唐盛
姓名 | 唐盛 |
性别 | 发明专利4999代写全部资料 |
学校 | 江苏科技大学 |
部门 | 唐盛,教授,科学技术研究院 |
学位 | 唐盛,教授,科学技术研究院 |
学历 | 长山校区18-217 |
职称 | 唐盛,教授,科学技术研究院 |
联系方式 | 【发送到邮箱】 |
邮箱 | 【发送到邮箱】 |
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唐盛 教授 科学技术研究院 个人邮箱: chmts@just.edu.cn 办公地点: 长山校区18-217 通讯地址: 镇江市江苏科技大学 邮政编码: 212100 传真: 您是第23922 位访问者 个人简介 唐盛,教授,博士生导师。现任江苏科技大学科学技术研究院副院长(自然科学处处长),苏州大学材料与化学化工学部副主任(跟岗锻炼),镇江市侨联副主席(兼职),担任江苏省分析测试协会色谱/质谱专业委员会委员,江苏省药学会医药教育与健康促进专业委员会委员,江苏省侨联青年委员会常务委员,镇江市科协委员,全国游憩环境智库专家,镇江市药品安全专家委员会委员。 2007年本科就读于南京大学,期间曾任南大匡亚明学院化学基地班班长,化学化工学院学生会主席,《南大启航》首任主编,代表南京大学参加第八届海峡两岸知识大赛,第十届海外杰青汇中华活动。2011年赴新加坡国立大学攻读化学博士学位,导师Lee Hian Kee教授(新加坡科学院院士、马来西亚科学院院士、英国皇家化学会会士)。2016年于北京大学深圳研究生院及南方科技大学担任访问学者。同年入职江苏科技大学。 主要研究方向为:样品前处理及色谱分析方法学。主持国家自然科学基金面上项目、青年基金等项目10余项;入选江苏省“双创博士”,“青蓝工程”优秀青年骨干教师,江苏科技大学“深蓝团队”、新兴科技创新团队负责人,青年学者计划第二层次培养对象等;近年来,在Anal. Chem.(14篇), Adv. Funct. Mater., TrAC Trends Anal. Chem., Biosens. Bioelectron., Chem. Commun., J. Hazard. Mater., Food Chem.等期刊发表一作/通讯SCI论文60余篇(其中大类一区论文40篇,Nature index期刊16篇,Top期刊53篇,ESI高被引2篇),被引超过2000次,H-index为25。出版译著一部,授权发明专利10项, PCT2项,受邀做国内外学术会议报告30余次(担任第15届亚洲分析科学会议色谱分离分会主席);担任Chinese Chemical Letters,Journal of Chromatography A,International Journal of Analytical Chemistry,Current Analytical Chemistry,Journal of Analysis and Testing,Advances in Sample Preparation,Frontiers in Analytical Science,《分析实验室》,《色谱》等期刊副主编/编委/青年编委/客座编辑。被Elsevier评为2016年杰出审稿人;获江苏省分析测试协会科学技术奖一等奖1项、二等奖2项,指导学生获得中国“互联网+”创新创业大赛国赛银奖2项、铜奖2项,全国生命科学创新创业大赛特等奖1项、一等奖3项。入选2022、2023全球Top2%顶尖科学家年度影响力榜单。担任学术期刊兼职情况:1.《中国化学快报》Chinese Chemical Letters(SCI一区, Top期刊,IF: 9.1)青年编委(2022-2025)2. Journal of Chromatography A(SCI二区, Top期刊,IF: 4.1)Guest Editor(2022-2024)(2023:VSI: Microextraction and Separation in Biosample Analysis)(2024:VSI: Novel Liquids and Materials in Extraction Strategies)3. International Journal of Analytical Chemistry(SCI四区, IF: 1.8)Academic Editor(2021~)4. Journal of Analysis and Testing(EI, ESCI, IF: 4.7)青年编委(2022-2023)5. Advances in Sample Preparation(Elsevier新刊)Early Career Editorial Board Member(2021~)6. JoVE-Journal of Visualized Experiments(SCI四区, IF: 1.2)Guest Editor(2020)7. Frontiers in Analytical Science(Frontiers新刊)Associate Editor(2022~)8. Current Analytical Chemistry(SCI四区, IF: 1.8)Section Editor(2022~)9.《分析试验室》Chinese Journal of Analysis Laboratory(EI,核心期刊)青年编委(2023~)10.《色谱》Chinese Jouranl of Chromatography (核心期刊)青年编委(2023~) 研究方向 研究领域主要围绕样品前处理方法学的创新,及其在环境、生物、食品分析领域的应用。涉及到的方法学核心要素如下:方法学:样品前处理/分离技术,基于功能性材料的微萃取分析方法;仪器设备:基于智能手机平台的分析仪器开发,关注智能手机在光谱学、电化学方向的应用;核心材料:纳米催化材料、吸附剂材料、具有LSPR效应的金银纳米材料;分析物:环境污染物、肿瘤标志物(如核酸等)、食品污染物等 教育经历 2016.04~2016.06, 北京大学深圳研究生院/南方科技大学(化学专业),访问学者2011.08~2016.02, 新加坡国立大学(分析化学专业),理学博士2007.09~2011.07,南京大学(化学专业),理学学士工作经历2016.07~, 江苏科技大学, 讲师/副教授/教授2020~2022,江苏科技大学环境与化学工程学院,副院长2018.08~2019.08, 淮安市金湖县发改委副主任,银涂镇镇委副书记(挂职)2015.03~2016.03, 杭州聚力氢能科技有限公司, 项目总监 课程教学 《化工原理》本科生《专业化学英语》本科生《分析化学》本科生《仪器分析》本科生《Modern analysis and testing technology》硕士留学生《现代分析技术》硕士研究生 科研项目 科研项目主持项目:(1)2023-2026,DNA水凝胶对环境水样中抗生素抗性基因的光动力控温萃取研究,国家自然科学基金面上项目,主持(2)2018-2020,仿细胞结构水滑石材料的合成及其对肽类激素的萃取性能研究,国家自然科学基金青年基金,主持(已结题)(3)2017-2020,磁性LDH@抗体@碳纳米管/磷脂分子膜多级材料的合成及其对肽类抗生素的萃取性能研究,江苏省自然科学基金青年基金,主持 (已结题)(4)2017-2020,多层水滑石材料的合成及其对肽类激素的萃取性能研究,江苏省高校自然科学研究面上项目,主持(已结题)(5)2018-2021, 工业涂装行业中VOCs吸附催化降解关键材料研究,江苏省留学回国人员创新创业项目,主持(已结题)(6)2020-2023,信号源置换结合DSN循环增敏策略用于抗生素药物中杂质精准检测的HPLC方法研究,国家药品监督管理局化学药品杂质谱研究重点实验室开放课题,主持(7)2017-2020,以具有催化活性水滑石材料为吸附剂的选择性萃取及催化分析,江苏科技大学引进人才启动基金,主持 (已结题)(8)2018-2020,海水污染物监测及吸附降解,江苏科技大学科技创新团队项目,负责人(已结题)(9)2020-2022,药品前处理萃取材料的研发,江苏省食品药品监督检验研究院委托项目,主持(10)2021-2022,江苏省政策引导类计划,主持(11)2022-2024,科技部xxx计划,主持(12)2022-2023,基于智能手机的便携式电化学工作站的研制,江苏科技大学自制实验教学仪器设备项目,主持(13)2022-2025,海洋环境污染处理及分析检测,江苏科技大学“深蓝团队”项目,负责人参与项目:(1)2017-2020,基于等温循环信号放大的多通路同时检测多种微RNA的分析方法,20万,国家自然科学基金青年基金,参与(2)2011-2017,Advanced