课题组科研主页: https://www.x-mol.com/groups/Yan_Zhengquan

欢迎对分析化学、有机化学、高分子化学与物理或材料化工等相关研究方向爱好、感兴趣的研究生、本科生加入本课题组

严正权，男，曲阜师范大学教授，博士研究生导师，中国化学会高级会员，东华大学（纤维材料改性国家重点实验室）材料科学与工程专业工学博士，新加坡南洋理工大学和香港城市大学博士后；主要从事有机、高分子或超分子、有机-无机杂化光电材料的设计、制备及其在新能源开发、环境污染检测和生物催化等领域上应用研究。以第一作者或通讯作者在国内外知名学术期刊Advanced Functional Materials, Analytical Chemistry, Applied Physics Letters, Chemical Engineering Journal, Journal of Hazardous Materials, ACS Applied Materials Interfaces, Biosensors & Bioelectronics, Journal of Agricultural and Food Chemistry, Food Chemistry, Sensors and Actuators B-Chemical, International Journal of Biological Macromolecules, Environmental Research, Analytica Chimica Acta, Talanta等上发表SCI论文80余篇（中科院SCI二区TOP以上39篇, h-index: 35），申请国家发明专利22项（授权19项，已转化3项）；曾获得“上海市研究生优秀成果(博士学位论文)”、“安徽省大学生挑战杯科技创新竞赛优秀指导教师”；指导学生获得“大学生挑战杯科技创新竞赛”省级一等奖2次、国家三等奖1次，“山东省大学生节能减排社会实践与科技竞赛”二等奖1次和“山东省优秀硕士研究生学位论文”1篇；课题组在研省级以上课题3项（国家自然科学基金面上1项，省级然科学基金面上2项），已完成8项（国家自然科学基金2项，省级基金6项）等。

Ø 联系方式及地址

Email: yanzhq2008@163.com; QQ: 771878011

科研室: 曲阜师范大学综合实验楼528 & 530; Zip Code: 273165

Ø 主要教育与工作经历

2015.12-至今 曲阜师范大学“1361人才工程”岗位，“杏坛”学者，教授，博士研究生导师

2013.04-2014.04香港城市大学，博士后

2012.06-2012.12新加坡南洋理工大学，博士后

2008.03-2011.08 东华大学材料科学与工程学院，攻读并获得材料科学与工程专业工学博士学位

2004.07-2015.12 皖西学院材料与化工学院，讲师、副教授

2001.09-2004.06 安徽师范大学化学与材料科学学院，攻读并获得分析化学专业理学硕士学位

Ø 课题组承担的省级以上自然科学基金

[1] 国家自然科学基金面上项目 (NO: 22276108), 介孔纳米酶构筑及催化信号放大可视监测致癌重金属的研究, 2023.01-2026.12

[2] 国家自然科学基金青年项目 (No: 21806089), 三维石墨烯基光电多元化重金属富集传感器的构建及应用研究, 2019.01-2021.12

[3] 国家自然科学基金面上项目 (No: 21277103), 基于石墨烯协同增强近红外吸收比色传感材料的构筑及应用,  2013.01-2016.12

[4] 山东省自然科学基金面上项目 (No: ZR2025MS139)，基于金属量子点多维纳米酶掌式智能催化传感食品农残污染的研究，2025.10-2028.09

[5] 山东省自然科学基金面上项目 (No: ZR2023MB056), 功能化贵金属量子点及仿酶催化双模式监测食品污染的研究, 2024.01-2026.12

[6] 山东省自然科学基金面上项目 (No: ZR2021MB002), “On-Off-On”仿酶功能化二维金属氧/硫化物的构筑及催化传感应用, 2022.01-2024.12

[7] 山东省自然科学基金面上项目 (No: ZR2018MB038), 生色团功能化三维石墨烯协同增强重金属富集传感光电材料的构筑与应用, 2018.03-2021.12

[8] 山东省自然科学基金项目 (No: ZR2016BQ13), 环糊精-方酸菁-冠醚三元近红外吸收传感材料及其对铅镉汞污染的比色响应研究, 2016.07-2019.06

