2024年

1. Yu Yao, Yutong Han, Zifeng Wang, Zhanhong Li, Zhigang Zhu*, Controlled etching of MXene for highly selective triethylamine detection at room temperature, Sensor Actuat. B- Chem., 2024, 402: 135078

2. Z. Shi, Z.F. Wang, K.W. Li, Y.W. Wang, Z.H. Li, Zhigang Zhu*, MXene fibers-based molecularly imprinted disposable electrochemical sensor for sensitive and selective detection of hydrocortisone, Talanta, 2024, 266: 125100

3. Jiangang Xin, Wenxing Wang, Lili Xie*, Xiaoyi Li, Yu Yao, Xueling Zhao, Zhigang Zhu*, MOF-derived Al³⁺-doped Co₃O₄ nanocomposites for highly n-butanol gas sensing performance at low operating temperature, J. Alloy Compd, 2024, 978: 173341

4. Xinghao Wang, Zifeng Wang, Min Xiao, Zhanhong Li, Zhigang Zhu*, Advances in Biomedical Systems based on Microneedles: Design, Fabrication, and Application, Biomaterials Science, 2023, DOI: 10.1039/D3BM01551C, Accepted

  

       2023年

1. Y. Yao, Z.H. Li, Y.T. Han, L.L. Xie, X.L. Zhao, Z.G. Zhu*, Fabrication and characterization of a MnO₂/Ti₃C₂T_x based gas sensor for highly sensitive and selective detection of lung cancer marker Hexanal, Chem. Eng. J., 2023, 451: 139029

2. Yutong Han, Yuan Ding, Wenyu Zhang, Zifeng Wang, Zhanhong Li, Zhigang Zhu*, SnS₂/Ti₃C₂T_x hybrids for conductometric triethylamine detection at room temperature, Sensor Actuat. B- Chem., 2023, 381: 133360 

3. Yu Yao, Zifeng Wang, Yutong Han, Lili Xie, Xueling Zhao, Saeed Shahrokhian, Nicolae Barsan, Zhigang Zhu*, Conductometric Cr₂O₃/TiO₂/Ti₃C₂T_x gas sensor for detecting triethylamine at room temperature, Sensor Actuat. B- Chem., 2023, 381: 133412 （德国图宾根大学Barsan教授，伊朗Shahrokhian教授合作）

4. Zimeng Hu, Hangfeng Zhang, Zhigang Zhu, Jiangtao Zeng, Dou Zhang, Giuseppe Viola, Haixue Yan, Deciphering the peculiar hysteresis loops of 0.05Pb(Mn_1/3Sb_2/3)O₃–0.95Pb(Zr_0.52Ti_0.48)O₃ piezoelectric ceramics, Acta Materialia, 2023, 244:118563（英国女王大学晏海学教授合作）

5. Kaiwen Li , Zhuo Shi , Yuwei Wang, Feng Yan , Zhanhong Li , Zifeng Wang, Zhigang Zhu*, A label-free electrochemical aptasensor based on Ti₃C₂T_x-Ag/Au nanoparticles as a signal amplification strategy for CRP detection, Microchemical Journal, 2023, 195:109479

6. Z.H. Li, Y.W. Wang, Z.Y. Fan, Y.F. Sun, Y. Sun, Y.D. Yang, Y.F. Zhang, J.J. Ma, Z.F. Wang, Z.G. Zhu*, A Dual‐Function Wearable Electrochemical Sensor for Uric Acid and Glucose Sensing in Sweat, Biosensors, 2023, 13: 105

7. Peng Wu, Xueling Zhao*, Yufu Huang, Yaxin Ding, Donghai Lin, Lili Xie, Zhanhong Li, Zhigang Zhu*, Hongli Zhao, Minbo Lan*, Self-assembled multi-layer Nb₂C MXene/MnFe₂O₄ electrochemical sensors with Schottky junction for the detection of Acetaminophen and Dopamine, Colloids and Surface A, 2023, 667: 131377

8.  Zifeng Wang, Jiaming Cui, Zhuo Shi, Feng Yan, Yutong Han, Zhanhong Li, Zhigang Zhu*, A Stretchable and Self-Healing Dual-Functional Wearable Sensor Enabled by Wet-Spun Conductive Thermoplastic Nanocomposite Fibers, Analytica, 2023, 4: 336-346