methodologies for assessing occurrences of contaminants of emerging concern in water,S$4,685,207,National Research Foundation, Singapore/Environment and Water Industry Programme Office/Public Utilities Board,参与(3)2011-2013,Onsite microscale sample preparation of aqueous matrices for the determination of environmental contaminants particularly pharmaceuticals and personal care products by gas and liquid chromatography/mass spectrometry,S$1,344,600,National Research Foundation, Singapore/Environment and Water Industry Programme Office/Public Utilities Board,参与(4)2018-2019,船舶涂装行业VOCs治理关键技术研究,18万,江苏科技大学海洋装备研究院资助项目,参与(5)2017-2019,基于导电高分子功能化金属丝SPME的食品中磺胺类抗生素残留高效分析技术研究,25万,镇江市重点研发计划(社会发展)项目,参与(6)2019-2021,VOCs吸附及催化降解材料研发,14万,江苏远东环保工程有限责任公司委托项目,参与教研项目(1)2022-2024,化学基础微专业、辅修专业相关人才培养方案的制定与教学实践,校本科教育教学改革研究课题(一般资助),主持人才项目(1)江苏省“双创博士”(已结题)(2)江苏高校“青蓝工程”优秀青年骨干教师(3)江苏科技大学“青年学者计划”第二层次资助对象(已结题,优秀)(4)镇江市科协青年人才托举项目(已结题) 专利成果 授权发明专利(1)唐盛;孙俊;李亚拿;沈薇;祁桐;毛威;刘凯;朱安妮;许孟媛;许孟婵,一种具有类过氧化物酶特性的氧化锡锑纳米颗粒及其制备方法和应用,2018-8-29, 中国, ZL201810993299.3.(2)沈薇;李亚拿;祁桐;唐盛;孙俊;朱安妮;许孟婵;许孟媛;吴天韵,一种基于脱氧核酶修饰的磁珠颗粒用于锌离子检测的荧光方法,2018-8-14,中国,ZL201810920626.2(3)李亚拿; 唐盛; 孙俊; 一种具有类芬顿光催化特性的氧化锡锑水凝胶及其制备方法和应用,2018-11-19,中国,ZL201811377040.2.(4)唐盛; 祁桐;许孟婵; 许孟媛; 朱安妮; 沈薇; 一种利用顶空单滴液相微萃取法和智能设备比色测定硫化氢的方法, 2019-3-18, 中国, ZL201910201539.6.(5)沈薇 , 祁桐 , 宋畅 , 何静 , 唐良秀 , 唐盛 , 何万娇 , 姚瑶; 一种基于DSN循环扩增技术对多种microRNA同时进行检测的液相色谱法,2020-2-7,中国,ZL202010082179.5(6)陈吉森 , 唐盛 , 颜亮 , 沈薇 , 宋畅 , 徐佳丽 , 于贵军 , 谢奕文;一种基于金银纳米星刻蚀的智能手机紫外检测SO2的方法,2021-8-9,中国,ZL202110906907.4(7)孔德昭 , 鞠嘉和 , 卢勇莉 , 唐盛 , 沈薇;一种黄曲霉毒素磁性多重增敏传感器及其制备与应用,2021-4-19,中国,ZL202110418747.9(8)唐盛 , 许孟婵 , 宋畅 , 姜依依 , 刘畅 , 鞠嘉和 , 陈一桐;一种针头取样-微萃取-催化显色检测生物胺的方法,2021-4-29,中国,ZL202110423009.3(9)陈天瑜,毛威,潘玉泉,唐盛,沈薇,曾学民,王丽娜,马正言;一种人工单细胞结构材料及其制备方法和应用 ,2021-4-23,中国,ZL 202110440578.9 科研团队 1 本科生 2 毕业研究生 获奖动态 2023 全球Top 2%顶尖科学家年度影响力榜单 2023 江苏科技大学校级优秀研究生、优秀硕士学位论文(指导教师) 2023 iCAN大学生创新创业大赛江浙赛区选拔赛二等奖2项 (指导教师2/2) 2023 “双良杯”第三届江苏省大学生节能减排社会实践与科技竞赛二等奖 (指导教师2/2) 2023 “兆易创新杯”第十八届中国研究生电子设计竞赛三等奖(指导教师1/2) 2023 全国大学生生命科学创新创业大赛一等奖(指导教师2/3) 2023 全国大学生生命科学创新创业大赛二等奖(指导教师1/3)2022 江苏省分析测试协会科学技术奖一等奖(1/7)2022 江苏省分析测试协会科学技术奖二等奖(4/10)2022 全球Top 2%顶尖科学家年度影响力榜单2022 第八届 “互联网+”大学生创新创业大赛国赛银奖(指导教师2/4)2022 “兆易创新杯”第十七届中国研究生电子设计竞赛三等奖(指导教师2/3)2022 第一届中国研究生“双碳”创新与创意大赛全国三等奖(指导教师2/3)2022 第七届全国大学生生命科学创新创业大赛二等奖(指导老师1/3)2022 第七届全国大学生生命科学创新创业大赛三等奖(指导老师2/3)2022 江苏省优秀专业学位硕士学位论文(指导教师)2022 江苏科技大学研究生教学成果奖一等奖(6/10)2022 江苏科技大学“2021-2022学年教学优秀奖”2022 江苏科技大学校级优秀研究生、优秀硕士学位论文(指导教师)2021 全国大学生生命科学创新创业大赛一等奖(指导教师1/3)2021 第七届 “互联网+”大学生创新创业大赛国赛银奖(指导教师1/3)2021 第七届 “互联网+”大学生创新创业大赛国赛铜奖(指导教师2/3)2021 第七届 “互联网+”大学生创新创业大赛江苏省一等奖(指导教师2/3)2021 “科创江苏”创新创业大赛决赛(生命科学领域,创业组三等奖)2021 第二届全国大学生化学实验创新设计大赛“微瑞杯”华东赛区三等奖(指导教师2/3)2021 镇江市科技论文一等奖(1/1)2021 江苏科技大学教学成果奖一等奖(12/15)2021 江苏科技大学“2020-2021学年教学优秀奖”2021 江苏科技大学校级本科生优秀毕业论文(指导教师)2020 第六届 “互联网+”大学生创新创业大赛国赛铜奖(指导教师1/1)2020 江苏科技大学“2019-2020学年教学优秀奖”2020 江苏省科协青年会员(化学化工领域)创新创业大赛一等奖(1/8)2020 江苏省分析测试协会科学技术奖二等奖(2/5)2020 第六届“互联网+”大学生创新创业大赛江苏省三等奖(指导教师1/2)2020 全国大学生生命科学创新创业大赛一等奖(指导教师1/2)2020 江苏科技大学校级优秀研究生、优秀硕士学位论文(指导教师)2020 江苏科技大学校级本科生优秀毕业论文(指导教师)2019 全国大学生生命科学创新创业大赛一等奖(指导教师1/2)2018 江苏科技大学研究生学术论坛一等奖(指导教师)2018 江苏科技大学校级优秀研究生、优秀硕士学位论文(指导教师)2018 江苏科技大学校级本科生优秀毕业论文(指导教师)2018 江苏科技大学校级本科生优秀毕业论文(指导教师)2018 江苏科技大学环境与化学工程学院讲课比赛三等奖2017 江苏科技大学校级本科生优秀毕业论文(指导教师)2017 江苏科技大学优秀寝室班主任2016 Elsevier(爱思唯尔)国际出版社 Outstanding reviewer (杰出审稿人)2007-2011(本科期间)江苏省优秀学生干部、南京大学优秀毕业生、南京大学优秀学生会干部标兵、南京大学优秀团干部、 “杨振宁”奖学金、“上海和氏璧”奖学金、“PPG-泰达”奖学金、南京大学社会工作一等奖学金(2008,2009,2010) 教学随笔 论文著作 代表作(一作或通讯)2024年[64]Ma Ziyu, Xu Junjie, Hou Weilin, Lei Zi, Li Tingting, Shen Wei*, Yu Hui*, Liu Chang, Zhang Jinghui, Tang Sheng*, Single Nucleotide Polymorphisms Detection of Circulating Tumor DNA by Strand Displacement Amplification Coupled with Liquid Chromatography, Analytical Chemistry, 96 (2024) 5195-5204 (SCI 一区, IF: 7.4, Top期刊)[63]Chen