江苏大学化学化工学院钱静

shiren

钱静，女，江苏徐州人，1983年1月生，工学博士，江苏大学副教授/硕士生导师, 江苏大学“青年骨干教师培养工程”青年学术带头人培育人选。2012年1月于东南大学材料物理与化学专业博士毕业，主要从事功能纳米材料的可控制备及其在纳米生物传感和绿色清洁能源中的应用研究。已在Materials Today，Journal of Materials Chemistry A，ACS Applied Materials & Interfaces，Analytical Chemistry，Biosensors and Bioelectronics，Journal of Materials Chemistry B，Sensors and Actuators B等国际著名期刊上发表SCI论文80余篇，申请中国发明专利20件(授权13件)，撰写专著英文专章1章。

钱静
副教授/硕士生导师
qianj@ujs.edu.cn

▲教育研修
2015年7月至今，江苏大学，化学化工学院，副教授/硕士生导师。
2014年12月至今，江苏大学，化学化工学院，硕士生导师。
2016年11月-2018年10月，美国Georgia Institute of Technology，生物医学工程系，博士后。
2016年3月-2016年11月，Hong Kong Baptist University，理学院化学系，博士后。
2012年6月-2015年7月，江苏大学，化学化工学院，讲师。
2008年9月-2012年3月，东南大学，材料物理与化学专业，获工学博士学位。
2009年6月-9月，德国University of Potsdam，生物化学系，国家公派研修生。
2005年9月-2008年6月，江苏大学，应用化学专业，获工学硕士学位。
2001年9月-2005年6月，南京师范大学, 化学（师范）专业，获理学学士学位。

▲研究方向
1. 纳米生物传感：可控制备具有优异光/电催化活性的功能纳米材料，构建新型化学/生物传感体系及其在污染物监测、食品质量安全监测等领域的应用研究；
2. 绿色清洁能源：新型催化剂的形貌控制直接及其在燃料电池中的应用研究。

▲科研项目
1. 国家自然科学基金项目（No. 21405063），2015.01-2017.12，主持人。
2. 江苏省自然科学基金项目（No. BK20130481），2013.07-2016.06，主持人。
3. 中国博士后科学基金特别资助 （No. 2015T80517），2015.06-2018.11，主持人。
4. 中国博士后科学基金面上项目（No. 2012M520998），2012.09-2014.09，主持人。
5. 江苏省博士后科学基金项目（No. 1301141C），2012.09-2014.12，主持人。
6. 江苏大学现代农业装备与技术重点实验室开放基金项目（No. NZ201307），2014.01-2015.12，主持人。
7. 江苏大学高级人才基金项目（No.12JDG087），2012.07至今，主持人。
8. 江苏大学“青年骨干教师培养工程”青年学术带头人培育人选资助项目，2016.01至今，主持人.

▲主要荣誉
2012年，江苏大学第六届教师教学竞赛二等奖；
2015年，江苏大学化学化工学院优秀学业导师；
2015年，江苏大学“青年骨干教师培养工程”青年学术带头人培育人选。