9. Y. Sun, J.J. Ma, Y.W. Wang, Z.H. Li*, Z.F. Wang, Z.G. Zhu, A Wearable Patch Sensor for Simultaneous Detection of Dopamine and Glucose in Sweat, Analytica

10.  周呈，李崭虹，王星皓，刘淑媛，王子峰，薛亮，朱志刚，基于离子液体-还原氧化石墨烯/银枝晶改性丝网印刷电极的芬太尼传感器, 陶瓷学报，2023, 44(01)：105-114

11. 刘淑媛，李凯文，王星皓，李崭虹，王子峰，朱志刚，C反应蛋白电化学免疫传感器的研究进展，分析实验室，2023, 41(11): 1552-1562

12. 丁园，张文宇，孙宇帆，黄志健，韩雨彤，朱志刚*，用于早期癌症诊断的尿液挥发性有机化合物的体外检测技术，国际生物医学工程杂志 2022, 45(2): 176-185

13. 王星皓，王子峰，肖民，程书怡，李崭虹，朱志刚，快速提取皮肤间质液的水凝胶微针及电化学传感器构建用于体外葡萄糖检测， 传感技术学报，接收

      2022年：

1. Y. Yao, Y.T. Han, M. Zhou, L.L. Xie, X.L. Zhao, N. Barsan, Z.G. Zhu*, MoO₃/TiO₂/Ti₃C₂T_x nanocomposites based gas sensors for highly sensitive and selective isopropanol detection at room temperature, J. Mater. Chem. A, 2022, 10: 8283-8292 （德国图宾根大学Barsan教授合作）

2. M. Zhou, Y. Yao, Y.T. Han, L.L. Xie, X.L. Zhao, N. Barsan, Z.G. Zhu*, Ultrasensitive gas sensor based on nanocube In₂O₃-CNH composite at low operating temperature, Sensor Actuat. B- Chem., 2022, 354, 131224 （德国图宾根大学Barsan教授合作）

3. M. Zhou, Y.T. Han, Y. Yao, L.L. Xie, X.L. Zhao, J.R. Wang, Z.G. Zhu*, Fabrication of Ti₃C₂Tx/In₂O₃ nanocomposites for enhanced ammonia sensing at room temperature, Ceramics International, 2022, 48(5): 6600-6607

4. S.H. Li, L.L. Xie, G.F. Luo, Y.T. Han, M. Zhou, Rawat Jaisutti, Z.G. Zhu*, Indium-organic framework CPP-3(In) derived Ag/In₂O₃ porous hexagonal tubes for H₂S detection at low temperature, Chinese Chem. Lett. 2022, 33: 551-556 

5. Z.H. Li, F.C. Shen, R. K. Mishra, Z.F. Wang, X.L. Zhao, Z.G.Zhu*, Advances of drugs electroanalysis based on direct electrochemical redox on electrodes: a review, Crit. Rev. Anal. Chem., DOI:10.1080/10408347.2022.2072679

6. Y.Z. Chen, Y.Y. Ma, Y.F. Huang, C. Chen, Z.G. Zhu, D.H. Lin, Enhanced methanol oxidation on PtNi nanoparticles supported on silane-modified reduced graphene oxide, Inter. J. Hydrogen Energy, 2022, 47 (10): 6638-6649

7. P. Siribunbandal, Y.H. Kim, T. Osotchan, T. Osotchan, Z.G. Zhu, Rawat Jaisutti*, Quantitative colorimetric detection of dissolved ammonia using polydiacetylene sensors enabled by machine learning classifiers, ACS Omega, 2022, 7(22): 18714–18721（和泰国Jaisutti教授合作）

2021年：

1.  G.F. Luo, L.L. Xie*, M. He, R.Jaisutti, Z.G. Zhu*, Flexible fabric gas sensors based on reduced graphene-polyaniline nanocomposite for highly sensitive NH₃ detection at room temperature, Nanotechnology 2021, 32: 305501

2. X.L. Zhao*, Z.H. Li, C. Chen, L.L. Xie, Z.G. Zhu*, H.L. Zhao, M.B. Lan*, MnFe₂O₄ nanoparticles-decorated graphene nanosheets used as an efficient peroxidase minic enable the electrochemical detection of hydrogen peroxide with a low detection limit, Microchemical Journal, 2021, 166: 106240