Wenhui, Mao Wei, Yin Yuqi, Ma Ziyu, Song Meiqi, Ma Zixiao, Li Tingting, Zhu Jia, Liu Chang, Yu Hui, Tang Sheng*, Shen Wei*, Endogenous H2S-activated Ag nanoparticle embedded in programmed DNA-cube for specific visualization of colorectal cancer cells, Chemical Commnunications, (2024) Accepted (SCI 二区, IF: 4.9, Top期刊)[62]Hou Weilin, Mao Wei, Yu Dasong, Pan Yuquan, Shen Wei*, Zhang Jinghui, Kong Dezhao, Zang Linlin, Dai Hongliang, Yang Fu, Lee Hian Kee*, Tang Sheng*, Photo-crosslinked hydrogel as a sensing platform for sensitive detection of free bilirubin in urine samples , Sensors and Actuators B: Chemical, (2024) 135663 (SCI 一区, IF: 8.4, Top期刊)[61]Zeng Xuemin, Wang Lina, Liu Chang*, Zhang Jinghui, Shi Hai-Wei, Shen Wei*, Kong Dezhao, Huang Cheng, Lee Hian Kee, Tang Sheng*, An integrated liposome-based microfluidic strategy for rapid colorimetric analysis: A case study of microRNA-21 detection , Talanta, 272 (2024) 125838 (SCI 一区, IF: 6.1, Top期刊)[60]Kong Dezhao, Chen Yitong, Gu Yidan, Ding Chao, Liu Chang, Shen Wei, Lee Hian Kee, Tang Sheng*, Sensitive fluorescence detection based on dimeric G-quadruplex combined with enzyme-assisted solid-phase microextraction of streptomycin in honey, Food Chemistry, 442 (2024) 138505 (SCI 一区, IF: 8.8, Top期刊)[59]Song Chang, Ma Ziyu, Zhang Mengyu, Liu Chang*, Tang Sheng*, Zhang Jinghui, Song Juan, Yu Hui, Lee Hian Kee, Shen Wei*, Multiplex detection of single nucleotide polymorphisms by liquid chromatography for non-small cell lung cancer staging, Analytical Chemistry, 96 (2024) 1054-1063 (SCI 一区, IF: 7.4, Top期刊)[58]Wang Lina, Chen Tianyu, Cui Yanjuan*, Wu Junwen, Zhou Xueyan, Liu Zhiqiang, Mao Wei, Zeng Xuemin, Shen* Wei, Liu Chang, Zhu Jia, Song Juan, Peng Luming, Zheng Sitong, Shi Hai-Wei, Tang Sheng*, Rational design of environmentally friendly carbon nanotube embedded artificial vesicle-structured photocatalysts for organic pollutants degradation, Advanced Functional Materials, (2024) 2313653 (SCI 一区, IF: 19, Top期刊)[57]Liu Zhiqiang, Gao Qiang*, Shen Wei, Xu Meifeng, Li Yunxin, Hou Weilin, Shi Hai-Wei, Yuan Yaozuo, Adams Erwin, Lee Hian Kee*, Tang Sheng*, Removal and fluorescence detection of antibiotics from wastewater by layered double oxides/metal-organic frameworks with different topological configurations, Chinese Chemical Letters, (2024) 109338 (SCI 一区, IF: 9.1, Top期刊)[56]Li Yunxin, Zhang Jinghui*, Chen Jisen, Zhu Feng*, Liu Zhiqiang, Bao Peng, Shen Wei, Tang Sheng*, Detection of SARS-CoV-2 based on artificial intelligence-assisted smartphone: A review, Chinese Chemical Letters, (2024) 109220 (SCI 一区, IF: 9.1, Top期刊)2023年[55]Zhuang Yao, Tang Sheng*, Shen Wei, Yang Fu, Lee Hian Kee*, Recent progress of graphene aerogel as sorbent in solid-phase extraction: A review, TrAC Trends in Analytical Chemistry, 168 (2023) 117352 (SCI 一区, IF: 13.1, Top期刊)[54]Wang Lina, Zeng Xuemin, Shen Wei*, Tang Sheng*, Lee Hian Kee*, Applications of vesicle-based artificial cells in analytical chemistry: A review, TrAC Trends in Analytical Chemistry, 168 (2023) 117343 (SCI 一区, IF: 13.1, Top期刊)[53]Chen Wenhui, Mao Wei, Liu Zhiqiang, Hou Weilin, Kumar Naresh, Sun Jun, Cai Xingwei, Huang Cheng, Shen Wei, Yang Fu, Cui Yanjuan, Lee Hian Kee*, Tang Sheng*, Photocatalytic degradation of bisphenol A by temperature-sensitive magnetic hydrogel with enhanced service life, Journal of Hazardous Materials, 459 (2023) 132188 (SCI 一区, IF: 13.6, Top期刊)[52]Yin Yuqi, Yao Yao, Qin Yaohua, Liu Chang*, Zhang Mengyu, Shi Haiwei, Yuan Yaozuo, Adams Erwin, Shen Wei*, Tang Sheng*, Enhanced colorimetric strategy: Aptamer-triggered assembly of Ni-Fe layered double oxide/DNA networks for ultrasensitive detection of chloramphenicol, Journal of Food Composition and