▲科研成果
（1）主要发表论文
[36] Jing Qian, Min Shen, Shan Zhou, Chi-Ta Lee, Ming Zhao, Zhiheng Lyu, Zachary，D. Hood, Madeline Vara, Kyle D. Gilroy, Kun Wang, Younan Xia*, Synthesis of Pt nanocrystals with different shapes using the same protocol to optimize their catalytic activity toward oxygen reduction, Materials Today, 2018, 21, 834–844. (SCI一区, IF=24.537)
[35] Jing Qian, Di Xu, See Lok Ho, Kun Wang, Man Shing Wong, Hung Wing Li, Magnetically controlled immunosensor for highly sensitive detection of carcinoembryonic antigen based on an efficient “turn-on” cyanine fluorophore, Sensors and Actuators B, 2018, 258, 133–140. (SCI一区, IF=5.667)
[34] Jing Qian*, Chanchan Ren, Chengquan Wang, Wei Chen, Xiaoting Lu, Henan Li, Qian Liu, Nan Hao, Huaming Li, Kun Wang*, Magnetically controlled fluorescence aptasensor for simultaneous determination of ochratoxin A and aflatoxin B1, Analytica Chimica Acta, 2018, 1019,119–127. (SCI二区, IF=5.123)
[33] Chengquan Wang1, Jing Qian1, Keqi An, Chanchan Ren, Xiaoting Lu, Nan Hao, Qian Liu, Henan Li, Xingyi Huang*, Kun Wang*. Fabrication of magnetically assembled aptasensing device for label-free determination of aflatoxin B1 based on EIS. Biosensors and Bioelectronics, 2018, 108, 69–75. (共同第一作者，SCI一区, IF=8.173)
[32] Xiaoting Lu, Chengquan Wang, Jing Qian*, Chanchan Ren, Keqi Ana, Kun Wang, Target-driven switch-on fluorescence aptasensor for trace aflatoxin B1 determination based on highly fluorescent ternary CdZnTe quantum dots, Analytica Chimica Acta, 2018, DOI: org/10.1016/j.aca.2018.10.002. (SCI二区, IF=5.123)
[31] Jing Qian, Kan Wang, Chengquan Wang, Chanchan Ren, Qian Liu, Nan Hao, Kun Wang*, Ratiometric fluorescence nanosensor for selective and visual detection of cadmium ions using quencher displacement-induced fluorescence recovery of CdTe quantum dots-based hybrid probe, Sensors and Actuators B, 2017, 241, 1153–1160. (SCI一区, IF=5.667)
[30] Chengquan Wang1, Jing Qian1, Keqi An, Xingyi Huang, Lufang Zhao, Qian Liu, Nan Hao, Kun Wang*, Magneto-controlled aptasensor for simultaneous electrochemical detection of dual mycotoxins in maize using metal sulfide quantum dots coated silica as labels, Biosensors and Bioelectronics, 2017, 89, 802–809. (共同第一作者，SCI一区, IF=8.173)
[29] Wenjun Liu, Jian Bao, Meili Guan, Yan Zhao, Jiabiao Lian, Jingxia Qiu, Li Xu, Yunpeng Huang, Jing Qian*, Huaming Li*, Nickel–cobalt-layered double hydroxide nanosheet arrays on Ni foam as a bifunctional electrocatalyst for overall water splitting, Dalton Transactions, 2017, 46, 8372 –8376. (SCI二区, IF=4.099)
[28] Chanchan Ren, Huaming Li, Xiaoting Lu, Jing Qian*, Mingyue Zhu, Wei Chen, Qian Liu, Nan Hao, Henan Li, Kun Wang*, A disposable aptasensing device for label-free detection of fumonisin B1 by integrating PDMS film-based micro-cell and screen-printed carbon electrode, Sensors and Actuators B, 2017, 251, 192–199. (SCI一区, IF=5.667)
[27] Yaqi Li, Li Sun, Jing Qian, Lingliang Long, Henan Li, Qian Liu, Jianrong Cai*, Kun Wang*, Fluorescent “on-off-on” switching sensor based on CdTe quantum dots coupled with multiwalled carbon nanotubes@graphene oxide nanoribbons for simultaneous monitoring of dual foreign DNAs in transgenic soybean, Biosensors and Bioelectronics, 2017, 92, 26–32. (SCI一区, IF=8.173)
[26] Jing Qian, Mengjuan Hua, Chengquan Wang, Kan Wang, Qian Liu, Nan Hao, Kun Wang*, Fabrication of L-cysteine-capped CdTe quantum dots based ratiometric fluorescence nanosensor for onsite visual determination of trace TNT explosive, Analytica Chimica Acta, 2016, 946, 80–87. (SCI二区, IF=5.123)
