based on layer-by-layer self-assembled graphene/polymer nanocomposite membrane and its sensing properties, Journal of Electronic Materials, v 47, n 4, p 2263-2270, 2018.

[35] Zhang Dongzhi*, Wu Junfeng, Li Peng, Cao Yuhua. Room-temperature SO2 gas sensing properties based on metal-doped MoS2 nanoflower: an experimental and density functional theory investigation, Journal of Materials Chemistry A, v 5, p 20666 - 20677, 2017.  

[34] Jiang Chuanxing, Zhang Dongzhi*, Yin Nailiang, Yao Yao, Talgar Shaymurat, Zhou Xiaoyan. Acetylene gas-sensing properties of layer-by-layer self-assembled Ag-decorated tin dioxide/graphene nanocomposite film, Nanomaterials, v 7, p 278, 2017.

[33] Li Peng*, Zhang Dongzhi*, Jiang Chuanxing, Zong Xiaoqi, Cao Yuhua. Ultra-sensitive suspended atomically thin-layered black phosphorus mercury sensors, Biosensors and Bioelectronics, v 98, p 68-75, 2017.

[32] Zhang Dongzhi*, Sun Yan-e, Jiang Chuanxing, Yao Yao, Wang Dongyue, Zhang Yong. Room-temperature highly sensitive CO gas sensor based on Ag-loaded zinc oxide/molybdenum disulfide ternary nanocomposite and its sensing properties, Sensors and Actuators B: Chemical, v 253, p 1120-1128, 2017.

[31] Zhang Dongzhi*, Chang Hongyan, Sun Yan-e, Jiang Chuanxing, Yao Yao, Zhang Yong. Fabrication of platinum-loaded cobalt oxide/molybdenum disulfide nanocomposite toward methane gas sensing at low temperature, Sensors and Actuators B: Chemical, v 252, p 624-632, 2017.

[30] Zhang Dongzhi*, Jiang Chuanxing, Li Peng, Sun Yan-e. Layer-by-layer self-assembly of Co3O4 nanorod-decorated MoS2 nanosheet-based nanocomposite toward high-performance ammonia detection, ACS Applied Materials & Interfaces, v 9, n 7, p 6462-6471, 2017. (ESI高被引论文)

[29] Zhang Dongzhi*, Jiang Chuanxing, Sun Yan-e, Zhou Qu. Layer-by-layer self-assembly of tricobalt tetroxide-polymer nanocomposite toward high-performance humidity-sensing, Journal of Alloys and Compounds, v 711, p 652-658, 2017.

[28] Zhang Dongzhi*, Jiang Chuanxing, Liu Jingjing, Cao Yuhua. Carbon monoxide gas sensing at room temperature using copper oxide-decorated graphene hybrid nanocomposite prepared by layer-by-layer self-assembly, Sensors and Actuators B: Chemical, v247, p 875-882, 2017.

[27] Zhang Dongzhi*, Liu Jingjing, Jiang Chuanxing, Li Peng, Sun Yan-e. High-performance sulfur dioxide sensing properties of layer-by-layer self-assembled titania-modified graphene hybrid nanocomposite, Sensors and Actuators B: Chemical, v 245, p 560-567, 2017.

[26]Zhang Dongzhi*, Sun Yan-e, Jiang Chuanxing, Zhang Yong. Room temperature hydrogen gas sensor based on palladium decorated tin oxide/molybdenum disulfide ternary hybrid via hydrothermal route, Sensors and Actuators B: Chemical, v 242, p 15-24, 2017. (ESI高被引论文)

[25]Zhang Dongzhi*, Liu Jingjing, Xia Bokai. Quantitative detection of formaldehyde and ammonia gas via metal oxide-modified graphene-based sensor array combining with neural network model, Sensors and Actuators B: Chemical, v 240, p 55-65, 2017. (ESI高被引论文)

[24]Zhang Dongzhi*, Jiang Chuanxing, Sun Yan-e, Room-temperature high-performance ammonia gas sensor based on layer-by-layer self-assembled molybdenum disulfide/zinc oxide nanocomposite film, Journal of Alloys and Compounds, v 698, p 476-483, 2017.

[23] Sun Yan-e, Zhang Dongzhi*, Chang Hongyan, Zhang Yong. Fabrication of palladium–zinc oxide–reduced graphene oxide hybrid for hydrogen gas detection at low working temperature, Journal of Materials Science: Materials in Electronics, v 28, n 2, p 1667-1673, 2017.

[22] Zhang Dongzhi*, Yin Nailiang, Jiang Chuanxing, Xia Bokai. Characterization of CuO–reduced graphene oxide sandwiched nanostructure and its hydrogen sensing characteristics, Journal of Materials Science: Materials in Electronics, v 28, n 3, p 2763-2768, 2017

[21] Li Peng, Zhang Dongzhi*, Sun Yan-e, Chang Hongyan, Liu Jingjing, Yin Nailiang. Towards intrinsic MoS2 devices for high performance arsenite sensing, Applied Physics Letters, v 109, n 6, p 063110, 2016

[20]Li Peng, Liu Baijun, Zhang Dongzhi*, Sun Yan-e, Liu Jingjing, Graphene field-effect transistors with tunable sensitivity for high performance Hg (II) sensing, Applied Physics Letters, v 109, n 15, p 153101, 2016.

[19]Zhang Dongzhi*, Liu Jingjing, Xia Bokai. Layer-by-layer self-assembly of zinc oxide/graphene oxide hybrid toward ultrasensitive humidity sensing, IEEE Electron Device Letters, v 37, n 7, p 916-919, 2016.