3.  R.M. Song, Z.H. Li, R.K. Mishra, P.J. Wei, X.L. Zhao, Z.G. Zhu*, Octahedral cuprous oxide decorated flexible reduced graphene oxide paper for food sensing application, Electroanalysis, 2021, 33: 1461-1470

4. C.S. Chen, Y.H. Wu, Z.G. Zhu*, W. Shih, W.H. Shih*, Water-resistant and flexible all-inorganic perovskite nanocrystals films for white light-emitting applications, J. Mater. Res. 2021, 36: 1835-1845 （美国Drexel大学施惟恒教授合作）

5. Y.T. Han, Y. Liu, C. Su, X.W. Chen, B.L. Li, W.K. Jiang, M. Zeng, N.T. Hu, Y.J. Su, Z.H. Zhou, Z.G. Zhu, Z. Yang*, Hierarchical WS₂−WO₃ Nanohybrids with P−N Heterojunctions for NO₂ Detection, ACS Appl. Nano Mater. 2021, 4: 1626-1634

2020年：

1. S.H. Li, L.L. Xie*, M. He, X.B. Hu, G.F. Luo, Z.G. Zhu*, Metal-organic frameworks-derived bamboo-like CuO/In₂O₃ heterostructure for high-performance H₂S gas sensor with low operating temperature, Sensor Actuat. B- Chem., 2020, 310: 127828  ( ESI 高被引论文，被引用85次)

2. M. He, L.L. Xie, G.F. Luo, Z.H. Li, J. Wright, Z.G. Zhu*, Flexible fabric gas sensors based on PANI/WO₃ p-n heterojunctions for high performance NH₃ detection at room temperature, Sci. China Mater. 2020, 63: 2028-2039 .

3. M. Boepple, Z.G. Zhu, X.B. Hu, U. Weimar, N. Barsan*, Impact of heterostructures on hydrogen sulfide sensing: example of core-shell CuO/CuFe₂O₄ nanostructures, Sensor Actuat. B- Chem., 2020, 321: 128523 （与德国图宾根大学Barsan教授合作）

4.  P.F. Zhao, Navneet Soin* Amit Kumar, Zhigang Zhu, et al. Expanding the portfolio of tribo-positive materials: aniline formaldehyde condensates for high charge density triboelectric nanogenerators, Nano Energy 2020, 67: 104291（英国博尔顿大学骆季奎教授合作）

5.  C.S. Chen, D. Li, Y.H. Wu, C. Chen, Z.G. Zhu*, W.Y. Shih, W.H. Shih*, Flexible inorganic CsPbI₃ perovskite nanocrystal-PMMA composite films with enhanced stability in air and water for white light-emitting diodes, Nanotechnology 2020, 31: 225602（美国Drexel大学施惟恒教授合作）

6.  X. Wang, S.H. Li, L.L. Xie, X. Li, D.H. Lin, Z.G. Zhu*, Low-temperature and highly sensitivity H₂S gas sensor based on ZnO/CuO composite derived from bimetal metal-organic frameworks, Ceramics International, 2020, 46: 15858-15866 

7. P.J. Wei, Z.H. Li, X.L. Zhao, R.M. Song, Z.G. Zhu*, Fe₃O₄/SiO₂/CS surface ion-imprinted polymer modified glassy carbon electrode for highly sensitivity and selectivity detection of toxic metal ions, J. Taiwan Inst. Chem. Eng. 2020, 113:107-113

8. D. Li, C.S. Chen, Y.H. Wu, Z.G. Zhu*, W. Shih, W.H. Shih*, Improving stability of cesium lead iodide perovskite nanocrystals by solution surface treatments, ACS Omega, 2020, 5(29): ‏18013-18020（美国Drexel大学施惟恒教授合作）

9. X.H. Wang, Y.F. Qiu, G. Chen, Z.R. Chu, S. Akelima, C.S. Chen, C. Chen*, Z.G. Zhu*,  Self-healable poly(vinyl alcohol) photonic crystal hydrogel, ACS Appl. Poly. Mater. 2020, 2: 2086-2092 

