瞿 祎

发布时间:2019-03-18浏览次数:5371

姓   名

瞿祎(QU Yi

办公地点

实训楼4号楼4407

办公电话

15921952071

电子邮箱

yiqu@sues.edu.cn

毕业学校

华东理工大学

研究方向:分子化学工程

课题组简介

本课题组聚焦于有机光功能分子的设计与合成和构效关系研究,现已开发出基于萘酰亚胺、三苯胺、吡咯并吡咯二酮、喹吖啶酮、菁染料在类的多种可见光-近红外荧光染料;通过制备过程的控制实现聚合物和纳米发光材料性能优化;并致力于推进材料在分子传感和成像领域的应用。

个人简历

学习经历

2006/09-2012/06, 华东理工大学, 应用化学,硕士、博士,导师:花建丽教授

2002/09–2006/06, 合肥工业大学, 应用化学, 学士

工作经历

2014/07-至今, 上海工程技术大学, 皇冠买足球的官网讲师、副教授  

2012/07-2014/06, 复旦大学, 博士后,合作导师:李富友教授  

承担项目

近红外共轭聚合物荧光纳米生物传感器研究,国家自然科学基金青年项目(21404068),(2015/01-2017/12)

基于过氧草酸酯的安全应急用快速发光产品制备,横向项目,(2023/9-2025/9)

荣誉奖项

2015年上海工程技术大学“展翅计划”

代表性论著(论文、著作、专利)

论文:

1)    Huang W., Jiang N., Lv X., Qu Y., Zhang X., Wang L. Naphthalimide-based AIE probe for direct and rapid detection of HSA in urine sample. Dyes and Pigments, 2024, 221, 111820.

2)    Zhou H., Huang W., Qu Y.*, Zhang Y., Jiang N., Lv X., Rui Y., Wang L. Temperature-responsive polymeric sensors based on triphenylamine linked naphthalimide with red aggregation-induced emission. Dyes and Pigments, 2023, 111356.

3)    Luo F. F., Wang L., Zhang X., Xu P., Wang X., Qu Y*. Ratiometric H2S probe that can be recognized by the naked eye and its application in cell imaging. Phosphorus Sulfur and Silicon and the Related Elements, 2023, 198(10), 836-843.

4)    Huang W., Jiang N., Qu Y.*, Lv X., Zhou H., Wang L., Wang L., Rui Y. AIE-active dipyridinyltriphenylamine for dual-model visualization of latent fingerprints. Dyes and Pigments, 2023, 218, 111509.

5)    Zhang Y., Qu Y.*, Zhang Y., Gao Y., Wang L. Development of a fluorescent strategy for quantification of fluoride ions in foods and toothpaste. Chemical Engineering Journal, 2022, 448, 137631.

6)    Xie Q., Qu Y.*, Wang G., Luo X., Zhang D., Zhou H., Wang L., Wang L., Miao Y., Huang J. New bipolar host materials based on isoquinoline and phenylcarbazole for red PhOLEDs. Dyes and Pigments, 2022, 205, 110559.

7)    Chen H., Qu Y.*, Luo X., Wang L. Dual model fluorescent probe for BSA and tetracycline derivatives based on dipyridinyltriphenylamine and indole-fused-naphthalimide. Dyes and Pigments, 2022, 206, 110619.

8)    Luo X., Qu Y.*, Zhang Y., Wu Y., Yuan W., Wang L. The flexibility of side chains for adjusting the emission of 4-aryl-1,8-naphthalimides in aggregation: Spectral study and cell imaging. Chemical Engineering Journal, 2021, 415, 129095.

9)    Huang W., Qu Y.*, Zhu Y., Jiang N., Huang W. A fluorescent tool for sensing the battery-pollution event in soil samples based on Zn2+-triggering ratiometric signals. Journal of Molecular Structure, 2021, 1229, 129862.

10)   Wang Q. L., Chen K. M., Qu Y.*, Li K., Zhang Y., Fu E. Y. Hairy Fluorescent Nanospheres Based on Polyelectrolyte Brush for Highly Sensitive Determination of Cu(II). Polymers, 2020, 12(3), 577.

11)   Zhao J., Huang L., Yan M., Qu Y.*, Feng H., Sun Y. A lysosome specific ratiometric fluorescent probe for detection of bisulfite ion based on hybrid coumarin-benzimidazolium compounds. Phosphorus, Sulfur, and Silicon and the Related Elements, 2020, 196(3), 321-327.

12)   Zhang Y., Qu Y.*, Wu J., Rui Y., Gao Y., Wu Y. Naphthalimide end-capping molecular rotors with different donor cores: Tuning emission in wide gamut and cell imaging. Dyes and Pigments, 2020, 179, 108431.

13)   Qu Y.*, Zhu Y., Wu J., Wu J. W., Gu Z. H., Wu Y. Q. Molecular rotor based on dipyridylphenylamine: Near-infrared enhancement emission from restriction of molecular rotation and applications in viscometer and bioprobe. Dyes and Pigments, 2020, 172, 107795.