[9] 安徽省自然科学基金项目 (No: 1508085QB35), 三维石墨烯多孔复合材料及其富集检测与分离水污染物的应用研究, 2015.7-2017.6

[10] 安徽省高校优秀青年人才基金项目 (No: 2011SQRL148), 近红外吸收光电高分子材料及薄膜器件的制备与性能, 2011.01-2012.12

[11] 安徽省教育厅青年项目 (No: 2005jql162), 荧光试剂N-9-吖啶氨基酸及酯的合成、表征和应用, 2005.01~2006.12

Ø 学生培养

[1] 2025年7月, 2025届高分子化学与物理硕士研究生孙硕同学荣获“曲阜师范大学‘圣地英才奖’优秀奖”

[2] 2025年6月, 科研训练本科生宋浛宁和冯磊两位同学的本科毕业论文荣获“曲阜师范大学本科生优秀毕业论文”

[3] 2023年8月, 2023届硕士研究生唐玉莲同学荣获“曲阜师范大学‘圣地英才奖’优秀奖”

[4] 2023年6月, 科研训练本科生苟文馨同学的毕业论文“硫化银功能化氧化石墨烯复合材料的制备及电化学识别重金属汞的应用”荣获“曲阜师范大学本科生优秀毕业论文”

[5] 2023年5月, 大学生（唐玉莲、苟文馨、吕雪、郝俊凯、冯静、孙硕）荣获 第1届山东省大学生节能减排社会实践与科技竞赛 “山东省二等奖”

[6] 2022年12月, 2021届硕士研究生赵齐的毕业论文《贵金属功能二维纳米模拟酶活性材料的构筑及其光/电传感应用》荣获“2022年山东省优秀硕士研究生学位论文”

[7] 2022年6月, 2022届硕士研究生郑晓宇毕业论文《CeO₂/IrO₂功能化2D Co₃O₄复合材料及仿酶催化传感性能的研究》荣获“曲阜师范大学优秀硕士学位论文”

[8] 2022年8月, 2022届硕士研究生郑晓宇同学荣获“曲阜师范大学‘圣地英才奖’优秀奖”

[9] 2021年7月, 2021届硕士研究生赵齐同学荣获“曲阜师范大学‘圣地英才奖’特别奖”（全校文理科各1名）

[10] 2020年6月~2022年6月, 科研训练本科生祁玉基等团队获得 国家级大学生创新课题1项：“壳聚糖基稳定功能化纳米模拟酶的制备及应用研究”

[11] 2020年6月, 科研训练本科生徐心铭同学荣获“曲阜师范大学本科生优秀毕业论文”

[12] 2019年10月, 2018级高分子化学与物理硕士研究生赵齐同学荣获2019年度“研究生国家奖学金”

[13] 2019年05月, 大学生（赵齐、袁华、徐心铭、王晨舒、朱妍婕、孟国庆、唐玉莲、徐云玲）荣获第十六届‘挑战杯’鲁南制药 山东省大学生课外学术科技作品竞赛 “山东省一等奖”

[14] 2019年6月, 科研训练本科生张学忠、邢琳两位同学荣获“曲阜师范大学本科生优秀毕业论文”

[15] 2018年6月, 科研训练本科生朱妍婕等团队获得 山东省大学生创新课题1项：一种近红外生色团功能化石墨烯协同富集传感铁的光电材料构筑及应用研究

[16] 2017年06月, 科研训练本科生邢琳等团队获得 国家级大学生创新课题1项：“多齿偶氮配体功能化环糊精超分子复合材料的构筑及其传感应用研究”

[17] 2014年06月, 科研训练本科生孙鹏等团队获得 国家级大学生创新课题1项：“小型实用太阳能电池的制作”

[18] 2013年10月, 科研训练本科生张亚飞等参加<第十三届“挑战杯”全国大学生课外学术科技作品竞赛>获“国家三等奖”

[19] 2013年05月, 科研训练本科生张亚飞等参加第五届“挑战杯”安徽省大学生课外学术科技作品竞赛获“安徽省一等奖”

Ø 以第一作者或通讯作者发表的中科院SCI二区TOP以上论文

[1] Zhengquan Yan, Hongyao Xu*, Shanyi Guang, Xian Zhao, Weiliu Fan, Xiangyang Liu*, A Convenient Organic-Inorganic Hybrid Approach Toward Highly Stable Squaraine Dyes with Reduced H-Aggregation, Advanced Functional Materials, 2012, 22: 345–352 (中科院SCI一区 自然指数期刊)