Analysis, 123 (2023) 105513 (SCI 二区, IF: 4.3)[51]Chai Yaqian, Huang Cheng*, Sui Mengya, Yin Yuqi, Sun Nan, Liao Zhiming, Sun Xiuyun, Shen Wei*, Tang Sheng*, Fe-loaded alginate hydrogel beads activating peroxymonosulfate for enhancing anaerobic fermentation of waste activated sludge: Performance and potential mechanism, Journal of Environmental Management, 341 (2023) 118079 (SCI 二区, IF: 8.910, Top期刊)[50]Chen Wenhui, Li Tingting, Chen Chengbo, Zhang Jinghui, Ma Ziyu, Hou Weilin, Yao Yao, Mao Wei, Liu Chang, Kong Dezhao,Tang Sheng*, Shen Wei*, Three-dimensional ordered DNA network constructed by a biomarker pair for accurate monitoring of colorectal cancer, Biosensors and Bioelectronics, 232 (2023) 115335 (SCI 一区, IF: 12.545, Top期刊)[49]Zhu Qi, Liu Chang, Tang Sheng*, Shen Wei, Lee Hian Kee*, Application of three dimensional-printed devices in extraction technologies, Journal of Chromatography A, 1697 (2023) 463987 (SCI 二区, IF: 4.601, Top期刊)[48]Yang Yizhuo, Xu Fang, Chen Jisen, Tao Chunxu, Li Yunxin, Chen Quansheng, Tang Sheng*, Lee Hian Kee*, Shen Wei*, Artificial intelligence-assisted smartphone-based sensing for bioanalytical applications: A review, Biosensors and Bioelectronics, 229 (2023) 115233 (SCI 一区, IF: 12.545, Top期刊)[47]Kuang Jingyu, Wang Lina, Yin Yuqi, Shen Wei*, Liu Chang, Lee Hian Kee*, Tang Sheng*, Spatial confinement of single-drop system to enhance aggregation-induced emission for detection of microRNAs, Analytical Chemistry, 95 (2023) 5346-5353 (SCI 一区, IF: 8.008, Top期刊)[46]Kuang Jingyu, Ju Jiahe, Lu Yongli, Chen Yitong, Liu Chang, Kong Dezhao*, Shen Wei*, Shi Haiwei, Li Li, Ye Jin, Tang Sheng*, Magnetic three-phase single-drop microextraction for highly sensitive detection of aflatoxin B1 in agricultural product samples based on peroxidase-like spatial network structure, Food Chemistry, 416 (2023) 135856 (SCI 一区, IF: 9.231, Top期刊)[45]Song Chang, Liu Chang*, Chen Jisen, Ma Ziyu, Tang Sheng*, Pan Ruirong, Suo Xiaocen, Yan Zuowei, Lee Hian Kee, Shen Wei*, Self-generation of distinguishable fluorescent probes via one-pot process for multiple microRNA detection by liquid chromatography, Analytical Chemistry, 95 (2023) 4113-4121 (SCI 一区, IF: 8.008, Top期刊)[44]Mao Wei, Cai Xingwei, Pan Ruirong, Tang Sheng*, Yang Fu, Cui Yanjuan, Sun Jun*, Shen Wei*, Light-enhanced transparent hydrogel for uric acid and glucose detection by four different analytical platforms, Analytica Chimica Acta, 1239 (2023) 340717 (SCI 二区, IF: 6.558, Top期刊)[43]Ju Jiahe, Chen Yitong, Liu Zhiqiang, Huang Cheng, Li Yaqi, Kong Dezhao*, Shen Wei, Tang Sheng*, Modification and application of Fe3O4 nanozymes in analytical chemistry: A review, Chinese Chemical Letters, 34 (2023) 107820 (SCI 一区, IF: 8.455)2022年[42]Wang Lina, Zhang Jinghui, Shen Wei*, Zeng Xuemin, Lee Hian Kee*, Tang Sheng*, Can direct-immersion aqueous-aqueous microextraction be achieved when using a single-drop system? Analytical Chemistry, 94 (2022) 12538-12545 (SCI 一区, IF: 8.008, Top期刊)[41]Song Chang, Liu Chang, Ma Ziyu, Pan Ruirong, Shi Haiwei, Kong Dezhao, Zhang Jinhui, Shen Wei, Tang Sheng*, Detection of four biogenic amines by liquid chromatography based on aptamer signal replacement combined with cyclic amplification, Chinese Journal of Chromatography, 40 (2022) 1014-1021 (国内期刊)[40]He Jing, Mao Wei, Chen Wenhui, Shen Wei*, Duan Qiaolian, Shi Haiwei, Tan Li, Kuang Jingyu, Lee Hian Kee*, Tang Sheng*, Three-dimensional printed microdevice to enhance headspace microextraction for enrichment of histamine in milk, Analytical Chemistry, 94 (2022) 10595-10600 (SCI 一区, IF: 8.008, Top期刊)[39]Bagheri Ahmad Reza, Aramesh Nahal, Liu Zhiqiang, Chen Chengbo, Shen Wei*, Tang Sheng*, Recent advances in the application of covalent organic