乔瑞,理学博士,教授
电子邮箱:qiaorui@mail.ipc.ac.cn
学习工作经历:
2002.07 安徽师范大学 化学学士学位
2007.07 中国科学院理化技术研究所 有机化学博士学位
2010.11 副教授
2017.11 教授
主要研究方向:
竹红菌素类光敏剂的结构修饰以及其在光动力治疗中的应用
离子探针的设计与合成
成果简介:
一、主持各类科研项目
DNA靶向功能的痂囊腔菌素A类光敏剂的设计合成与光动力性质研究,国家自然科学基金青年科学项目,1302019
安徽省高等学校自然科学研究重大项目,KJ2019ZD38
光致变色技术在食品安全中的应用,阜阳市政府-阜阳师范学院横向合作重点项目
安徽高校优秀青年人才支持计划重点项目,gxyqZD2017068
痂囊腔菌素A衍生物的合成及其光动力性质研究,中国科学院“光化学转换与功能材料”重点实验室开放课题
安徽省高校省级优秀青年人才项目,2011SQRL101
安徽省高校省级自然科学研究项目,2011KJ2011B123
二.各类获奖
安徽省科学技术三等奖(2015年,第三完成人)
三.代表性著作与论文
2021年
[17] Zhang, J.; Bai, C.-B.; Chen, M.-Y.; Yue, S.-Y.; Qin, Y.-X.; Liu, X.-Y.; Xu, M.-Y.; Zheng, Q.-J.; Zhang, L.; Li, R.-Q.; Qiao, R.; Qu, C.-Q. Novel Fluorescent Probe toward Fe3+ Based on Rhodamine 6G Derivatives and Its Bioimaging in Adult Mice, Caenorhabditis elegans, and Plant Tissues. ACS Omega 2021, 6, 8616-8624.
[16] Bai, C.-B.; Zhang, J.; Yue, S.-Y.; Qin, Y.-X.; Chen, M.-Y.; Zhang, L.; Miao, H.; Wang, C.; Qiao, R.; Qu, C.-Q. Easily available aggregation-induced enhanced emission fluorescent material for detecting 1, 3-diaminopropane in gas-liquid-solid three-phase and bioimaging application. Journal of Luminescence 2021, 237, 118182.
2020年
[15] Bai, C.-B.; Zhang, J.; Qiao, R.; Zhang, Q.-Y.; Mei, M.-Y.; Chen, M.-Y.; Wei, B.; Wang, C.; Qu, C.-Q. Reversible and Selective Turn-on Fluorescent and Naked-Eye Colorimetric Sensor to Detect Cyanide in Tap Water, Food Samples, and Living Systems. Industrial & Engineering Chemistry Research 2020, 59, 8125-8135.
[14] Bai, C.-B.; Zhang, J.; Qiao, R.*; Mu, S.-Y.; Meng, M.; Wei, B.; Wang, C.; Qu, C.-Q.; Ji, Y.-T. Thiadiazole-based turn-on fluorescent chemosensor for AcO− and its application in environmental systems and in bioimaging. SN Applied Sciences 2020, 2, 567.
[13] Bai, C. B.; Wang, W. G.; Zhang, J.; Wang, C.; Qiao, R.*; Wei, B.; Zhang, L.; Chen, S. S.; Yang, S. A Fluorescent and Colorimetric Chemosensor for Hg2+ Based on Rhodamine 6G With a Two-Step Reaction Mechanism. Frontiers in Chemistry 2020, 8, 7.
[12] Bai, C. B.; Liu, X. Y.; Zhang, J.; Qiao, R.*; Dang, K.; Wang, C.; Wei, B.; Zhang, L.; Chen, S. S. Using Smartphone APP To Determine the CN- Concentration Quantitatively in Tap Water: Synthesis of the Naked-Eye Colorimetric Chemosensor for CN- and Ni2+ Based on Benzothiazole. Acs Omega 2020, 5, 2488.