[2] Zhengquan Yan*, Yulian Tang, Zhaoran Zhang, Jing Feng, Jukai Hao, Shuo Sun, Meng Li, Yuguang Song*, Wei Dong*, Lei Hu*, Biocompatible folic acid-strengthened Ag-Ir quantum dot nanozyme for cell and plant root imaging of cysteine/stress and multi-channel monitoring of Hg²⁺ and dopamine, Analytical Chemistry, 2024, 96: 4299–4307 (中科院SCI 一区 自然指数期刊)

[3] Gang Wei, Zhengquan Yan,* Jiachan Tian, Gang Zhao, Shanyi Guang,* Hongyao Xu*, Efficient Polymer Pendant Approach toward High Stable Organic Fluorophore for Sensing Ultratrace Hg²⁺ with Improved Biological Compatibility and Cell Permeability, Analytical Chemistry, 2020, 92: 3293–3301 (中科院SCI一区 自然指数期刊)

[4] Zhengquan Yan*, Jing Feng, Xujie Wang, Huitian Zhi, Ruhui Shang, Yingchao Yang, Hanning Song, Baichuan Zhao, Lei Hu*, Bi₂O₃-doped Au-Ag quantum dots with prominent peroxidase-mimic activity for multi-channel response to Hg²⁺ and Ag⁺, Applied Physics Letters, 2025, 127: 063702 (中科院SCI 二区 自然指数期刊)

[5] Junkai Hao, Hanning Song, Shuo Sun, Jing Feng, Hongben Zhang, Xuewan Zhang, Xuejiao Ren, Zhengquan Yan*, Lei Hu*, Ultra-small nano CeO₂/CuO doped carboxylated chitosan fibers for high-performance oxidase-mimic visual monitoring of S²⁻ and Fe²⁺ in agricultural products, Chemical Engineering Journal, 2024, 489: 151432 (中科院SCI 一区)

[6] Qi Zhao,^# Xiaoyu Zheng,^# Lin Xing, Yulian Tang, Xuemei Zhou, Lei Hu, Wenli Yao, Zhengquan Yan*, 2D Co₃O₄ stabilizing Rh nano composites developed for visual sensing bioactive urea and toxic p-aminophenol in practice by synergetic-reinforcing oxidase activity, Journal of Hazardous Materials, 2021, 409: 125019 (中科院SCI一区)

[7] Zhengquan Yan, Hongtao Xue, Karsten Berning, Yun-Wah Lam, Chun-Sing Lee*, Identification of Multifunctional Graphene−Gold Nanocomposite for Environment-Friendly Enriching, Separating, and Detecting Hg²⁺ Simultaneously, ACS Applied Materials & Interfaces, 2014, 6: 22761–22768 (中科院SCI一区)

[8] Guoqing Meng, Fen Long, Zhicheng Zeng, Lingqing Kong, Bicheng Zhao, Jiaqi Yan, Zhengquan Yan*, Naibo Lin*, Silk fibroin based wearable electrochemical sensors with biomimetic enzyme-like activity constructed for durable and on-site healthy monitoring, Biosensors & Bioelectronics, 2023, 228: 115198 (中科院SCI 一区)

[9] Yingchao Yang, Juan Yu, Hanning Song, Chenxi Li, Xujie Wang, Huitian Zhi, Ruhui Shang, Lei Hu*, Wenli Yao, Zhengquan Yan*, Mesoporous Ce/Zn oxide nanospheres with prominent oxidase-like activity for reliable tracking of cartap residue and S²⁻ in agricultural products, Journal of Agricultural and Food Chemistry, 2025, Revised (中科院SCI一区)

[10] Jing Feng, Xiaohan Mei,^# Jiacheng Xie, Sheng Yao, Xujie Wang, Huitian Zhi, Ruhui Shang, Yingchao Yang, Lei Hu*, Zhengquan Yan*, Au-Ag quantum dot nanozyme identified for multi-mode fluorescent, UV-vis and intelligent RGB monitoring and removal of toxic Hg²⁺ and S²⁻ in food samples, Food Chemistry, 2025, 483: 144308 (中科院SCI一区)