frameworks in extraction: A review, Critical Reviews in Analytical Chemistry, (2022) Accepted (SCI 二区, IF: 6.535)[38]Duan Qiaolian, Shi Haiwei*, Tan Li, Liu Zhen, Huang Qing, Shen Wei, Cao Ling, Lee Hian Kee*, Tang Sheng*, Ultra-high-performance supercritical fluid chromatography and detection of multiple biogenic amines in gentamicin sulfate: method development using computer-assisted modeling, Analytical Chemistry, 94 (2022) 7229-7237 (SCI 一区, IF: 6.986, Top期刊)[37]Yao Yao, Hu Tao, Chai Yaqian, Ju Jiahe, Zhang Jinghui*, Shen Wei*, Shi Haiwei, Liu Chang, Huang Cheng, Tang Sheng*, A rapid "cusp-covering" to Au nanostar as plasmonic sensor in a single-drop microreactor for the determination of kanamycin in biosamples, Sensors and Actuators B: Chemical, 366 (2022) 131993 (SCI 一区, IF: 7.460, Top期刊)[36]Bagheri Ahmad Reza, Aramesh Nahal, Chen Jisen, Liu Wenning, Shen Wei, Tang Sheng*, Lee Hian Kee*, Polyoxometalate-based materials in extraction, and electrochemical and optical detection methods: A review, Analytica Chimica Acta, 1209 (2022) 339509 (SCI 一区, IF: 6.558, Top期刊)[35]Yao Yao, Kuang Jingyu, Ju Jiahe, Hu Tao, Shen Wei*, Tang Sheng*, Liu Chang, Kong Dezhao, Shi Haiwei, Lee Hian Kee*, Solvent-free magnetic-tip microextraction into a single drop for fluorescence sensing, Sensors and Actuators B: Chemical, 352 (2022) 131044 (SCI 一区, IF: 7.460, Top期刊)2021年[34]Yao Yao, Hu Tao, Song Chang, Liu Chang*, Kong Dezhao, Huang Cheng, Zhu Jia, Shen Wei*, Shi Haiwei, Tang Sheng*, Multiply-amplified strategy for the ultrasensitive detection of kanamycin via aptamer-triggered three-dimensional G-quadruplex/Ni-Fe layered double oxide frame networks, Analytica Chimica Acta, 1187 (2021) 339169 (SCI 二区, IF: 6.558, Top期刊)[33]Yao Yao, Xue Mingliang, Mao Wei, Li Yana, Zhu Anni, Chen Tianyu, Shen Wei*, Liu Chang*, Chen Lizhuang, Tang Sheng*, Ni/Fe layered double hydroxide nanosheet/G-quadruplex as a new complex DNAzyme with highly enhanced peroxidase-mimic activity, Analyst, 146 (2021) 6470-6473 (SCI, 二区, IF: 4.616)[32]Xue Mingliang, Mao Wei, Chen Jisen, Zheng Fenfen*, Chen Wenhui, Shen Wei*, Tang Sheng*, Application of Au or Ag nanomaterials for colorimetric detection of glucose, Analyst, 146 (2021) 6726-6740 (SCI, 二区, IF: 4.616)[31]Kong Dezhao, Zhao Jun, Tang Sheng*, Shen Wei, Lee Hian Kee*, Logarithmic data processing can be used justifiably in plotting of calibration curve, Analytical Chemistry, 93 (2021) 36, 12156-12161(SCI 一区, IF: 6.986, Top期刊)[30]Yao Yao, Chen Tianyu, Mao Wei, Zhong Yi, Dai Shuaishuai, Zeng Xuemin, Liu Chang, Tang Sheng*, Qiao Fen, Shi Er, Shen Wei*, Lee Hian Kee*, Three-dimensional DNA/Ni-Fe layered double oxide frame networks-induced “cusp-exposure” of Au@Ag nanostars for ultrasensitive determination of kanamycin, Sensors and Actuators B: Chemical, 343 (2021) 130082 (SCI 一区, IF: 7.460, Top期刊)[29]Xu Mengchan, Mao Wei, Hu Tao, Xu Mengyuan, Cai Xingwei, Shen Wei, Tang Sheng*, Shi Haiwei, Tan Li, Liu Chang*, Three-in-one via syringe needle-based device: sampling, microextraction and peroxidase-like catalysis for colorimetric detection of the change of biogenic amines levels with time in meat, Food Chemistry, 358 (2021) 129900 (SCI 一区, IF: 7.514, Top期刊)[28]Song Chang, Chen Wenhui, Kuang Jingyu, Yao Yao, Tang Sheng*, Zhao Ze, Guo Xijie, Shen Wei*, Lee Hian Kee*, Recent Advances in the detection of multiple microRNAs, TrAC Trends in Analytical Chemistry, 139 (2021) 116269 (SCI 一区, IF: 12.296, Top期刊)[27]Chen Wenhui, Yao Yao, Chen Tianyu, Shen Wei, Tang Sheng*, Lee Hian Kee*, Application of smartphone-based spectroscopy to biosample analysis: A review, Biosensors and Bioelectronics, 172 (2021) 112788 (SCI 一区, IF: 10.618, Top期刊, ESI 高被引)[26]Qi Tong, Song Chang, Chen Wenhui, Tang