10. X.L. Zhao, B.L. Xie, Z.H. Li, C. Chen, Z.G. Zhu*, One-step in situ controllable synthesis of MnFe₂O₄/rGO nanocomposites and its application for electrochemical sensing of hydrogen peroxide, Sensors and Materials, 2020, 32(3): 1091-1099 

2019年：

1.  M. Wu, M. He, Q.K. Hu, Q.H. Wu, G. Sun, L.L. Xie, Z.Y. Zhang, Z.G. Zhu*, A.G. Zhou*, Ti₃C₂ MXene based sensors with high selectivity for NH₃ detection at room-temperature, ACS Sensors, 2019, 4(10): 2763-2770 ( ESI 高被引论文，被引用183次)

2. M. He, L.L. Xie*, X.L. Zhao, X.B. Hu, S.H. Li, Z.G. Zhu*, Highly sensitive and selective H₂S gas sensors based on flower-like WO₃/CuO composites operating at low/room temperature, J. Alloy Compd, 2019, 788: 36-43

3. X.B. Hu, P.J. Wei, G. Catanante, Z.H. Li, J.L. Marty, Z.G. Zhu*, Ultrasensitive ciprofloxacin assay based on the use of a fluorescently labeled aptamer and a nanocomposite prepared from carbon nanotubes and MoSe₂, Microchimica Acta, 2019, 185: 507（法国佩皮尼昂大学Marty教授合作）

4. P.J. Wei, Z.G. Zhu*, R.M. Song, Z.H. Li, C. Chen, An ion-imprinted sensor based on chitosan -graphene oxide composite polymer modified glassy carbon electrode for environmental sensing application, Electrochimica Acta, 2019, 317: 93-101

5. G. Chen, W.W. Tang, X.H. Wang, X.L. Zhao, C. Chen*, Z.G. Zhu*, Applications of hydrogels with special physical properties in biomedicine, Polymers 2019, 11: 1420

6. Z.H. Li, M. A. Mohamed, A.M. Mohan, Z.G. Zhu, V. Sharma, G.K. Mishra*, R.K. Mishra*, Application of electrochemical aptasensors toward clinical diagnostics, food, and environmental monitoring: Review, Sensors, 2019, 19, 5435 

7. L.J. Cai, W.C. Ge*, Z.G. Zhu*, X.L. Zhao, Z.H. Li, Data analysis and accuracy evaluation of a continuous glucose-monitoring devices, J. Sensors, 2019, 4896862

8. P.J. Wei, R.M. Song, C. Chen, Z.H. Li, Z.G. Zhu*, S.J. Li*, A pH-responsive molecularly imprinted hydrogel for dexamethasone release, J. Inorg. Organomet. P., 2019, 29(3): 659-666

9. C. Chen, Z.Q. Dong, Y. Xu, X.H. Wang, H. Lu, Y.F. Qiu, Z.G. Zhu*, Ultrathin colloidal crystal layer as transparent photonic films, Micro Nano Lett., 2019, 14 (1): 1-4 

10. 潘帅，王旭，解丽丽，朱志刚*，郑嘹赢，离子液体辅助合成α-Fe₂O₃纳米棒及其气敏性能研究, 硅酸盐学报，2019 47(3): 336-344 

2018年：

1. X.B. Hu, K.Y. Goud, V. S. Kumar, G. Catanante, Z.H. Li, Z.G. Zhu*, J.L. Marty*, Disposable electrochemical aptasensor based on carbon nanotubes- V2O5-chitosan nanocomposite for detection of ciprofloxacin, Sensor Actuat. B- Chem., 2018, 268: 278-286. （法国佩皮尼昂大学Marty教授合作）

2. X.B. Hu, Z.G. Zhu*, Z.H. Li, L.L. Xie, Y.H. Wu, L.Y. Zheng, Heterostructure of CuO microspheres modified with CuFe₂O₄ nanoparticles for highly sensitive H₂S gas sensor, Sensor Actuat. B- Chem., 2018, 264: 139-149