[11] Yulian Tang, Wenxin Gou, Xue Lv, Xuemei Zhou, Junkai Hao, Chengjie Sun, Tao Sun, Lei Hu*, Zhengquan Yan*, Convenient colorimetric-fluorescent dual-mode recognition of I⁻ in agricultural products and visual determination of Hg²⁺ in drinking beverages using Ag-Pt bimetal quantum dot nanozyme, Food Chemistry, 2023, 408: 135259 (中科院SCI一区)

[12] Xiaoyu Zheng,^# Lin Xing,^# Xuemei Zhou, Yulian Tang, Zhen Liu, Xueting Zhang, Lei Hu*, Zhengquan Yan*, A high-performance visual minotoring of trace toxic NO₂⁻ and S²⁻ in 100% aqueous based on the superior oxidase-mimic activity of nano CeO₂ strengthened by 2D Co₃O₄ substrate, Sensors and Actuators B, Chemical, 2022, 351: 130887 (中科院SCI一区)

[13] Gang Zhao, Fangfang Song, Gang Wei, Rongliang Wu, Zhengquan Yan*, Fayin Zhang, Shanyi Guang*, Hongyao Xu*, Molecular design for novel sensing materials with self-screening interference effect (SSIE): Reversible recognizing Cu²⁺ in aqueous and biologic samples, Sensors and Actuators B, Chemical, 2019, 286: 163–172 (中科院SCI一区)

[14] Zhengquan Yan*, Xuezhong Zhang, Chen Bao, Hui Tang, Qi Zhao, Lei Hu*, Jinmao You, A novel luminol derivative and its functionalized filter-paper for reversible double-wavelength colorimetric pH detection in fruit juice, Sensors and Actuators B, Chemical, 2018, 262: 869–875 (中科院SCI一区)

[15] Li Nie, Qiang Zhang, Lei Hu, Yuemin Liu, Zhengquan Yan*, Modified hydrazone derivatives for ratiometric and colorimetric F⁻ recognition: Relationship between architectures and performances, Sensors and Actuators B, Chemical, 2017, 245: 314–320 (中科院SCI一区)

[16] Junkai Hao^#, Hanning Song^#, Jing Feng, Shuo Sun, Lisheng Du, Zitong Fan, Fan Deng, Lei Hu*, Wenli Yao, Zhengquan Yan*, Ti-co-Ce oxide decorated chitosan fiber oxidase mimic identified for portable monitoring of S²⁻, CrO₄²⁻ and Fe²⁺ assisted with a smartphone, International Journal of Biological Macromolecules, 2025, 289: 138961 (中科院SCI二区 TOP期刊)

[17] Shuo Sun^#, Xingyu Fu^#, Xu Yang^#, Huitian Zhi, Ruhui Shang, Xujie Wang, Yingchao Yang, Shuhui Zhao, Zhengquan Yan*, Lei Hu*, Zr/Cu bimetal oxide modified poly-β-cyclodextrin peroxidase mimic for potable discrimination of aminophenol isomers and catalytic degradation of methyl red, International Journal of Biological Macromolecules, 2025, 308: 142546 (中科院SCI二区 TOP期刊)

[18] Zhengquan Yan*, Xuemei Zhou, Lingmin Kong, Wenjing Xu, Junkai Hao, Shuo Sun, Jing Feng, Huitian Zhi, Xiao Zhu, Lei Hu*, Spindle-shaped Cu-Ru mesoporous nanospheres with enhanced enzyme-like activity for visual differentiation of toxic o-/m-aminophenol and action mechanisms, Environmental Research, 2023, 239: 117407 (中科院SCI二区 TOP期刊)

[19] Ruhui Shang, Yanjun Han, Huitian Zhi, Xujie Wang, Yingchao Yang, Xiao Zhu*, Lei Hu*, Zhengquan Yan*, Reliable enrichment response and removal of Cr(VI) and S²⁻ using multivalent W-doped Ag quantum dot biomimetic nanozyme, Analytica Chimica Acta, 2025, In press (中科院SCI二区 TOP期刊)

[20] Lei Hu*^,#, Junkai Hao^#, Ruhui Shang, Huitian Zhi, Xujie Wang, Yingchao Yang, Hanning Song, Chenxi Li, Juan Yu, Zhengquan Yan*, Oxidase-mimic Fe-co-Ce oxide embellished chitosan fiber for quantitative degradation of luminol and visual detection of m-aminophenol, Analytica Chimica Acta, 2025, 1370: 344394 (中科院SCI二区 TOP期刊)