14)   Zhang Y.-Q., Qu Y.*, Zhu Y., Wu J.-W., Rui Y.-C. Bisnaphthalimide-based fluorescent sensor for detecting alcohol and application in evaluating the liquors. Journal of Luminescence, 2019, 214, 116573.

15)   Ren B., Yang Y., Qu Y.*, Cao J., Wu Y. Two fluorophore compounds based on 1, 8-naphthalimide: Synthesis, crystal structure, and optical properties. Journal of Molecular Structure, 2019, 1193, 131-140.

16)   Yang Y., Wu Y., Mei D., Qu Y.* Lead-based crystal luminophores: Tuning emissive crystals and application for recording high temperature history with ratiometric and colorimetric signals. Chemical Engineering Journal, 2019, 358, 606-613.

17)   Yang Y., Wang L., Xu M., Chen J., Qu Y.* Triphenyl phosphate end-capped dicyanomethylene-4H-pyran as a near infrared fluorescent sensor for lysozyme in urine sample. Sensors and Actuators B: Chemical, 2019, 284, 553-561.

18)   Qu Y.*, Wang L., Wu J., Rui Y., Cao J., Xu J. 4-Phenyl-1,8-naphthalimides: Brightness and tuning emission over widely visible gamut in different aggregated states. Dyes and Pigments, 2018, 148(Supplement C), 99-107.

19)   Wang L. L., Qu Y.*, Yang Y. X., Cao J., Wang L. A tetrasulphite-containing fluorescent chemodosimeter for Hg2+ with optimized selectivity towards Ag+. Sensors and Actuators B-Chemical, 2018, 269, 78-86.

20)   Lu C., Cao J., Cheng Y., Jin Y., Qu Y. *, Xu J. Fluorescence turn-on NapTp in CTAB micelles for efficient detecting ferric ions in aqueous system. Sensor Actuat B-Chem, 2018, 255(Part 3), 3102-3107.

21)   Wu J. W., Qu Y.*, Wang L. L., Huang L. L., Rui Y. C., Cao J., Xu J. L. Dipyridylphenylamine-based chemodosimeter for sulfite with optimizing ratiometric signals via synchronous fluorescence spectroscopy. Dyes Pigments, 2017, 136, 175-181.

22)   Qu Y.*, Jin Y. H., Cheng Y. X., Wang L., Cao J., Yang J. A solothiocarbonyl quinacridone with long chains used as a fluorescent tool for rapid detection of Hg2+ in hydrophobic naphtha samples. J Mater Chem A, 2017, 5(28), 14537-14541.(Cover)

23)   Wang L. L., Hu Y., Qu Y.*, Xu J. L., Cao J. Aggregated-induced emission phenothiazine probe for selective ratiometric response of hypochlorite over other reactive oxygen species. Dyes Pigments, 2016, 128, 54-59.

24)   Qu Y.*, Zhang X., Wang L. L., Yang H. R., Yang L., Cao J., Hua J. L. A phenazine-based near-infrared (NIR) chemodosimeter for cysteine obtained via a carbonyl-assisted cycloaddition process. RSC Adv., 2016, 6(27), 22389-22394.

25)   Xia T., Wang L., Qu Y.*, Rui Y., Cao J., Hu Y., Yang J., Wu J., Xu J. A thermoresponsive fluorescent rotor based on a hinged naphthalimide for a viscometer and a viscosity-related thermometer. J. Mater. Chem. C, 2016, 4(24), 5696-5701.

26)   Qu W., Yang L., Hang Y., Zhang X., Qu Y.*, Hua J. Photostable red turn-on fluorescent diketopyrrolopyrrole chemodosimeters for the detection of cysteine in living cells. Sens. Actuators, B, 2015, 211, 275-282.

27)   Jiang T., Qu Y.*, Li B., Gao Y. T., Hua J. L. Tetraphenylethene end-capped 1,2,5 thiadiazolo 3,4-c pyridine with aggregation-induced emission and large two-photon absorption cross-sections. Rsc Advances, 2015, 5(2), 1500-1506.

28)   Hang Y., Yang L., Qu Y.*, Hua J. A new diketopyrrolopyrrole-based near-infrared (NIR) fluorescent biosensor for BSA detection and AIE-assisted bioimaging. Tetrahedron Lett., 2014, 55(51), 6998-7001.

29)   Zou Q., Li X., Xu Q. J., Agren H., Zhao W. D., Qu Y.* A near-infrared on-off fluorescent and colourimetric cyanide chemodosimeter based on phenothiazine with applications in living cell imaging. Rsc Advances, 2014, 4(104), 59809-59816.

30)   Qu Y., Zhang X. R., Wu Y. Q., Li F. Y., Hua J. L. Fluorescent conjugated polymers based on thiocarbonyl quinacridone for sensing mercury ion and bioimaging. Polym Chem-Uk, 2014, 5(10), 3396-3403.

31)   Qu Y., Wu Y., Gao Y., Qu S., Yang L., Hua J. Diketopyrrolopyrrole-based fluorescent conjugated polymer for application of sensing fluoride ion and bioimaging. Sensors and Actuators B: Chemical, 2014, 197, 13-19.