3. P.F. Zhao, N. Soin, K. Prashanthi, J.K. Chen, S.D. Dong, E.P Zhou, Z.G. Zhu, A.A. Narasimulu, C.D Montemagno, L.Y. Yu and J.K. Luo*, Enhanced performance of electrospun polytetrafluoroethylene (PTFE), polyamide-6 triboelectric nanogenerators by ion injection process, ACS Appl. Mater. Inter. 2018, 10(6): 5880-5891（英国博尔顿大学骆季奎教授合作）

4. C. Chen, Z.Q. Dong, J.H. Shen, H.W. Chen, Y.H. Zhu, Z.G. Zhu*, A 2D photonic crystal hydrogel sensor for tear glucose monitoring, ACS Omega, 2018, 3: 3211-3217 

5. Z.H. Li, X.L. Zhao, X.C. Jiang, Y.H. Wu, C. Chen, Z.G. Zhu*, J.L. Marty, Q.S. Chen, An enhanced nonenzymatic electrochemical glucose sensor based on copper-palladium nanoparticles modified glassy carbon electrodes, Electroanalysis, 2018, 30: 1803-1811

6. J. Huang, Y.H. Wu, Z.G. Zhu*, W.Y. Shih, W.H. Shih*, Control of oleylamine to perovskite ratio in synthesis of MAPbBr₃ nanoparticles, Chem. Phys. Lett. 2018, 702: 21-25 

7. Z.H. Li, X.L. Zhao, R.M. Song, C. Chen, P.J. Wei, Z.G. Zhu*, Free-standing palladium modified reduced graphene oxide paper based on one-pot co-reduction and its sensing application, Chem. Phys. Lett. 2018, 712: 71-77

8. R.M. Song, Z.H. Li, P.J. Wei, X.L. Zhao, C. Chen, Z.G. Zhu*, Flexible hydrogen peroxide sensors based on platinum modified free-standing reduced graphene oxide paper, Appl. Sci., 2018, 8: 848 

9. Q. Tang, X.B. Hu, M. He, L.L. Xie, Z.G. Zhu*, J.Q. Wu*, Effect of platinum doping on the morphology and sensing performance of CuO based gas sensor, Appl. Sci. 2018, 8: 1091 

10. 二维光子晶体, 陈诚, 董自强, 陈昊文, 陈杨, 朱志刚*, 施惟恒, 化学进展 2018, 30(6): 775-784

11. 潘帅，胡校兵，宋润民，解丽丽，朱志刚*，郑嘹赢，基于醋酸钾溶液体系离子液体辅助合成α-Fe₂O₃纳米微球及其气敏性能研究, 高等学校化学学报 2018, 39(8), 1631-1639

2017年：

1. X.B. Hu, Z.G. Zhu*, C. Chen, T.Y. Wen, X.L. Zhao and L.L. Xie, Highly sensitive H₂S gas sensors based on Pd-doped CuO nanoflowers with low operating temperature, Sensor Actuat. B- Chem., 2017, 253: 809-817

2. C. Chen, X.L. Zhao, Z.H. Li, Z.G. Zhu*, S.H. Qian, A.J. Flewitt, Current and emerging technology for continuous glucose monitoring, Sensors, 2017, 17: 182 (特邀评论文章，被引用122次)

3. J.L. Ruan, C. Chen, J.H. Shen, X.L. Zhao, S.H Qian* and Z.G. Zhu*, A gelated colloidal crystal attached lens for noninvasive continuous monitoring of tear glucose, Polymers, 2017, 9: 125

4. X.L. Zhao, Z.H. Li, C. Chen, Y.H. Wu, Z.G. Zhu*, H.L. Zhao, M.B. Lan*, A novel biomimetic hydrogen peroxide biosensor based on Pt flowers-decorated Fe₃O₄/graphene nanocomposite, Electroanalysis, 2017, 29: 1518-1523 (封面文章)

5. 潘帅，李崭虹，陈杨，赵雪伶，陈诚，朱志刚*, 基于表面重建螺旋型铂铱电极的葡萄糖生物传感器, 高等学校化学学报, 2017, 38: 1163-1170

6. 吴益华、黄婧、吴迪、陈中珍、李丹、朱志刚*、施惟恒，反应时间对CH₃NH₃PbBr₃钙钛矿纳米晶形貌及荧光性能的影响，材料导报，2017, 31 (11): 1-4