[25] ChengquanWang1, Jing Qian1, KunWang*, XingwangYang, Qian Liu, NanHao, Chengke Wang, Xiaoya Dong, Xingyi Huang*, Colorimetric aptasensing of ochratoxin A using Au@ Fe3O4 nanoparticles as signal indicator and magnetic separator, Biosensors and Bioelectronics, 2016, 77, 1183–1191. (共同第一作者, SCI一区, IF=8.173)
[24] Yaqi Li, Li Sun, Jing Qian, Chengke Wang, Qian Liu, En Han, Nan Hao, Liuping Zhang, Jianrong Cai*, Kun Wang*, A homogeneous assay for highly sensitive detection of CaMV35S promoter in transgenic soybean by forster resonance energy transfer between nitrogen-doped graphene quantum dots and Ag nanoparticles, Analytica Chimica Acta, 2016, 948, 90–97. (SCI二区, IF=5.123)
[23] Nan Hao, Ling Jiang, Jing Qian, KunWang*, Ultrasensitive electrochemical Ochratoxin A aptasensor based on CdTe quantum dots functionalized graphene/Au nanocomposites and magnetic separation, Journal of Electroanalytical Chemistry, 2016, 781, 332–338. (SCI三区, IF=3.235)
[22] Jing Qian, Zhenting Yang, Chengquan Wang, Kan Wang, Qian Liu, Ding Jiang, Yuting Yan. Kun Wang*, One-pot synthesis of BiPO4 functionalized reduced graphene oxide with enhanced photoelectrochemical performance for selective and sensitive detection of chlorpyrifos, Journal of Materials Chemistry A, 2015, 3, 13671–13678. (后封面文章, SCI一区, IF=9.931)
[21] Jing Qian, Kan Wang, Chengquan Wang, Mengjuan Hua, Zhenting Yang, Qian Liu, Hanping Mao, Kun Wang*, A FRET-based ratiometric fluorescent aptasensor for rapid and onsite visual detection of ochratoxin A, Analyst, 2015, 140, 7434–7442. (SCI二区, IF=3.864)
[20] Jing Qian, Xingwang Yang, Zhenting Yang, Gangbing Zhu, Hanping Mao, Kun Wang*, Multiwalled carbon nanotube@reduced graphene oxide nanoribbon heterostructure: synthesis, intrinsic peroxidase-like catalytic activity, and its application in colorimetric biosensing, Journal of Materials Chemistry B, 2015, 3, 1624–1632. (SCI一区, IF=4.776)
[19] Chengquan Wang1, Jing Qian1, Kun Wang*, Mengjuan Hua, Qian Liu, Nan Hao, Tianyan You, and Xingyi Huang*. Nitrogen-doped graphene quantum dots@SiO2 nanoparticles as electrochemiluminescence and fluorescence signal indicators for magnetically controlled aptasensor with dual detection channels. ACS Applied Materials & Interfaces, 2015, 7, 26865−26873. (共同第一作者，SCI一区, IF=8.097)
[18] Kan Wang1, Jing Qian1, Ding Jiang, Zhengting Yang, Xiaojiao Du, Kun Wang*, Onsite naked eyed etermination of cysteine and homocysteine using quencher displacement-induced fluorescence recovery of the dual-emission hybrid probes with desired intensity ratio, Biosensors and Bioelectronics, 2015, 65, 83–90. (共同第一作者，SCI一区, IF=8.173)
[17] Zhenting Yang1, Jing Qian1, Xingwang Yang, Ding Jiang, Xiaojiao Du, Kan Wang, Hanping Mao, Kun Wang*, A facile label-free colorimetric aptasensor for acetamiprid based on the peroxidase-like activity of hemin-functionalized reduced graphene oxide, Biosensors and Bioelectronics, 2015, 65, 39–46. (共同第一作者，SCI一区, IF=8.173)
[16] Chengquan Wang1, Jing Qian1, Kan Wang, Kun Wang*, Qian Liu, Xiaoya Dong, Chengke Wang, Xingyi Huang*, Magnetic-fluorescent-targeting multifunctional aptasensor for highly sensitive and one-step rapid detection of ochratoxin A, Biosensors and Bioelectronics, 2015, 68, 783–790. (共同第一作者，SCI一区, IF=8.173)
[15] Mengjuan Hua, Chengquan Wang, Jing Qian*, Kan Wang, Zhenting Yang, Qian Liu, Hanping Mao, Kun Wang*, Preparation of graphene quantum dots based core-satellite hybrid spheres and their use as the ratiometric fluorescence probe for visual determination of mercury(II) ions, Analytica Chimica Acta, 2015, 888, 173–181. (SCI二区, IF=5.123)
[14] Jing Qian, Kun Wang*, Yicong Jin, Xingwang Yang, Ling Jiang, Yuting Yan, Xiaoya Dong, Huaming Li, Baijing Qiu, Polyoxometalate@magnetic graphene as versatile immobilization matrix of Ru(bpy)32+ for sensitive magneto-controlled electrochemiluminescence sensor and its application in biosensing, Biosensors and Bioelectronics, 2014, 57, 149–156. (SCI一区, IF=8.173)