[21] Jing Feng^#, Lei Feng^#, Shuo Sun, Xujie Wang, Huitian Zhi, Ruhui Shang, Yingchao Yang, Luyao Wang, Zhengquan Yan*, Lei Hu*, Folic acid capping Bi³⁺-doped Ag quantum dots for enzyme-like dual-mode recognition of toxic S²⁻ and visual sensing of NO₂⁻, Analytica Chimica Acta, 2024, 1319: 342963 (中科院SCI二区 TOP期刊)

[22] Gang Zhao, Gang Wei, Zhengquan Yan*, Bingyuan Guo, Shangyi Gang*, Rongliang Wu, Hongyao Xu*, A multiple fluorescein-based turn-on fluorophore (FHCS) identified for simultaneous determination and living imaging of toxic Al³⁺ and Zn²⁺ by improved Stokes shift, Analytica Chimica Acta, 2020, 1095: 185–196 (中科院SCI二区 TOP期刊)

[23] Shanyi Guang, Jiachan Tian, Gang Wei, Zhengquan Yan*, Hongfei Pan, Jihong Feng*, Hongyao Xu*, A modified fluorescein derivative with improved water-solubility for turn-on fluorescent determination of Hg²⁺ in aqueous and living cells, Talanta, 2017, 170: 89–96 (中科院SCI一区)

[24] Xuwu Xiao, Zhiqiang Wang, Wenli Yao*, Xianfa Rao, Qian Zhang, Shengwen Zhong, Zhengquan Yan*, Nano Sn-SnO_x Embedded in Multichannel Hollow Carbon Nanofibers: Microstructure, Reversible Lithium Storage Property and Mechanism, Applied Surface Science, 2023, 635: 157739 (中科院SCI二区 TOP期刊)

[25] Qi Zhao,^# Wenxin Gou,^# Xueting Zhang, Mengyuan Zhang, Yanru Bu, Lijun Wang, Lei Hu*, Wenli Yao, Zhengquan Yan*, Hg²⁺-activated oxidase-like activity of Ag₂S@graphene oxide nanozyme and its naked-eye monitoring Hg²⁺ application with obvious hyperchromic effect, Applied Surface Science, 2021, 545: 148973 (IF 7.392, SCI一区)

[26] Qi Zhao,^# Xinming Xu,^# Yunling Xu, Kangwei Gongsun, Lei Hu*, Shina Yan, Wenli Yao, Zhengquan Yan*, Synergistically improved electrochemical performance and its practical application of graphene oxide stabilized nano Ag₂S by one-pot homogeneous precipitation, Applied Surface Science, 2020, 501: 144208 (中科院SCI一区)

[27] Zhengquan Yan*, Wenli Yao, Lei Hu, Dandan Liu, Chundong Wang, Chun-Sing Lee*, Progress in the preparation and application of three-dimensional graphene- based porous nanocomposites, Nanoscale, 2015, 7: 5563–5577 (中科院SCI一区)

[28] Qi Zhao, Hua Yuan, Xinming Xu, Lei Hu, Peiwei Gong, Zhengquan Yan*, A D-π-A-π-D organic conjugated molecule with multiple chelating points: Spectral property and its reversible visual sensing Cu²⁺, Dyes and Pigments, 2019, 165: 217–222 (中科院SCI一区)

[29] Zhengquan Yan^#, Gang Wei^#, Shanyi Guang*, Manman Xu, Xia Ren, Rongliang Wu, Gang Zhao, Fuyou Ke, Hongyao Xu*, A multidentate ligand chromophore with rhodamine-triazole-pyridine units and its acting mechanism for dual-mode visual sensing trace Sn²⁺, Dyes and Pigments, 2018, 159: 542–550 (中科院SCI一区)

[30] Zhengquan Yan, Shanyi Guang, Hongyao Xu*, Xiangyang Liu, Quinoline-based azo derivative assembly: Optical limiting property and enhancement mechanism, Dyes and Pigments, 2013, 99: 720–726 (中科院SCI一区)

