纸基比色阵列传感器的研究进展

引用本文: 李延琪, 冯亮. 纸基比色阵列传感器的研究进展[J]. 分析化学, 2020, 48(11): 1448-1457. doi: 10.19756/j.issn.0253-3820.201240 shu

Citation: LI Yan-Qi, FENG Liang. Progress in Paper-based Colorimetric Sensor Array[J]. Chinese Journal of Analytical Chemistry, 2020, 48(11): 1448-1457. doi: 10.19756/j.issn.0253-3820.201240 shu

纸基比色阵列传感器的研究进展

李延琪 ^1,2, ,
冯亮 ^{1,
,}

1.
中国科学院大连化学物理研究所, 分离分析化学中国科学院重点实验室, 大连 116023;
2.
中国科学院大学, 北京 100049

通讯作者: 冯亮,fengl@dicp.ac.cn

基金项目:
本文系中国科学院科技服务网络计划（STS）重点项目（No.KFJ-STS-ZDTP-083）、大连市杰出青年基金项目（No.2018RJ02）和大连化学物理研究所创新基金项目（No.DICPZZBS201802）资助

摘要: 比色阵列传感器具有响应迅速的识别检测能力，结合纸基分析装置成本低廉、制作简单和多孔亲水等优点，近年来纸基比色阵列传感器的研究发展迅速，灵敏度和通用性得到了进一步提高，应用领域大大拓展，受到了研究者的广泛关注。本文主要介绍了纸基比色阵列传感器的研究进展，概括了其近年在生物医疗、环境检测、食品安全等领域的应用，针对不同的检测传感材料、检测原理及性能进行了讨论，并对其研究和应用的前景和发展趋势进行了展望。

关键词:

纸基
/ 比色
/ 阵列
/ 传感器
/ 评述

English

Progress in Paper-based Colorimetric Sensor Array

LI Yan-Qi ^1,2, ,
FENG Liang ^{1,
,}

1.
Dalian Institute of Chemical Physics, Key Lab of Separation Science for Analytical Chemistry of Chinese Academy of Sciences, Chinese Academy of Sciences, Dalian 116023, China;
2.
University of Chinese Academy of Sciences, Beijing 100049, China

Corresponding author: FENG Liang, fengl@dicp.ac.cn

Received Date: 28 April 2020
Revised Date: 09 July 2020
Fund Project:
This work was supported by the Science and Technology Service Network Initiative Key Project of Chinese Academy of Sciences (No. KFJ-STS-ZDTP-083) and the Projects of Dalian Distinguished Young Scholar (No. 2018RJ02) and Dalian Institute of Chemical Physics, Chinese Academy of Science (No. ZZBS201802).

Abstract: Paper-based colorimetric sensor array has attracted extensive attention due to its low-cost, easy-operation, powerful discrimination, good selectivity, rapid response and versatility. It combines the advantages of paper-based analytical devices and colorimetric sensor array, which extends its application fields in analytical chemistry. This review described the recent progress in paper-based colorimetric sensor array and summarized its applications in biomedicine, environmental and food safety. Moreover, the sensing materials, characteristics and performances of different paper-based colorimetric sensor arrays, as well as the prospects of future research for the paper-based colorimetric sensor array were discussed.

Key words:

