王雪

Associate Professor   Supervisor of Master's Candidates

Gender:Male

Alma Mater:中科院大连化学物理研究所

Degree:Doctoral Degree

School/Department:化工海洋与生命学院

Discipline:Environmental Science

Business Address:大连理工大学化工海洋与生命学院D06-304

Contact Information:18342788940

E-Mail:wangxue@dlut.edu.cn


Current position: Home >> Teaching Research

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王雪 博士/副教授/硕士生导师。本科毕业于浙江大学,博士毕业于中国科学院大学(中国科学院大连化学物理研究所),师从陈吉平研究员。一直从事环境污染物快速检测技术方面的研究工作。共发表SCI论文40余篇、授权专利项、主持科研项目4

研究生招生专业:环境科学环境工程

研究方向:环境微纳塑料的分析方法、环境行为和污染控制,主要研究内容包括:1)基于光学和电化学的环境微纳塑料分析技术;2)环境微纳塑料的吸附行为和迁移转化;(3)微纳塑料污染水体的高效修复;

 

主持的科研项目:

[1] 国家自然科学基金青年基金项目.

[2] 大连理工大学基本科研业务费交叉探索科研专题

[3] 工业生态与环境工程教育部重点实验室开放课题

[4] 大连理工大学基本科研业务费人才引进专题

 

已发表论文如下:

  1. Zixuan Zhao, Xuan Zhao, Jiajia Shan, Xue Wang*, Concentration analysis of metal-labeled nanoplastics in different water samples using electrochemistry, Science of the Total Environment, 2024, 907, 168013.

  2. Xue Wang*, Shuang Yang, Xuting Bai, Jiajia Shan, Bimetallic CoCu nanoparticles anchored on COF/SWCNT for electrochemical detection of carbendazim, Science of the Total Environment, 2023, 902, 166530.

  3. Wenzhong Wang, Xuting Bai, Hao Zhou, Jiajia Shan, Xue Wang*,Energy-Efficient, Room-Temperature, and Facile Synthesis of Carbon Quantum Dots from Interstitial Compound TiC for the Selective Detection of Fe(III), ACS Sustainable Chemistry & Engineering, 2023, 11, 38, 14133-14143.

  4. Xue Wang, Xuting Bai, Wenzhong Wang, Zixuan Zhao, Jiajia Shan*, TiO2/Ni–NC Hybrid Derived from Ti3C2TX/NiMOF for Highly Sensitive Electrochemical Sensing of Mercury Ions, Journal of The Electrochemical Society, 2023, 170, 037519

  5. Jiajia Shan*, Tao Ren , Xinjing Li , Mengke Jin , Xue Wang, Study of microplastics as sorbents for rapid detection of multiple antibiotics in water based on SERS technology, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 284 (2023) 121779

  6. Rongyi Gong, Jing Wang, Xue Wang, Yang Liu, Jiajia Shan*,Analysis of microplastics release from rice package in combination with machine learning and hyperspectral imaging technique,Food Packaging and Shelf Life,Volume 39, November 2023, 101152

  7. Jing Wang, Hao Zhou, Xinjing Li, Minghuo Wu, Xue Wang, Jiajia Shan*,Rapid screening of benzyl dodecyl dimethyl ammonium bromide co-metabolic degrading bacteria based on NIR hyperspectral imaging technology,Journal of Hazardous Materials,Volume 456, 15 August 2023, 131708

  8. Pengyu Xiao , Xianliang Yi , Minghuo Wu , Xue Wang , Simeng Zhu , Bixia Gao , Yang Liu , Hao Zhou *. Catalytic performance and periodate activation mechanism of anaerobic sewage sludge-derived biochar, Journal of Hazardous Materials 424 (2022) 127692

  9. Simeng Zhu , Pengyu Xiao , Xue Wang , Yang Liu, Xianliang Yi , Hao Zhou*, Efficient peroxymonosulfate (PMS) activation by visible-light-driven formation of polymorphic amorphous manganese oxides, Journal of Hazardous Materials, 427 (2022) 127938.

  10. Shan, JJ; Li, XJ; Han, SQ; Ren, T; Jin, MK; Wang, X*, Gap-enhance Raman tags (GERTs) competitive immunoassay based Raman imaging for the quantitative detection of trace florfenicol in milk, FOOD CHEMISTRY, 391 (2022) 133233.

  11. Jin, MK; Wang, X; Russel, M; Shan, JJ*, Towards the rapid detection of multiple antibiotics in eggs by Surface-enhanced Raman spectroscopy coupled with hollow fiber micro-extraction, MICROCHEMICAL JOURNAL, 181 (2022) 107743.

  12. Wang, X; Li, MJ; Yang, S; Bai, XT; Shan, JJ*, Self-assembled Ti3C2TX MXene/graphene composite for the electrochemical reduction and detection of p-nitrophenol, MICROCHEMICAL JOURNAL, 179 (2022) 107473.