[31] Jiwen Li, Wenli Yao*, Fangcong Zhang, Xianfa Rao, Qian Zhang, Shengwen Zhong, Hongwei Cheng, Zhengquan Yan*, Porous SnO₂ microsphere and its carbon nanotube hybrids: Controllable preparation, structures and electrochemical performances as anode materials, Electrochimica Acta, 2021, 388: 138582 (中科院SCI二区 TOP期刊)

[32] Wenli Yao*, Yong Liu, Dong Li, Qian Zhang, Shengwen Zhong*, Hongwei Cheng, Zhengquan Yan*, Synergistically Enhanced Electrochemical Performance of Ni-rich Cathode Materials for Lithium-ion Batteries by K and Ti Comodification, Journal of Physical Chemistry C, 2020, 124: 2346–2356 (中科院SCI二区  TOP期刊)

[33] Zhengquan Yan, Shanyi Guang^*, Xinyan Su, Hongyao Xu*, Near-Infrared Absorbing Squaraine Dyes for Solar Cells: Relationship between Architecture and Performance, Journal of Physical Chemistry C, 2012, 116: 8894–8900 (中科院SCI二区 TOP期刊)

[34] Min Sun^#, Xujie Wang^#, Lingwei Bu,^# Yawen Fan, Zihan Guo, Yingying Shan, Xiao Zhu, Lei Hu* and Zhengquan Yan*, An efficient multi-channel UV-vis spectral, fluorescent and RGB method for trace S²⁻ detection in agricultural foods, Journal of Food Composition and Analysis, 2025, 148: 108212 (中科院SCI 二区 TOP期刊)

[35] Rui Xu^#, Suxian Zhang^#, Xiaocai Lv^#, Xuejiao Ren^#, Lingwei Bu, Yaxuan Niu, Lei Hu*, Wenli Yao, Zhengquan Yan*, ZnO-co-CeO₂ decorated chitosan fiber oxidase mimic identified for visual monitoring of NO₂⁻, S²⁻ and Fe²⁺ in food, Journal of Food Composition and Analysis, 2025, 142: 107512 (中科院SCI 二区 TOP期刊)

[36] Junkai Hao, Jing Feng, Shuo Sun, Zhongxiang Cao, Wenjing Xu, Lei Hu*, Wenli Yao, Zhengquan Yan*, Reliable ratiometric colorimetric monitoring of dopamine in practice based on the catalytic signal amplification of nano CeO₂/CuO modified carboxylated chitosan, Chemical Engineering Science, 2024, 295: 120193 (中科院SCI 二区 TOP期刊)

[37] Yulei Zhao*, Xu Liu, Lijun Zheng, Yulan Du, Xinrui Shi, Yunlin Liu, Zhengquan Yan*, Jinmao You*, Yuanye Jiang*, One-Pot Methylenation-Cyclization Employing Two Molecules of CO₂ with Arylamines and Enaminones, Journal of Organic Chemistry, 2020, 85: 912–923 (中科院SCI二区 TOP期刊)

[38] Yong Liu, Wenli Yao*, Chao Lei, Qian Zhang, Shengwen Zhong*, Zhengquan Yan*, Ni-rich Oxide LiNi_0.85Co_0.05Mn_0.1O₂ for Lithium Ion Battery: Effect of Microwave Radiation on Its Morphology and Electrochemical Property, Journal of the Electrochemical Society, 2019, 166: A1300–A1309 (中科院SCI二区 TOP期刊)

[39] Lei Hu, Li Zhang, Yage Zhou, Guoqing Meng, Yang Yu, Wenli Yao*, Zhengquan Yan*, Chitosan-Stabilized Gold Nano Composite Modified Glassy Carbon Electrode for Electrochemical Sensing Trace Hg²⁺ in Practice, Journal of the Electrochemical Society, 2018, 165: B900–B905 (中科院SCI二区 TOP期刊)

Ø 已申请（授权）国家发明专利

[1] 严正权, 孙硕, 付星雨, 胡蕾, 一种CeO₂/ZrO₂@p-β-CD纳米酶及催化可视检测杀螟丹的应用, 专利申请号: 202510190954.1, 专利申请日: 2025.2.20

[2] 胡蕾，宋浛宁，陈长宇，严正权, 一种Ce-Ti双金属氧化物改性壳聚糖的复合材料及其制备方法和应用, 202411156839.4, 专利申请日: 2024.8.22