[18] Zhang Dongzhi*, Sun Yan-e, Li Peng, Zhang Yong. Facile fabrication of MoS2-modified SnO2 hybrid nanocomposite for ultrasensitive humidity sensing, ACS Applied Materials & Interfaces, v 8, n 22, p 14142-14149, 2016. (ESI高被引论文)

[17] Zhang Dongzhi*, Chang Hongyan, Liu Runhua. Humidity-sensing properties of one-step hydrothermally synthesized tin dioxide-decorated graphene nanocomposite on polyimide substrate, Journal of Electronic Materials, v 45, n 8, p 4275-4281, 2016.

[16] Zhang Dongzhi*, Liu Jingjing, Xia Bokai. Nitrogen dioxide-sensing properties at room temperature of metal oxide-modified graphene composite via one-step hydrothermal method, Journal of Electronic Materials, v 45, n 8, p 4324-4330, 2016.

[15] Zhang Dongzhi*, Chang Hongyan, Li Peng, Liu Runhua. Characterization of nickel oxide decorated-reduced graphene oxide nanocomposite and its sensing properties toward methane gas detection, Journal of Materials Science: Materials in Electronics, v 27, n 4, p 3723-3730, 2016

[14] Zhang Dongzhi*, Wang Kai, Tong Jun, Xia Bokai. Layer-by-layer nanoassembly fabrication and humidity sensing behaviors of multi-walled carbon nanotubes/polyelectrolyte hybrid film, Journal of Nanoscience and Nanotechnology, v 16, n 7, p 6705-6710, 2016

[13] Zhang Dongzhi*, Chang Hongyan, Li Peng, Liu Runhua, Xue Qingzhong. Fabrication and characterization of an ultrasensitive humidity sensor based on metal oxide/graphene hybrid nanocomposite, Sensors and Actuators B: Chemical, v 225, p 233-240, 2016. (ESI高被引论文)

[12] Zhang Dongzhi*, Yin Nailiang, Xia Bokai, Sun Yan, Liao Yifan, He Zilan, Hao Shuang. Humidity-sensing properties of hierarchical ZnO/MWCNTs/ZnO nanocomposite film sensor based on electrostatic layer-by-layer self-assembly, Journal of Materials Science: Materials in Electronics, v 27, n 3, p 2481-2487, 2016.

[11] Li Peng, Zhang Dongzhi*, Liu Jingjing, Chang Hongyan, Sun Yan-e, Yin Nailiang. Air-stable black phosphorus device for ion sensing, ACS Applied Materials & Interfaces, v 7, p 24396-24402, 2015

[10] Zhang Dongzhi*, Sun Yan-e, Zhang Yong. Fabrication and characterization of layer-by-Layer nano self-assembled ZnO nanorods/carbon nanotube film sensor for ethanol gas sensing application at room temperature, Journal of Materials Science: Materials in Electronics, v 26, n 10, p 7445-7451, 2015

[9] Zhang Dongzhi*, Yin Nailiang, Xia Bokai. Facile fabrication of ZnO nanocrystalline-modified graphene hybrid nanocomposite toward methane gas sensing application, Journal of Materials Science: Materials in Electronics, v 26, n 8, p 5937-5945, 2015

[8] Zhang Dongzhi*, Liu Jingjing, Chang Hongyan, Liu Aiming, Xia Bokai. Characterization of a hybrid composite of SnO2 nanocrystal-decorated reduced graphene oxide for ppm-level ethanol gas sensing application, RSC advances, v 5, n 24, p 18666-18672, 2015

[7] Zhang Dongzhi*, Liu Aiming, Chang Hongyan, Xia Bokai. Room-temperature high-performance acetone gas sensor based on hydrothermal synthesized SnO2-reduced graphene oxide hybrid composite, RSC advances, v 5, n 4, p 3016-3022, 2015

[6]Zhang Dongzhi*, Tong Jun, Wang Kai, Xia Bokai, Xue Qingzhong. Ultrahigh performance humidity sensor based on layer-by-layer self-assembly of graphene oxide/polyelectrolyte nanocomposite film, Sensors and Actuators B: Chemical, v 203, p 263-270, 2014

[5] Zhang Dongzhi*,Tong Jun,Xia Bokai. Humidity-sensing properties of chemically reduced graphene oxide/polymer nanocomposite film sensor based on layer-by-layer nano self-assembly, Sensors and Actuators B: Chemical, v 197, p 66-72, 2014 (ESI高被引论文)

[4] Zhang Dongzhi*, Xia Bokai.  Soft measurement of water content in oil-water two-phase flow based on RS-SVM classifier and GA-NN predictor, Measurement Science Review, v 14, n 4, p 219-226, 2014

[3]Zhang Dongzhi*, Wang Kai, Tong Jun, Xia Bokai. Characterization of layer-by-layer nano self-assembled carbon nanotube/polymer film sensor for ethanol gas sensing properties, Microsystem Technologies, v 20, n 3, p 379-385, 2014

[2]Zhang Dongzhi, Cui Tianhong*. Controllable fabrication and electromechanical characterization of electrophoresis assembled single-walled carbon nanotube-polymer film transducers, Microsystem Technologies, v 19, n 7, p 1041-1047, 2013

[1] Zhang Dongzhi, Cui Tianhong*. Tunable mechanical properties of layer-by-layer self-assembled carbon nanotube/polymer nanocomposite membranes for M/NEMS, Sensors and Actuators A: Physical, v 185, p 101-108, 2012