[13] Jing Qian, Xingwang Yang, Ling Jiang, Chendan Zhu, Hanping Mao, Kun Wang*, Facile preparation of Fe3O4 nanospheres/reduced graphene oxidenanocomposites with high peroxidase-like activity for sensitive and selective colorimetric detection of acetylcholine, Sensors and Actuators B, 2014, 201, 160–166. (SCI一区, IF=5.667)
[12] Jing Qian, Ling Jiang, Xingwang Yang, Yuting Yan, Hanping Mao, Kun Wang*, Highly sensitive impedimetric aptasensor based on covalent binding of gold nanoparticles on reduced graphene oxide with good dispersity and high density, Analyst, 2014, 139, 5587–5593. (SCI二区, IF=3.864)
[11] Jing Qian, Kun Wang*, Qingmeng Guan, Henan Li, Hui Xu, Qian Liu, Wei Liu, Baijing Qiu, Enhanced wet hydrogen peroxide catalytic oxidation performances based on CuS nanocrystals/reduced graphene oxide composites, Applied Surface Science, 2014, 288, 633–640. (SCI二区, IF=4.439)
[10] Ling Jiang1, Jing Qian1, Xingwang Yang, Yuting Yan, Qian Liu, Kan Wang, Kun Wang*, Amplified impedimetric aptasensor based on gold nanoparticles covalently bound graphene sheet for the picomolar detection of ochratoxin A, Analytica Chimica Acta, 2014, 806, 128–135. (共同第一作者, SCI二区, IF=5.123)
[9] Xingwang Yang1, Jing Qian1, Ling Jiang, Yuting Yan, Kan Wang, Qian Liu, Kun Wang*, Ultrasensitive electrochemical aptasensor for ochratoxin A based on two-level cascaded signal amplification strategy, Bioelectrochemistry, 2014, 96, 7–13. (共同第一作者，SCI二区, IF=3.789)
[8] Jing Qian, Chengquan Wang, Xiaohu Pan, Songqin Liu*, A high-throughput homogeneous immunoassay based on Förster resonance energy transfer between quantum dots and gold nanoparticles, Analytica Chimica Acta, 2013, 763, 43–49. (SCI二区, IF=5.123)
[7] Wei Liu, Jing Qian, Kun Wang, Hui Xu, Ding Jiang, Qian Liu, Xingwang Yang, Huaming Li, Magnetically separable Fe3O4 nanoparticles-decorated reduced graphene oxide nanocomposite for catalytic wet hydrogen peroxide oxidation, Journal of Inorganic and Organometallic Polymers and Materials, 2013, 23(4), 907–916. (SCI, IF=1.754)
[6] Yicong Jin, Jing Qian, Kun Wang*, Xingwang Yang, Xiaoya Dong, Baijing Qiu, Fabrication of multifunctional magnetic FePc@Fe3O4/reduced graphene oxide nanocomposites as biomimetic catalysts for organic peroxide sensing, Journal of Electroanalytical Chemistry, 2013, 693, 79-85. (SCI三区, IF=3.235)
[5] Xuan Xu, Ulla Wollenberger, Jing Qian, Katrin Lettau, Christiane Jung, Songqin Liu*, Electrochemically driven biocatalysis of the oxygenase domain of neuronal nitric oxide synthase in indium tin oxide nanoparticles/polyvinyl alcohol nanocomposite, Bioelectrochemistry, 2013, 94, 7-12. (SCI二区, IF=3.789)
[4] Jing Qian, Haichao Dai, Xiaohu Pan, Songqin Liu*, Simultaneous detection of dual proteins using quantum dots coated silica nanoparticles as labels, Biosensors and Bioelectronics, 2011, 28(1), 314–319. (SCI一区, IF=8.173)
[3] Jing Qian, Lei Peng, Ulla Wollenberger, Frieder W. Scheller, Songqin Liu*, Three-dimensionally microporous polypyrene film as an efficient matrix for enzyme immobilization, Analytical & Bioanalytical Electrochemistry, 2011, 3(3), 233–248.
[2] Jing Qian, Chunyan Zhang, Xiaodong Cao, Songqin Liu*, Versatile immunosensor using quantum dot coated silica nanosphere as label for signal amplification, Analytical Chemistry, 2010, 82(15), 6422–6429. (SCI一区, IF=6.042)
[1] Jing Qian, Zhenxian Zhou, Xiaodong Cao, Songqin Liu*, Electrochemi-luminescence immunosensor for ultrasensitive detection of biomarker using Ru(bpy)32+-encapsulated silica nanosphere labels, Analytica Chimica Acta, 2010, 665(1), 32–38. (SCI二区, IF=5.123)