32)   Qu Y., Jin B., Liu Y., Wu Y., Yang L., Wu J., Hua J. A new triphenylamine fluorescent dye for sensing of cyanide anion in living cell. Tetrahedron Lett., 2013, 54(36), 4942-4944.

33)   Qu Y., Yang J., Hua J., Zou L. Thiocarbonyl quinacridone-based “turn on” fluorescent chemodosimeters for highly sensitive and selective detection of Hg(II). Sensor Actuat B-Chem, 2012, 161(1), 661-668.

34)   Qu Y., Qu S., Yang L., Hua J., Qu D. A red-emission diketopyrrolopyrrole-based fluoride ion chemosensor with high contrast ratio working in a dual mode: Solvent-dependent ratiometric and “turn on” pathways. Sensors and Actuators B: Chemical, 2012, 173, 225-233.

35)   Qu Y., Jiang Y., Hua J. Hyperbranched polyyne containing naphthalimide moiety as a fluorescent chemosensor for mercury ion. Frontiers of Chemistry in China, 2010, 5(2), 226-233.

36)   Qu Y., Hua J., Tian H. Colorimetric and Ratiometric Red Fluorescent Chemosensor for Fluoride Ion Based on Diketopyrrolopyrrole. Organic Letters, 2010, 12(15), 3320-3323.

37)   Qu Y., Hua J., Tian H. Colorimetric and Ratiometric Red Fluorescent Chemosensor for Fluoride Ion Based on Diketopyrrolopyrrole. Organic Letters, 2010, 12(15), 3320-3323.


专利:

1)王乐, 苏稀琪, 瞿祎,刘彤琳. 一种荧光微米探针检测水杨酸的方法和应用, 中国发明专利, 专利号: CN202111036254.5, 授权日期: 20230509

2)尹小英, 曹梦慧, 瞿祎, 严一楠. 具有聚集诱导的发光化合物及超分子聚合荧光纳米材和制备方法, 专利号: ZL202110290411.9, 授权日期: 2023428

3)瞿祎,蒋娜,王乐,周慧敏,黄文灵,吕心雨,刘婷婷,王一邱,黄子仪. 含甲硫基的AIE活性萘酰亚胺化合物及其制备方法和应用. 专利号: CN2023102799963, 申请日: 2023321, 申请中

4)瞿祎,王乐,汪林林,周慧敏,蒋娜,黄文灵,吕心雨. 一类共振能量转移型红光聚集诱导发光分子的设计、制备与发光性能. 专利号: CN2023103112582, 申请日: 2023324, 申请中

5)瞿祎,黄文灵,王乐,周慧敏,蒋娜,吕心雨,刘婷婷,王一邱,黄子仪. 一种特异性人血清蛋白检测荧光探针及其制备方法和应用. 专利号: CN 2023103460082, 申请日: 202343, 申请中

6)瞿祎, 周慧敏, 王乐, 吕爱风, 王美娜. 具有AIE效应的含氟萘酰亚胺蓝光荧光材料及其制备方法和应用, 中国发明专利, 专利号: CN202111524376.9, 授权日期: 20230124

7)王乐,罗芳芳,张玉薇,瞿祎,张笑, 刘孟侠. 一种开启型荧光探针材料及其制备方法和检测苯硫酚的方法, 专利号: CN202211476793.5, 申请日: 20221123, 申请中

8)王乐, 苏稀琪, 瞿祎,谢金华, 刘盼. 一种荧光微球、荧光探针和检测四环素的方法, 中国发明专利, 专利号: CN202110653154.0, 授权日期: 20221018

9)王乐, 苏稀琪, 瞿祎,罗芳芳. 一种荧光微米探针检测槲皮素的方法和应用, 中国发明专利, 专利号: CN202111036167.X, 授权日期: 20221014

10)瞿祎, 罗鑫, 王乐. 基于萘酰亚胺衍生物的荧光应力响应材料及其制备与应用, 中国发明专利, 专利号: CN202011523265.1, 授权日期: 20220826

11)王乐, 张笑, 李振勇,瞿祎,杨云霞. 一种基于DCPO的含磷荧光标记材料及其制备方法和应用, 专利号: CN202210818473.7, 申请日: 20220712, 申请中

12)操凤文,陈凯敏,麻玉雯,瞿祎,袁望,董志茂,李博学,王佩瑞,叶一,肖琨,倪晓涛,陆亮,朱轩仪,杨茜茹,李秋萍,李欢,曹秋岑.一种单分散聚合物荧光微球的制备方法及其应用.中国发明专利,CN107880877A, 授权日期: 2018.04.06.

13)金樱华,程欲晓,张继东,顾中怡,曹俭,瞿祎,赵波,郭争云.一种基于萘酰亚胺的增强型荧光探针、其制备方法及应用. 中国发明专利, CN107235962A, 授权日期:2017.10.10.

14)邹祺,瞿祎,郭颖慧. 一种荧光探针及其制备方法和应用.中国发明专利,CN104357044A, 授权日期:2015.02.18.


著作:

1)制药与精细化工专业实验. 瞿祎,王乐,张迪 编. 华东理工大学出版社. 20238. ISBN: 9787562872023



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