首页 杂志概况 投稿须知 在线投稿 在线阅读 征订启事 广告服务 行业资讯 企业动态 资料中心  专访报道 会展信息 ENGLISH

引用本文:   张昊晨, 郭永明. 基于碳量子点荧光开启检测还原性生物小分子的研究进展. 分析化学, 2021, 49(1): 14-23. doi:  10.19756/j.issn.0253-3820.201349 [复制]

Citation:   ZHANG Hao-Chen , GUO Yong-Ming . Advances of Carbon Quantum Dots for Fluorescence Turn-on Detection of Reductive Small Biomolecules. Chinese Journal of Analytical Chemistry, 2021, 49(1): 14-23. doi: 10.19756/j.issn.0253-3820.201349 [复制]

基于碳量子点荧光开启检测还原性生物小分子的研究进展

通讯作者:  郭永明, chinahenangm@163.com

收稿日期: 2020-06-15

基金项目: 南京信息工程大学人才启动项目(No.2018r056)、南京信息工程大学大学生创新创业训练计划项目(No.201910300209)和南信大-雷丁大学国际联合研究院开放课题资助。

Advances of Carbon Quantum Dots for Fluorescence Turn-on Detection of Reductive Small Biomolecules

Corresponding author:  GUO Yong-Ming , chinahenangm@163.com

Received Date:  2020-06-15

Fund Project:  Supported by the Startup Foundation for Introducing Talent of NUIST (No. 2018r056), the Innovation and Entrepreneurship Training Program for College Students of NUIST (No. 201910300209) and the Foundation of NUIST-UoR International Research Institute.

人体内的生物分子参与许多重要的生命活动,特别是一些具有还原性的生物小分子,对维持人体健康和抵御疾病具有重要作用,因此,还原性生物小分子的快速准确检测具有重要意义,其中荧光开启(Fluorescence turn-on)检测是一种灵敏度高、操作简便的检测方法。碳量子点(CQDs)是近年出现的一种结构新颖的零维荧光碳纳米材料,具有生物兼容性好、毒性低、易制备、价格低、光稳定性好、荧光量子产率高等优点,在还原性生物小分子荧光开启检测方面极具应用潜力。本文重点介绍了近三年CQDs在葡萄糖、抗坏血酸、多巴胺、生物硫醇、尿酸荧光开启检测中的研究进展,并对CQDs在这些生物小分子荧光开启检测中面临的机遇与挑战进行了论述。

关键词:   碳量子点, 生物小分子, 荧光, 检测, 评述
Key words:   Carbon quantum dots, Small biomolecules, Fluorescence, Detection, Review
[1]

LI T F, LI Y W, XIAO L, YU H T, FAN L Z. Acta Chim. Sin., 2014, 72(2):227-232.

[2]

ZHANG J, YU S H. Mater. Today, 2016, 19(7):382-393.

[3]

GUO Y M, CAO F P, LI Y B. Sens. Actuators B, 2018, 255:1105-1111.

[4]

XI Z F, YUAN F D, WANG Z F, LI S H, FAN L Z. Acta Chimica Sin., 2018, 76(6):460-466.

[5]

LIU M L, CHAN B B, LI C M, HUANG C Z. Green Chem., 2019, 21(3):449-471.

[6]

WANG R, LU K Q, TANG Z R, XU Y J. J. Mater. Chem. A, 2017, 5(8):3717-3734.

[7]

GUO Y M, ZHAO W. Coord. Chem. Rev., 2019, 387:249-261.

[8]

GUO Y M, ZHAO W. Spectrochim. Acta A, 2020, 240:118580.

[9]

YUAN F L, LI S H, FAN Z T, MENG X Y, FAN L Z, YANG S H. Nano Today, 2016, 11(5):565-586.

[10]

ARAKAWA T, KUROKI Y, NITTA H, CHOUHAN P, TOMA K, SAWADA S, TAKEUCHI S, SEKITA T, AKIYOSHI K, MINAKUCHI S, MITSUBAYASHI K. Biosens. Bioelectron., 2016, 84:106-111.

[11]

ZHU X H, PANG X, ZHANG Y Y, YAO S Z. J. Mater. Chem. B, 2019, 7(48):7729-7735.

[12]

MA H, LIU X Y, WANG X D, LI X R, YANG C D, IQBAI A, LIU W S, LI J P, QIN W W. Microchim. Acta, 2017, 184(1):177-185.