（2）专著：
[1] Jing Qian, Songqin Liu*, Silica Nanoparticles: Preparation, Properties and Uses, Chapter 1: Silica nanoparticles as carrier for biosensing, New York: Nova Science Publishers Inc., 2万字, 2012.

（3）授权和受理的专利
[1] 王坤，钱静，姜玲，一种免标记适配体传感检测超低浓度赭曲霉毒素A的方法，授权号：ZL2013 1 0320706.1。
[2] 王坤，钱静，杨兴旺，一种电化学适配体传感器检测痕量赭曲霉毒素A的方法，授权号：ZL2013 1 0319335.5。
[3] 周镇先，钱静，刘松琴，一种电致化学发光免疫传感器的制备方法, 授权号: ZL200910212772.0。
[4] 王坤，杜晓娇，钱静，用于农药西维因检测的电化学发光传感器及其制备方法，授权号：ZL201310699994.6。
[5] 王坤，杨兴旺，钱静，基于磁性石墨烯仿酶性质的乙酰胆碱可视化检测方法，授权号：ZL201310718874.6。
[6] 徐丽，夏杰祥，许晖，钱静，孙开涌，王雷刚，王坤，李华明，石墨型氮化碳纳米棒修饰电极的制备方法及应用，授权号：ZL201310720071.4。
[7] 王坤，蒋鼎，杜晓娇，钱静，一种金属氧化物/氮掺杂石墨烯复合材料的制备方法，授权号：ZL201410759602.5。
[8] 杜晓娇，王坤，蒋鼎，钱静，一种光电化学适配体传感电极的制备方法及其应用，授权号：ZL201510803891.9。
[9] 杜晓娇，王坤，蒋鼎，钱静，一种碘化银/氮杂石墨烯纳米复合材料的制备方法，授权号：ZL201510759442.9。
[10] 钱静，华梦娟，王坤，王成全，刘倩，郝楠。一种用于伏马毒素B1灵敏检测的磁控比率荧光适配体传感器的制备方法，授权号：ZL 201610086296.2。
[11] 王成全，钱静，黄星奕，王坤，安克奇，华梦娟，刘倩，郝楠。一种具有真菌毒素靶向作用的磁性-荧光功能纳米生物复合物的制备方法，授权号：ZL201610086487.9。
[12] 王成全，钱静，王坤，黄星奕，华梦娟，刘倩，郝楠。一种通过磁控电化学适配体传感器同时检测两种真菌毒素的方法，授权号：ZL201510891030.0。
[13] 蒋鼎，王坤，杜晓娇，钱静，一种硼氮同杂石墨烯水凝胶的制备方法，申请号：201510272911.4。
[14] 杜晓娇，王坤，蒋鼎，钱静，一种丝网印刷碳电极的适配体传感器用于检测微囊藻毒素的方法，申请号：201610138381.9。
[15] 蒋鼎，王坤，杜晓娇，钱静，一种硼碳氮纳米片负载金属纳米粒子杂化材料的制备方法，申请号：201610346691.X。
[16] 蒋鼎，王坤，杜晓娇，钱静，一种氮化碳量子点-石墨烯水凝胶纳米复合材料的制备方法，申请号：201610346692.4。
[17] 钱静，任婵婵，王成全，徐丽，王坤，李华明，一种检测伏马毒素B1的电化学适配体传感器的制备方法，申请号：2016110013670。
[18] 钱静，安克奇，王成全，赵路芳，任婵婵，王坤，一种用于OTA灵敏检测的可抛式适配体传感器的制备方法，申请号：201611225027.6。
[19] 王成全，任婵婵，钱静，王坤，黄星奕，一种检测AFB1的免标记便携式适配体传感器的制备方法，201711269351.2。
[20] 钱静，袁瑞霜，任婵婵，王成全，王坤，李华明，一种用于两种霉菌毒素同时检测的适配体传感器制备方法，201711269280.6。

shiren

多色MXene量子点标记的磁控荧光适配体传感体系构建及黄曲霉毒素亚型同时检测研究
批准号        21976071       
学科分类        环境分析化学 ( B060101 )
项目负责人        钱静
依托单位        江苏大学
资助金额        65.00万元       
项目类别        面上项目       
研究期限        2020 年 01 月 01 日 至2023 年 12 月 31 日