  13. Wang, X*; Yang, S; Shan, JJ; Bai, XT, Novel Electrochemical Acetylcholinesterase Biosensor Based on Core-Shell Covalent Organic Framework@Multi-Walled Carbon Nanotubes (COF@MWCNTs) Composite for Detection of Malathion, INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE, 17(5) (2022) 220543.

  14. Jin, MK; Shan, JJ*; Wang, X; Ren, T; Li, XJ, Determination of Florfenicol in Antibiotic Mixtures by Solid-Phase Extraction (SPE) and Surface-Enhanced Raman Scattering (SERS), ANALYTICAL LETTERS, 55(4) (2022) 517-528.

  15. Jin, MK; Wang, X; Ren, T; Wang, J; Shan, JJ*, Microplastics contamination in food and beverages: Direct exposure to humans, JOURNAL OF FOOD SCIENCE, 86(7) (2021) 2816-2837.

  16. X. Wang*, Y. R. Shi, J. J. Shan, H. Zhou, M. J. Li, Electrochemical sensor for determination of bisphenol A based on MOF-reduced graphene oxide composites coupled with cetyltrimethylammonium bromide signal amplification, Ionics 26(6) (2020) 3135-3146.

  17.  X. Wang*, M. J. Li, S. Yang, J. J. Shan, A novel electrochemical sensor based on TiO2-Ti3C2Tx/CTAB/chitosan composite for the detection of nitrite, Electrochimica Acta 359 (2020).

  18. J. J. Shan, Y. T. Zhang, J. Wang, T. Ren, M. K. Jin, X. Wang*, Microextraction based on microplastic followed by SERS for on-site detection of hydrophobic organic contaminants, an indicator of seawater pollution, Journal of Hazardous Materials 400 (2020).

  19. J. J. Shan, Y. T. Zhang, J. Liang, X. Wang*, Characterization of the Processing Conditions upon Textural Profile Analysis (TPA) Parameters of Processed Cheese Using Near-Infrared Hyperspectral Imaging, Analytical Letters 53(8) (2020) 1190-1203.

  20. J. J. Shan, J. Wang, J. J. Zhan, L. F. Liu, F. C. Wu, X. Wang*, Sorption behaviors of crude oil on polyethylene microplastics in seawater and digestive tract under simulated real-world conditions, Chemosphere 257 (2020).

  21. Y. T. Zhang, X. Wang, J. J. Shan*, J. B. Zhao, W. Zhang, L. F. Liu, F. C. Wu, Hyperspectral Imaging Based Method for Rapid Detection of Microplastics in the Intestinal Tracts of Fish, Environmental Science & Technology 53(9) (2019) 5151-5158.

  22. M. Wu, X. Wang*, J. J. Shan, H. Zhou, Y. R. Shi, M. J. Li, L. F. Liu, Sensitive and Selective Electrochemical Sensor Based on Molecularly Imprinted Polypyrrole Hybrid Nanocomposites for Tetrabromobisphenol A Detection, Analytical Letters 52(16) (2019) 2506-2523.

  23. X. Wang, J. J. Shan*, S. Q. Han, J. B. Zhao, Y. T. Zhang, Optimization of Fish Quality by Evaluation of Total Volatile Basic Nitrogen (TVB-N) and Texture Profile Analysis (TPA) by Near-Infrared (NIR) Hyperspectral Imaging, Analytical Letters 52(12) (2019) 1845-1859.

  24. X. Wang, M. Russel, Y. W. Zhang, J. B. Zhao, Y. T. Zhang, J. J. Shan*, A Clustering-Based Partial Least Squares Method for Improving the Freshness Prediction Model of Crucian Carps Fillets by Hyperspectral Image Technology, Food Analytical Methods 12(9) (2019) 1988-1997.

  25. J. J. Shan*, J. B. Zhao, Y. T. Zhang, L. F. Liu, F. C. Wu, X. Wang, Simple and rapid detection of microplastics in seawater using hyperspectral imaging technology, Analytica Chimica Acta 1050 (2019) 161-168.

  26. X. Wang*, M. J. Li, M. Wu, Y. R. Shi, J. J. Yang, J. J. Shan, L. F. Liu, Simultaneous Determination of Bisphenol A and Bisphenol S Using Multi-Walled Carbon Nanotubes Modified Electrode, International Journal of Electrochemical Science 13(12) (2018) 11906-11922.

  27. X. Wang*, J. Che, M. Wu, Y. R. Shi, M. J. Li, J. J. Shan, L. F. Liu, The Anti-Fouling Effect of Surfactants and Its Application for Electrochemical Detection of Bisphenol A, Journal of the Electrochemical Society 165(16) (2018) B814-B823.

  28. J. J. Shan*, J. B. Zhao, L. F. Liu, Y. T. Zhang, X. Wang, F. C. Wu, A novel way to rapidly monitor microplastics in soil by hyperspectral imaging technology and chemometrics, Environmental Pollution 238 (2018) 121-129.