2019年
[11] Bai, C.-B.; Xu, P.; Zhang, J.; Qiao, R.*; Chen, M.-Y.; Mei, M.-Y.; Wei, B.; Wang, C.; Zhang, L.; Chen, S.-S. Long-Wavelength Fluorescent Chemosensors for Hg2+ based on Pyrene. ACS Omega 2019, 4, 14621-14625.
[10] Bai, C.-B.; Fan, H.-Y.; Qiao, R.*; Wang, S.-N.; Wei, B.; Meng, Q.; Wang, Z.-Q.; Liao, J.-X.; Zhang, J.; Zhang, L.; Chen, S.-S.; Miao, H. Synthesis of methionine methyl ester-modified coumarin as the fluorescent-colorimetric chemosensor for selective detection Cu2+ with application in molecular logic gate. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 2019, 216, 45-51.
[9] Qiao, R.; Fan, H. Y.; Bai, C. B.; Dai, L.; Zhang, L.; Zhang, J.; Chen, S. S.; Miao, H. Using Heterocycle to Improve the Selectivity of Rhodamine-6G Dye: Synthesis of Pyrrole-Modified Rhodamine-6G and its Recognition to Zn2+. J. Chem. Soc. Pak. 2019, 41, 300-307.
2018年
[8] Qiao, R.; Xiong, W.-Z.; Bai, C.-B.; Liao, J.-X.; Zhang, L. A highly selective fluorescent chemosensor for Fe [III] based on rhodamine 6G dyes derivative. Supramolecular Chemistry 2018, 30, 911-917.
[7] Bai, C.-B.; Qiao, R.*; Liao, J.-X.; Xiong, W.-Z.; Zhang, J.; Chen, S.-S.; Yang, S. A highly selective and reversible fluorescence “OFF-ON-OFF” chemosensor for Hg2+ based on rhodamine-6G dyes derivative and its application as a molecular logic gate. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 2018, 202, 252-259.
[6] Qiao, R.; Xiong, W.-Z.; Bai, C.-B.; Zhang, L.; Zhu, M.-M.; Chen, S.-S.; Miao, H. A highly selective fluorescent probe for Zn2+ based on a rhodamine-6G dye derivative modified by a furan unit. Journal of Chemical Research 2018, 42, 194-197.
[5] Bai, C. B.; Wang, S. N.; Qiao, R.*; Fan, H. Y.; Wei, B.; Xu, P.; Zhang, L.; Zhang, J.; Li, R. Q.; Chen, S. S.; Yang, S. A Fluorescent Sensor For Zn2+ Based on Rhodamine Thiophene Framework. Int. J. Electrochem. Sci. 2018, 13, 10368-10381.
2017年之前
[4] Qiao, R.; Zhang, Z.-Y.; Zhu, M.-A. Synthesis, Crystal Structure and Water Vapor Adsorption Properties of a Porous Supramolecular Architecture. Crystals 2017, 7.
[3] Qiao, R.; Chen, S.-S.; Sheng, L.-Q.; Yang, S.; Li, W.-D. Syntheses, crystal structures, and properties of four complexes based on polycarboxylate and imidazole ligands. Journal of Solid State Chemistry 2015, 228, 199-207.
[2] Qiao, R.; Zhou, L.; Zhou, J.; Wei, S.; Shen, J.; Zhang, B.; Wang, X. The synthesis and characterization of ethylenediamine-modified Elsinochrome A. Dyes and Pigments 2012, 94, 99-102.
[1] Qiao, R.; Zeng, Z.-H.; Xia, S.-Q.; Zhou, J.-H.; Liu, Y.-Y.; Chen, J.-R.; Wang, X.-S.; Zhang, B.-W. Using electrostatic interactions to increase the photodamaging ability of hypocrellin B: synthesis and study of 2-(dimethylamino) ethanethiol-modified HB. New Journal of Chemistry 2007, 31, 196-198.