Liangxiu, Ju Jiahe, Shen Wei, Kong Dezhao, Tang Sheng*, Duplex specific nuclease-enabled isothermal signal amplification combined with high-performance liquid chromatography for highly sensitive detection of dual-target microRNAs as disease biomarkers, Chinese Journal of Analytical Chemistry, 49 (2021) 216-225 (SCI 三区, 国内期刊)2020年[25]Deng Huimin*, Ji Yuan, Tang Sheng*, Yang Fei, Tang Ganglin, Shi Haiwei, Lee Hian Kee*, Application of chiral and achiral supercritical fluid chromatography in pesticide analysis: A review, Journal of Chromatography A, 1634 (2020) 461684 (SCI 二区, IF: 4.0, Top期刊)[24]Tang Sheng*, Qi Tong, Yao Yao, Tang Liangxiu, Chen Wenhui, Chen Tianyu, Shen Wei, Kong Dezhao, Shi Haiwei, Liu Tianlong, Lee Hian Kee*, Magnetic three-phase single-drop microextraction for rapid amplification of the signals of DNA and microRNA analysis, Analytical Chemistry, 92 (2020) 12290-12296 (SCI 一区, IF: 6.8, Top期刊)[23]Qi Tong, Xu Mengyuan, Yao Yao, Chen Wenhui, Xu Mengchan, Tang Sheng*, Shen Wei, Kong Dezhao, Shi Haiwei, Lee Hian Kee*, Gold nanoprism/Tollens' reagent complex as plasmonic sensor in headspace single-drop microextraction for colorimetric detection of formaldehyde in food samples using smartphone readout, Talanta, 220 (2020) 121388 (SCI 二区, IF: 5.4, Top期刊)Featured Article 封面文章[22]Qi Tong, Song Chang, He Jing, Shen Wei*, Kong Dezhao, Shi Haiwei, Tan Li, Pan Ruirong, Tang Sheng*, Lee Hian Kee*, Highly sensitive detection of multiple microRNAs by high-performance liquid chromatography coupled with long and short probe-based recycling amplification, Analytical Chemistry, 92 (2020) 5033-5040 (SCI 一区, IF: 6.3, Top期刊)[21]Tegladza Isaac Delove, Qi Tong, Chen Tianyu, Alorku Kingdom, Tang Sheng*, Shen Wei*, Kong Dezhao, Yuan Aihua, Liu Jianfeng, Lee Hian Kee*, Direct immersion single-drop microextraction of semi-volatile organic compounds in environmental samples: A review, Journal of Hazardous Materials, 393 (2020) 122403 (SCI一区, IF: 7.7, Top期刊)[20]Tang Sheng*, Yao Yao, Chen Tianyu, Kong Dezhao, Shen Wei, Lee Hian Kee, Recent advances in the application of layered double hydroxides in analytical chemistry: A review, Analytica Chimica Acta, 1103 (2020) 32-48. Invited review (SCI二区, IF: 5.4, Top期刊)2019年[19]Tang Sheng*, Xia Dasha, Yao Yao, Chen Tianyu, Sun Jun, Yin Yijie, Shen Wei, Peng Yinxian, Dye adsorption by self-recoverable, adjustable amphiphilic graphene aerogel, Journal of Colloid and Interface Science, 554 (2019) 682-691 (SCI一区, IF: 6.4, Top期刊)[18]Tang Sheng*, Li Yana, Zhu Anni, Yao Yao, Sun Jun, Zheng Fenfen, Lin Zixia, Shen Wei*, A triple-amplification strategy based on the formation of peroxidase-like two dimensional DNA/Fe3O4 networks initiated by hybridization chain reaction for highly sensitive detection of microRNA, Chemical Communications, 55 (2019) 8386-8389 (SCI一区, IF: 6.3, Top期刊) Back Cover[17]Li Yana, Sun Jun, Mao Wei, Tang Sheng*, Liu Kai, Qi Tong, Deng Huimin, Shen Wei*, Chen Lizhuang, Peng Luming*, Antimony doped tin oxide nanoparticles as peroxidase mimics for paper-based colorimetric detection of glucose using smartphone read-out, Microchimica Acta, 186 (2019) 403 (SCI二区, IF: 5.7)[16]Tang Sheng*, Qi Tong, Xia Dasha, Xu Mengchan, Xu Mengyuan, Zhu Anni, Shen Wei, Lee Hian Kee*, Smartphone nanocolorimetric determination of hydrogen sulfide in biosamples after silver-gold core-shell nanoprism-based headspace single-drop microextraction, Analytical Chemistry, 91 (2019) 5888-5895 (SCI 一区, IF: 6.3, Top期刊)[15]Deng Huimin, Tang Gangling, Fan Ziyan, Liu Shanshan, Li Zhonghao, Wang Ying, Bian Zhaoyang, Shen Wei, Tang Sheng*, Yang Fei*, Use of autoclave extraction-supercritical fluid chromatography/tandem mass spectrometry to analyze 