  29. J. J. Shan*X. Wang, H. Zhou, S. Q. Han, D. F. Al Riza, N. Kondo, Variable selection based on clustering analysis for improvement of polyphenols prediction in green tea using synchronous fluorescence spectra, Methods and Applications in Fluorescence 6(2) (2018) 8.

  30.  J. J. Shan*X. Wang, M. Russel, J. B. Zhao, Y. T. Zhang, Comparisons of Fish Morphology for Fresh and Frozen-Thawed Crucian Carp Quality Assessment by Hyperspectral Imaging Technology, Food Analytical Methods 11(6) (2018) 1701-1710.

  31. P. P. Qi, J. Wang, Z. W. Wang, X. Wang, X. Y. Wang, X. H. Xu, H. Xu, S. S. Di, H. Zhang, Q. Wang, X. Q. Wang*, Construction of a probe-immobilized molecularly imprinted electrochemical sensor with dual signal amplification of thiol graphene and gold nanoparticles for selective detection of tebuconazole in vegetable and fruit samples, Electrochimica Acta 274 (2018) 406-414.

  32. P. P. Qi, J. Wang, X. Wang, X. Y. Wang, Z. W. Wang, H. Xu, S. S. Di, Q. Wang, X. Q. Wang*, Sensitive determination of fenitrothion in water samples based on an electrochemical sensor layered reduced graphene oxide, molybdenum sulfide (MoS2)-Au and zirconia films, Electrochimica Acta 292 (2018) 667-675.

  33. H. Zhou*, L. Che, X. Y. Guo, X. Wang, J. J. Zhan, M. H. Wu, Y. F. Hu, X. L. Yi, X. W. Zhang, L. F. Liu, Interface modulation of bacteriogenic Ag/AgCl nanoparticles by boosting the catalytic activity for reduction reactions using Co2+ ions, Chemical Communications 53(36) (2017) 4946-4949.

  34. J. J. Shan*X. Wang, M. Russel, J. B. Zhao, Rapid determination of flavonoids in green tea by synchronous fluorescence spectra coupled with chemometrics, Spectroscopy Letters 50(9) (2017) 501-506.

  35. J. J. Shan*X. Wang, S. Q. Han, N. Kondo, Application of Curve Fitting and Wavelength Selection Methods for Determination of Chlorogenic Acid Concentration in Coffee Aqueous Solution by Vis/NIR Spectroscopy, Food Analytical Methods 10(4) (2017) 999-1006.

  36. X. B. Lu#,*X. Wang#, L. D. Wu, L. X. Wu, Dhanjai, L. Fu, Y. Gao, J. P. Chen*, Response Characteristics of Bisphenols on a Metal-Organic Framework-Based Tyrosinase Nanosensor, Acs Applied Materials & Interfaces 8(25) (2016) 16533-16539.

  37. L. D. Wu#, X. B. Lu#,*X. Wang, Y. Song, J. P. Chen*, An electrochemical deoxyribonucleic acid biosensor for rapid genotoxicity screening of chemicals, Analytical Methods 7(8) (2015) 3347-3352.

  38. X. Wang, X. B. Lu*, L. D. Wu, J. P. Chen*, 3D metal-organic framework as highly efficient biosensing platform for ultrasensitive and rapid detection of bisphenol A, Biosensors & Bioelectronics 65 (2015) 295-301.

  39.  X. Wang#, X. B. Lu#,*, L. D. Wu, J. P. Chen, Direct Electrochemical Tyrosinase Biosensor based on Mesoporous Carbon and Co3O4 Nanorods for the Rapid Detection of Phenolic Pollutants, Chemelectrochem 1(4) (2014) 808-816.

  40. X. Wang, X. B. Lu, J. P. Chen*, Development of biosensor technologies for analysis of environmental contaminants, Trends in Environmental Analytical Chemistry 2 (2014) 25-32.

  41. X. B. Lu*X. Wang, J. Jin, Q. Zhang, J. P. Chen*, Electrochemical biosensing platform based on amino acid ionic liquid functionalized graphene for ultrasensitive biosensing applications, Biosensors & Bioelectronics 62 (2014) 134-139.

 

授权专利:

[1] 王雪卢宪波;陈吉平;一种酪氨酸酶电化学生物传感器及其应用;ZL201310239818.4

[2] 卢宪波;王雪;陈吉平;一种制备水相可分散的导电石墨烯分散浆液或固体的方法;ZL201410213914.6

[3] 张议文;杜文强;吴明火;邓付美;王雪;刘广群;柳丽芬;一种分子印迹固相萃取-液质联用检测膝沟藻毒素的分析方法;ZL201610801161.X

[4] 单佳佳; 张怡拓; 赵军波; 王雪; 柳丽芬;一种基于高光谱技术的牡蛎体内微塑料快速检测方法;ZL201810193429.5

[5] 王雪;李梦佳;杨爽;一种用于检测亚硝酸盐的电化学传感器、制备方法及应用;ZL202010770016.6

[6] 王雪;杨爽;单佳佳;白旭婷;检测有机磷农药的电化学酶生物传感器制备方法及应用;ZL202210063399.2