[3] 严正权, 冯静, 冯磊, 胡蕾, 一种基于Bi³⁺掺杂银量子点仿酶催化双模式检测S²⁻的方法, 专利申请号: 202410880132.1, 专利申请日: 2024.7.2

[4] 严正权，周雪梅，唐玉莲，朱年磊，胡蕾, 一种纺锤形Cu-Ru双金属介孔纳米模拟酶及其制备方法与应用, 专利授权号: ZL202211713644.6, 专利授权日: 2025.02.07

[5] 严正权, 唐玉莲, 周雪梅, 朱年磊, 胡蕾, 一种叶酸稳定银-铂双金属量子点基纳米酶及其制备方法, 专利申请号: 202211086503.6, 专利申请日: 2024.09.06

[6] 严正权, 郑晓宇, 邢琳, 胡蕾, 一种CeO₂@2D Co₃O₄模拟酶及其制备方法与应用, 专利授权号: ZL202110999086.3, 专利授权日: 2023.11.28

[7] 严正权, 邢琳, 郑晓宇, 胡蕾, 一种Ag-CD@GO三元纳米模拟酶及其制备方法与应用, 专利授权号: ZL202110837444.0, 专利授权日: 2023.09.29

[8] 胡蕾, 赵齐, 邢琳, 郑晓宇, 严正权, 一种Pd@NiCo₂O₄双功能纳米仿酶及其制备方法与应用, 专利授权号: ZL202110871003.2, 专利授权日: 2023.09.01

[9] 严正权, 赵齐, 胡蕾, 祁玉基, 一种二维钴氧化物稳定铑纳米模拟酶及其制备方法和应用, 专利授权号: ZL202010791132.6, 专利授权日: 2022.12.16

[10]严正权, 郑晓宇, 邢琳, 赵齐, 童平, 明霞, 岳云霞, 6-位羟丙基取代-β-环糊精功能药辅助剂及其制备方法, 专利授权号: ZL202011602089.0, 专利授权日: 2021.12.15

[11] 严正权, 赵齐, 袁华, 徐心铭, 胡蕾, 一种基于多齿氮杂环三氮唑-偶氮生色团比率比色检测痕量Cu²⁺的方法, 专利授权号: ZL201810411807.2, 专利授权日: 2020.08.28

[12] 严正权, 徐洁, 王聪, 郑宇宇, 李鹏月, 朱妍婕, 聂丽, 胡蕾, 一种多波长比色区分痕量Fe²⁺和Fe³⁺的方法, 专利授权号: ZL201710728574.4, 专利授权日: 2020.02.18

[13] 严正权, 鲍晨, 汤慧, 张学忠, 胡蕾, 一种双波长pH值比色传感材料鲁米诺衍生物及其功能化比色试纸的制作及应用, 专利授权号: ZL201710649131.6, 专利授权日: 2020.01.10（已转化）

[14] 胡蕾, 严正权, 祝宝慧, 张丽, 张洪苓, 郑晓宇, 一种快捷检测、富集与分离重金属汞离子比色试纸的制作及应用新技术, 专利授权号: ZL201710360660.4, 专利授权日: 2019.09.17（已转化）

[15] 胡蕾, 严正权, 温美军, 赵齐, 张学忠, 一种含偶氮生色团多齿配体的合成及其比色法同时检测痕量Ag⁺和Fe³⁺的方法, 专利授权号: ZL201710216806.8, 专利授权日: 2019.09.17（已转化）

[16] 胡蕾, 严正权, 李元臻, 高原, 文佳慧, 一种长波长吸收比色法检测水环境中痕量Fe²⁺的方法, 专利授权号: ZL201710141155.0, 专利授权日: 2019.09.17

[17] 严正权, 胡蕾, 徐光年, 聂丽, 刘丹丹, 张向忠, 一种比色法检测水环境中Fe³⁺含量的新方法, 专利授权号: ZL201410065102.1, 专利授权日: 2016.08.24

[18] 胡蕾, 严正权, 聂丽, 徐光年, 孙鹏, 一种比色法检测、富集与分离水环境重金属Hg²⁺ 的方法, 专利授权号: ZL201310752506.3, 专利授权日: 2016.06.15