4-(methylintrosamino)-1-(3-pyridyl)-1-butanone and N'-nitrosonornicotine in tobacco, Journal of Chromatography A, 1595(2019) 207-214 (SCI 二区, IF: 3.7, Top期刊)[14]Tang Sheng*, Sun Jun, Xia Dasha, Zang Bin, Gao Yuhua, Chen Chuanxiang*, Shen Wei, Lee Hian Kee*, In-syringe extraction using compressible and self-recoverable, amphiphilic graphene aerogel as sorbent for determination of phenols. Talanta, 195(2019) 165-172 (SCI二区, IF: 4.2, Top期刊)2018年[13]Tang Sheng, Qi Tong, Ansah Prince Dim, Nalouzebi Fouemina Juliette Chancellevie, Shen Wei, Basheer Chanbasha, Lee Hian Kee*, Single-drop microextraction, TrAC Trends in Analytical Chemistry, 108(2018) 306-313. Invited review (SCI一区, IF: 7.0, Top期刊)[12]Shen Wei, Li Yana, Qi Tong, Wang Suncheng, Sun Jun, Deng Huimin, Lu Hongfei, Chen Chuanxiang, Chen Lizhuang*, Tang Sheng*. Fluorometric determination of zinc(II) by using DNAzyme-modified magnetic microbeads. Microchimica Acta, 185(2018) 447. (SCI二区, IF: 5.7)[11]Tang Sheng, Sun Jun, Li Yana, Xia Dasha, Qi Tong, Liu Kai, Deng Huimin, Shen Wei, Lee Hian Kee. pH-dependent selective ion exchange based on (ethylenediamintetraacetic acid-nickel)-layered double hydroxide to catalyze the polymerization of aniline for detection of Cu2+ and Fe3+. Talanta, 187(2018) 287-294 (SCI二区, IF: 4.2, Top期刊)[10]Sun Jun, Li Yana, Chen Chengbo, Qi Tong, Xia Dasha, Mao Wei, Yang Tongyi, Chen Lizhuang*, Shen Wei*, Tang Sheng*. Magnetic Ni/Fe layered double hydroxide nanosheets as enhancer for DNA hairpin sensitive detection of miRNA. Talanta, 187(2018) 265-271 (SCI二区, IF: 4.2, Top期刊)[9]Shen Wei, Sun Jun, Shi Lei, Tang Sheng*, Lee Hian Kee*. Needle-based sampling coupled with colorimetric reaction catalyzed by layered double hydroxide peroxidase mimic for rapid detection of the change of D-glucose level in banana. Analytica Chimica Acta, 1001 (2018) 845-856 (SCI二区, IF: 5.1, Top期刊) 博士期间发表(入职前)[8]Tang Sheng, Chang Yuepeng, Shen Wei, Lee Hian Kee. Selective extraction by dissolvable (nitriloacetic acid-nickel)-layered double hydroxide coupled with reaction with potassium thiocyanate for sensitive detection of iron(III). Talanta, 154 (2016) 416-422 (SCI二区, IF: 4.2, Top期刊)[7]Tang Sheng, Lee Hian Kee. Syringe needle-based sampling coupled with liquid-phase extraction for determination of the three-dimensional distribution of L-ascorbic acid in apples. Food Chemistry, 199 (2016) 533-540 (SCI一区, IF: 4.5, Top期刊)[6]Tang Sheng, Zhang Hong, Lee Hian Kee. Advances in sample extraction. Analytical Chemistry, 88 (2016) 228-249. Invited review (SCI一区, IF: 6.3, Top期刊, ESI 高被引)[5]Tang Sheng, Chang Yuepeng, Chia Guo Hui, Lee Hian Kee. Selective extraction and release using (EDTA-Ni)-layered double hydroxide coupled with catalytic oxidation of 3,3’,5,5’-tetramethylbenzidine for sensitive detection of copper ion. Analytica Chimica Acta, 885 (2015) 106-113 (SCI二区, IF: 5.0, Top期刊)[4]Tang Sheng, Chia Guo Hui, Lee Hian Kee. Magnetic core–shell iron(II,III) oxide@layered double oxide microspheres for removal of 2,5-dihydroxybenzoic acid from aqueous solutions. Journal of Colloid and Interface Science, 437 (2015) 316-323 (SCI一区, IF: 4.2, Top期刊)[3]Tang Sheng, Lin Xuan Hao, Li Sam Fong Yau, Lee Hian Kee, In-syringe dispersive solid-phase extraction using dissolvable layered double oxide hollow spheres as sorbent followed by high-performance liquid chromatography for determination of 11 phenols in river water. Journal of Chromatography A, 1373 (2014) 31-39 (SCI二区, IF: 3.9, Top期刊)[2]Tang Sheng, Chia Guo Hui, Chang Yuepeng, Lee Hian Kee. Automated dispersive solid-phase extraction using dissolvable Fe3O4-layered double hydroxide core-shell microspheres as sorbent. Analytical Chemistry, 86 (2014) 11070-11076 (SCI一区, IF: 6.3,Top期刊)[1]Tang Sheng, Lee Hian Kee. Application of dissolvable layered double hydroxides as sorbent in dispersive solid-phase extraction and extraction by co-precipitation for the determination of aromatic acid anions. Analytical Chemistry, 85 (2013) 7426-7433 (SCI一区, IF: 6.3, Top期刊)专著[1]超临界流体色谱技术,Colin F. Poole编,邓惠敏,杨飞,唐盛主译. 