Paper-based
/ Colorimetric
/ Array
/ Sensor
/ Review

1. [1]
  Cattral R W. Chemical Sensors, Oxford University Press, Oxford,1997
2. [2]
  Anzenbacher J P, Lubal P, Bucek P, Palacios M A, Kozelkova M E. Chem. Soc. Rev.,2010,39(10):3954-3979
3. [3]
  Collins B E, Wright A T, Anslyn E V. Combining Molecular Recognition, Optical Detection, and Chemometric Analysis, Springer-Verlag Berlin Heidelberg,2007,277:181-218
4. [4]
  Rakow N A, Suslick K S. Nature,2000,406(6797):710-713
5. [5]
  JIA Ming-Yan, FENG Liang. Chinese J. Anal. Chem.,2013,41(5):795-802 贾明艳, 冯亮.分析化学,2013,41(5):795-802
6. [6]
  Li Z, Suslick K S. Anal. Chem.,2018,91(1):797-802
7. [7]
  Bigdeli A, Ghasemi F, Golmohammadi H, Abbasi-Moayed S, Nejad M A F, Fahimi-Kashani N, Jafarinejad S, Shahrajabian M, Hormozi-Nezhad M R. Nanoscale,2017,9(43):16546-16563
8. [8]
  Janzen M C, Ponder J B, Bailey D P, Ingison C K, Suslick K S. Anal. Chem.,2006,78(11):3591-3600
9. [9]
  Li M, Liu K, Wang L, Liu J, Miao R, Fang Y. Anal. Chem.,2019,92(1):1068-1073
10. [10]
  Li Z, Zhang S W, Yu T, Dai Z M, Wei S Q. Anal. Chem.,2019,91(16):10448-10457
11. [11]
  Kangas M J, Wilson C L, Burks R M, Atwater J, Lukowicz R M, Garver B, Mayer M, Havenridge S, Holmes A E. Int. J. Chem.,2018,10(2):36
12. [12]
  Martinez A W, Phillips S T, Butte M J, Whitesides G M. Angew. Chem. Int. Ed.,2007,46(8):1318-1320
13. [13]
  Xu Y, Liu M, Kong N, Liu J. Microchim. Acta,2016,183(5):1521-1542
14. [14]
  Ellerbee A K, Phillips S T, Siegel A C, Mirica K A, Martinez A W, Striehl P, Jain N, Prentiss M, Whitesides G M. Anal. Chem.,2009,81(20):8447-8452
15. [15]
  Cate D M, Adkins J A, Mettakoonpitak J, Henry C S. Anal. Chem.,2015,87(1):19-41
16. [16]
  Yetisen A K, Akram M S, Lowe C R. Lab Chip,2013,13(12):2210-2251
17. [17]
  Meredith N A, Quinn C, Cate D M, Reilly T H,Volckens J, Henry C S. Analyst,2016,141(6):1874-1887
18. [18]
  Liu H, Cooks R M. J. Am. Chem. Soc.,2011,133(44):17564-17566
19. [19]
  Gao B B, Liu H, Gu Z Z. Anal. Chem.,2016,88(10):5424-5429
20. [20]
  Ueland M, Blanes L, Taudte R V, Stuart B H, Cole N, Willis P, Roux C, Doble P. J. Chromatogr. A,2016,1436:28-33
21. [21]
  Xu C, Cai L, Zhong M, Zheng S. RSC Adv.,2015,5(7):4770-4773
22. [22]
  Martinez A W, Phillips S T, Wiley B J, Gupta M, Whitesides G M. Lab Chip,2012,8(12):2146-2150
23. [23]
  Demirel G, Babur E. Analyst,2014,139(10):2326-2331
24. [24]
  Salles M O, Meloni G N, de Araujo W R, Paixão T R L C D. Anal. Methods,2014,6(7):2047-2052
25. [25]
  Kangas M J, Lukowicz R, Atwater J, Pliego A, Al-Shdifat Y, Havenridge S, Burks R, Garver B, Mayer M, Holmes A E. Anal. Chem.,2018,90(16):9990-9996
26. [26]
  Huang G W, Li N, Xiao H M, Feng Q P, Fu S Y. Nanoscale,2017,9(27):9598-9605
27. [27]
  Li Z, Askim J R, Suslick K S. Chem. Rev.,2018,119(1):231-292
28. [28]
  Mujawar L H, El-Shahawi M S. Microchem. J.,2019,146:434-443
29. [29]
  Pumtang S, Siripornnoppakhun W, Sukwattanasinitt M, Ajavakom A. J. Colloid Interf. Sci.,2011,364(2):366-372
30. [30]
  LIU Wei-Ping, LIN Jin-Qiong, DU Yan, QI Ming-Yue, LIANG Guang-Tie, YANG Na, LIU Da-Yu. Chinese J. Anal. Chem.,2016,44(4):579-585 刘未平, 林锦琼, 杜燕, 齐明月, 梁广铁, 杨娜, 刘大渔.分析化学,2016,44(4):579-585
31. [31]
  Rahimi R, Ochoa M, Parupudi T, Zhao X, Yazdi I K, Dokmeci M R, Tamayol A, Khademhoddeini A, Ziaie B. Sens. Actuators B,2016,229:609-617
32. [32]
  Mohammadifar M, Choi S. A Portable and Visual Electrobiochemical Sensor for Lactate Monitoring in Sweat, IEEE International Conference on Nano-Molecular Medicine and Engineering (IEEE-NANOMED), IEEE, 2018:73-77