[13]

LIU G H, LI X Y, YU Z Y, REN P P, YANG F, WANG J, SONG Y T. J. Phys. Chem. Solids, 2018, 123:344-354.

[14]

LI J, LI X J, WENG R Q, QIANG T T, WANG X C. Sens. Actuators B, 2020, 304:127349.

[15]

NA W D, LIU H, WANG M Y, SU X G. Microchim. Acta, 2017, 184(5):1463-1470.

[16]

AHVENAINEN R. Trends Food Sci. Tech., 1996, 7(6):179-187.

[17]

LUO X J, ZHANG W G, HAN Y, CHEN X M, ZHU L, TANG W Z, WANG J L, YUE T L, LI Z H. Food Chem., 2018, 258:214-221.

[18]

MA X, LIN S J, DANG Y F, DAI Y, ZHANG X J, XIA F. Anal. Bioanal. Chem., 2019, 411(25):6645-6653.

[19]

SHAMSIPUR M, MOLAEI K, MOLAABASI F, ALIPOUR M, ALIZADEH N, HOSSEINKHANI S, HOSSEINI M. Talanta, 2018, 183:122-130.

[20]

HANG Y H, FANG X, ZHAO H, LI Z X. Talanta, 2018, 181:318-325.

[21]

WANG C X, PAN C W, WEI Z T, WEI X R, YANG F, MAO L Q. Anal. Chim. Acta, 2020, 1100:191-199.

[22]

WANG H T, NA X K, LIU S, LIU H F, ZHANG L J, XIE M Z, JIANG Z C, HAN F, LI Y, CHENG S S, TAN M Q. Talanta, 2019, 201:388-396.

[23]

PERRY M, LI Q, KENNEDY R T. Anal. Chim. Acta, 2009, 653(1):1-22.

[24]

WANG H B, ZHANG H D, CHEN Y, HUANG K J, LIU Y M. Sens. Actuators B, 2015, 220:146-153.

[25]

TIAN T, HE Y, GE Y, SONG G W. Sens. Actuators B, 2017, 240:1265-1271.

[26]

TAN X, ZHANG P, YE C Y, MIN Y H, LI Q W, WANG Y. Dyes Pigments, 2020, 180:108515.

[27]

WANG J, DU R, LIU W, YAO L, DING F, ZOU P, WANG Y Y, WANG X X, ZHAO Q B, RAO H B. Sens. Actuators B, 2019, 290:125-132.

[28]

ANJALI DENI J S, ANULEKSHMI A H, SALINI S, APARNA R S, GEORGE S. Microchim. Acta, 2017, 184(10):4081-4090.

[29]

QU F, HUANG W, YOU J M. Colloid. Surf. B, 2018, 162:212-219.

[30]

KOOLSTRA T, MILLARD P C, LLOYD J B. Cell Biol. Int. Rep., 1981, 5:30.

[31]

NJÄLSSON R, NORGREN S. Acta Paediatr., 2005, 94(2):132-137.

[32]

XU S M, LIU Y, YANG H, ZHAO K, LI J G, DENG A P. Anal. Chim. Acta, 2017, 964:150-160.

[33]

YANG X X, CUI F C, REN R, SUN J D, JI J, PI F W, ZHANG Y Z, SUN X L. ACS Omega, 2019, 4(7):12575-12583.

[34]

ZHU H S, WANG E K, LI J, WANG J. Anal. Chim. Acta, 2018, 1006:83-89.

[35]

SUN J J, WANG Q, YANG J J, ZHANG J J, LI Z, LI H, YANG X F. Microchim. Acta, 2019, 186(7):402.

[36]

LUO Y C, DO J S, LIU C C. Biosens. Bioelectron., 2006, 22(4):482-488.

[37]

AMJADI M, HALLAJ T, KOUHI Z. J. Photochem. Photobiol. A, 2018, 356:603-609.

[38]

WU W C, CHEN H Y T, LIN S C, CHEN H Y, CHEN F R, CHANG H T, TSENG F G. Microchim. Acta, 2019, 186(3):166.

[39]

KONG R, YANG A J, WANG Q, WANG Y J, MA L, QU F L. Microchim. Acta, 2018, 185:63.

计量
  • PDF下载量(52)
  • 文章访问量(128)
  • HTML全文浏览量(8)

目录

基于碳量子点荧光开启检测还原性生物小分子的研究进展

张昊晨, 郭永明

Figures and Tables