2016年以前：

1.   余江渊、李崭虹、陈诚、陈云霞、朱志刚*，血糖监测用植入式传感器的研究进展，生物医学工程学杂志，2016, 33(5): 991-997 

2.  余江渊、朱志刚*、陈诚、李崭虹、陈云霞，基于螺旋型铂铱合金电极的植入式葡萄糖生物传感器，传感技术学报, 2016, 29 (1): 9-14 

3. 蔡丽俊、朱志刚*、余江渊、李崭虹、刘婷玉，面向医疗物联网的便携式连续血糖监测系统研究, 传感技术学报, 2016, 29 (3) pp 343-348  

4. C. Chen, X.L. Zhao, H. Bao, X.W. Liang, Z.G. Zhu*, and Y.H. Zhu*, Polymerized crystalline colloidal array photonic crystal with enhanced mechanical property, Chem. Lett., 2015, 44: 1566-1568

5. C. Chen, Z.G. Zhu*, X.R. Zhu, W. Yu, M.J. Liu, Q.Q. Ge and W.H. Shih, A composite hydrogels-based photonic crystal multi-sensors, Mater. Res. Express, 2015, 2: 046201

6. Z.G. Zhu*, L. Garcia-Gancedo, C. Chen, X.R. Zhu, H.Q. Xie, A.J. Flewitt and W.I. Milne, Enzyme-free glucose biosensor based on low density CNT forest grown directly on a Si/SiO2 substrate, Sensor Actuat. B- Chem., 2013, 178: 586-592 

7. X.R. Zhu, Z.G. Zhu, C. Chen, H.L. Shen and K.Tsukamoto, Hysteresis and vertical anisotropy of magnetoresistance in La0.67A0.33MnOz (A = Ca, Sr) polycrystalline films deposited on amorphous quartz substrates, Ceramics International 2013, 39: 9025-9031

8. Z.G. Zhu*, L. Garcia-Gancedo, A.J. Flewitt, W.I. Milne and F. Moussy, Design of carbon nanotube fiber microelectrode for glucose biosensing, J. Chem. Technol Biotechnol., 2012, 87: 256-262 

9.  Z.G. Zhu*, L. Garcia-Gancedo, A. J. Flewitt, H.Q. Xie, F. Moussy and W.I. Milne, A critical review of glucose biosensors based on carbon nanomaterials: carbon nanotubes and graphene, Sensors, 2012, 12: 5996-6022 (特邀评论文章，ESI高被引论文，被引用350次)

10. L. Garcia-Gancedo, J. Pedro′s, Z.G. Zhu, A.J. Flewitt, W.I. Milne, J.K. Luo and C.J. Ford, Room-temperature remote-plasma sputtering of c-axis oriented zinc oxide thin films, J. Appl. Phys., 2012,  112: 014907

11. L. García-Gancedo, Z.G. Zhu, E. Iborra, M. Clement, J. Olivares, A.J. Flewitt, W.I. Milne and J.K. Luo, AlN-based BAW resonators with CNT electrodes for gravimetric biosensing, Sensor Actuat. B- Chem., 2011, 160: 1386-1393   

12. Z.G. Zhu, W.H. Song*, K. Burugapalli and F. Moussy, Nano-yarn carbon nanotube fiber based enzymatic glucose biosensor, Nanotechnology, 2010, 21: 165501

13. Z.G. Zhu*, G.R. Li, B. Li, Q.R. Yin and K. Jiang, Influence of Yb and Nd substitution on the high-power piezoelectric properties of PMS-PZT ceramics, Ceramics International, 2008, 34: 2067-2072

14.  Z.G. Zhu, N.Z. Zheng, G.R. Li and Q.R. Yin, Dielectric and electrical conductivity properties of PMS–PZT ceramics, J. Am. Ceram. Soc., 2006, 89: 717-719 

15.  Z.G. Zhu, G.R. Li, Z.J. Xu and Q.R. Yin, Effect of PMS modification on dielectric and piezoelectric properties in xPMS-(1-x)PZT ceramics, J. Phys. D: Appl. Phys., 2005, 38: 1464-1469

16. Z.G. Zhu, B.S. Li, G.R. Li and Q.R. Yin, Microstructure and piezoelectric properties of PMS-PZT ceramics, Mater. Sci. Eng. B, 2005, 117: 216-220