北京:中国轻工业出版社,2019.7[2]Bagheri Ahmad Reza, Zhou Xueyan, Liu Chang, Shen Wei, Tang Sheng*, Green nanomaterials in extraction techniques, in Comprehensive Analytical Chemistry, Elsevier, 2024[3]Lee Hian Kee, Tang Sheng, Sample preparation of complex biological samples in the analysis of trace-level contaminants, in Chemistry, Molecular Sciences and Chemical Engineering, Elsevier, 2024学术会议[1]Tang Sheng, Selective extraction using LDH coupled with catalytic oxidation for sensitive metal ion detection, 8th Singapore International Chemical Conference, Singapore, 2014.12.14-12.17 (Poster)[2]Tang Sheng, pH-dependent selective ion exchange using LDHs coupled with catalytic polymerization for detection of metal ions, 2017 International Congress on Analytical Science, Haikou, China, 2017.5.5-5.8 (Poster)[3]Tang Sheng, In-syringe extraction using self-recoverable, amphiphilic graphene aerogels as sorbent, 17th Asia-Pasicfic International Symposium on Microscale Separation and Analysis, Shanghai, China, 2017.11.10-11.13 (Invited Speaker)[4]唐盛,DNA发卡结构增强磁性水滑石用于检测微RNA,第31届中国化学会年会,2018年5月4-8日,杭州,中国。(海报)[5]唐盛,超微量食品检测技术,苏台现代农业与生物科技论坛,2018年11月7-10日,淮安,中国。(主旨演讲)[6]Tang Sheng, Extraction technique based on layered double hydroxides, 3rd Caparica Christmas Conference on Sample Treatment, Caparica, Portugal, 2018.12.3-12.6 (Invited Speaker)[7]唐盛,基于纳米材料的单滴微萃取技术,第十届全国环境化学大会,2019年8月16-19日,天津,中国。(口头报告)[8]唐盛,基于微萃取技术的食品超微量检测,2019年全国食品与环境分析测试学术研讨会,2019年9月20-22日,新乡,中国。(口头报告)[9]唐盛,环境水样的全自动化检测技术,第六届青年地学论坛,2019年10月12-15日,西宁,中国。(口头报告)[10]Tang Sheng, Nanomaterial-based single-drop microextraction, ExTech 2019 21st International symposium on advances in extraction technology, Guangzhou, China, 2019.11.9-11.13 (Invited Speaker)[11]唐盛,基于微萃取技术的食品超微量检测,南京食品农产品质量安全高峰论坛,2020年7月9日,南京,中国。(特邀报告)[12]唐盛,磁性微萃取技术的核酸分析应用,2020年食品与环境分析测试学术研讨会,2020年11月10-13日,广州,中国。(口头报告)[13]唐盛,磁性微萃取技术对环境中核酸的分析应用,第二届全国环境分析化学研讨会,2020年11月14-16日,岳阳,中国。(口头报告)[14]唐盛,循环扩增-色谱联用技术用于核酸的高灵敏分析,2021江苏色谱质谱、食品质量分析年会暨分析测试新技术论坛,2021年4月1日,南京,中国。(特邀报告)[15]唐盛,纳米材料增强型单滴微萃取技术,中国化学会第32届学术年会,2021年4月19-22日,珠海,中国。(口头报告)[16]唐盛,纳米材料增强型微萃取技术,第十三届全国生物医药色谱及相关技术学术交流会,2021年5月5-7日,延吉,中国。(口头报告)[17]唐盛,循环扩增-色谱联用技术用于核酸的高灵敏分析,iCC2021第六届色谱网络会议,2021年7月13-16日,线上会议(特邀报告)[18]Tang Sheng,Cycled Amplification Strategy Coupled with HPLC for Highly Sensitive Detection of MicroRNAs, Asian Conference on Analytical Sciences,2021.10.16-18,Taipei, China (online)(Invited Speaker)Chair of Chromatography and Separation Techniques I.[19]唐盛,循环扩增-色谱联用技术用于核酸高灵敏分析,中国化学会第23届全国色谱学术报告及仪器展览会,2021年10月22-25日,深圳,中国(口头报告)[20]唐盛,纳米材料增强型液相微萃取技术,第十一届全国环境化学大会,2022年7月25-29日,哈尔滨,中国(口头报告)[21]唐盛,基于样品前处理的信号放大策略,第四届样品前处理与实验室自动化技术网络研讨会,2022年9月27-28日,线上会议。(特邀报告)[22]唐盛,基于样品前处理的信号放大技术,第二十届中国食品农产品安全与现代实验室质量控制管理高峰论坛,2022年12月27-29日,深圳,中国。(大会报告)[23]唐盛,核酸扩增技术在样品前处理中的应用,生物样本前处理方法,2023年3月26日,线上会议。(特邀报告)[24]唐盛,核酸扩增技术在液相萃取中的应用,第十四届全国生物医药色谱质谱及相关技术学术交流会 ,2023年5月5-7日,普洱,中国。(口头报告)[25]唐盛,基于核酸扩增的色谱信号增强策略,2023年第七届色谱网络研讨会 ,2023年6月13-16日,线上会议。(特邀报告)[26]唐盛,样品前处理中的核酸扩增策略,2023年中国化学快报分析化学学科编委会暨CCL分析化学前沿论坛 ,2023年7月8-12日,张掖,中国。(大会报告)[27]唐盛,样品前处理中的信号产生及放大策略, 第四届全国环境分析化学研讨会曁第十届固相微萃取技木(中国)研讨会,2023年8月8-11日,南充,中国。(口头报告)[28]唐盛, 2023年环境化学青年学者研讨会,2023年8月8-11日,宜昌,中国。(口头报告)[29]唐盛, 微萃取限域体系下的核酸信号时空分离方法,中国化学会第 24 届全国色谱学术报告会及仪器展览会,2023年10月9-11日,大连,中国。(口头报告)[30]唐盛, 从多相界面到无界面:单滴微萃取中的基质效应和信号放大,中国化学会第十四届全国分析化学年会,2023年11月2-5日,深圳,中国。(口头报告)[31]唐盛, 基于智能手机的生物样品光谱分析,中国化学会第十五届全国电分析化学学术会议,2023年11月24-27日,扬州,中国。(特邀报告)[32]唐盛, 基于反应微区构建的微萃取技术,样品前处理技术国际前沿创新论坛,2023年12月8-10日,珠海,中国。(特邀报告) |