33. [33]
  ZHANG Hui-Yan, ZHANG Zhen, JI Xing-Hu, HE Zhi-Ke. Chinese J. Anal. Chem.,2014,42(9):1276-1280 张慧妍, 张珍, 吉邢虎, 何治柯.分析化学,2014,42(9):1276-1280
34. [34]
  CHEN Xi, CHEN Jin, ZHANG Hui-Yan, WANG Fu-Bing, WANG Fang-Fang, JI Xing-Hu, HE Zhi-Ke. Chinese J. Anal. Chem.,2016,44(4):591-596 陈熙, 陈锦, 张慧妍, 王付兵, 王方方, 吉邢虎, 何治柯.分析化学,2016,44(4):591-596
35. [35]
  Jia M Y, Wu Q S, Li H, Zhang Y, Guan Y F, Feng L. Biosens. Bioelectron., 2015,74:1029-1037
36. [36]
  Silva T G, Paixão T R L C. Development of a Colorimetric Array to Discriminate Cutting Agents in Seized Cocaine Samples, IEEE International Symposium on Olfaction and Electronic Nose (ISOEN), IEEE,2019:1-3
37. [37]
  Kangas M J, Burks R M, Atwater J, Lukowicz R M, Holmes A E. Crit. Rev. Anal. Chem.,2016,47(2):138-153
38. [38]
  Li Z, Paul R, Tis T B, Saville A C, Hansel J C, Yu T, Ristaino J B, Wei Q S. Nat. Plants,2019,5(8):856-866
39. [39]
  Chen Y, Zilberman Y, Mostafalu P, Sonkusale S R. Biosens. Bioelectron.,2015,67:477-484
40. [40]
  Soga T, Jimbo Y, Suzuki K, Citterio D. Anal. Chem.,2013,85(19):8973-8978
41. [41]
  Nguyen T T T, Huy B T, Lee Y I. ACS Omega,2019, 4(7):12665-12670
42. [42]
  Patil V S, Lee M G, Yun J, Lee J S, Lim S H, Yi G R. Langmuir,2018,34(43):13014-13024
43. [43]
  Dolai S, Bhunia S K, Beglaryan S S, Kolusheva S, Zeiri L, Jelinek R. ACS Appl. Mater. Interfaces,2017,9(3):2891-2898
44. [44]
  Yoon J, Chae S K, Kim J M. J. Am. Chem. Soc.,2007,129(11):3038-3039
45. [45]
  Eaidkong T, Mungkarndee R, Phollookin C, Tumcharern G, Sukwattanasinitt M, Wacharasindhu S. J. Mater. Chem.,2012,22(13):5970-5977
46. [46]
  Park D H, Heo J M, Jeong W, Yoo Y H, Park B J, Kim J M. ACS Appl. Mater. Interfaces,2018,10(5):5014-5021
47. [47]
  Jarangdet T, Pratumyot K, Srikittiwanna K, Dungchai W, Mingvanish W, Techakriengkrai I, Sukwattanasinitt M, Niamnont N. Dyes Pigm.,2018,159:378-383
48. [48]
  Bordbar M M, Tashkhourian J, Hemmateenejad B. ACS Sens.,2019,4(5):1442-1451
49. [49]
  Chen Y, Owyeung R E, Sonkusale S R. Anal. Chim. Acta,2018,1034:128-136
50. [50]
  Pohl P. TrAC-Trends Anal. Chem.,2009,28:117-228
51. [51]
  Butcher D J. Instrum. Sci. Technol.,2010,38(6):458-469
52. [52]
  Ioannidou M D, Zachariadis G A, Anthemidis A N, Stratis J A. Talanta, 2005,65(1):92-97
53. [53]
  Feng L, Li H, Niu L Y, Guan Y S, Duan C F, Guan Y F, Tung C H, Yang Q Z. Talanta,2013,108:103-108
54. [54]
  Zhang Y, Li X, Li H, Song M, Feng L, Guan Y F. Analyst,2014,139(19):4887-4893
55. [55]
  Idros N, Chu D. ACS Sens.,2018,3(9):1756-1764
56. [56]
  Sun H, Jia Y, Dong H, Fan L, Zheng J. Anal. Chim. Acta,2018,1044:110-118
57. [57]
  Huang X W, Zou X B, Shi J Y, Li Z H, Zhao J W. Trends Food Sci. Tech.,2018,81:90-107
58. [58]
  Park S H, Maruniak A, Kim J, Yi G R, Lim S H. Talanta, 2016,153:163-169
59. [59]
  Popa C V, Vasilescu A, Litescu S C, Albu C, Danet A F. Anal. Lett.,2020,53(4):627-645
60. [60]
  Lee K, Park H, Baek S, Han S, Kim D, Chung S, Yoon J K, Seo J. Food Packaging. Shelf.,2019,22:100408
61. [61]
  Chen Y, Fu G Q, Zilberman Y, Ruan W, Ameri S K, Zhang Y S, Miller E, Sonkusale S R. Food Control,2017,82:227-232
62. [62]
  Han F K, Huang X Y, Teye E. J. Food Process Eng.,2019,42(2):627-645
63. [63]
  Sheini A. Microchim. Acta,2020,187:167
64. [64]
  Wang Y, Li Y Y, Liu Y, Han J, Xia J, Bao X, Ni L, Tang X. RSC Adv.,2016,6(84):80885-80895

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

纸基比色阵列传感器的研究进展

通讯作者: 冯亮,fengl@dicp.ac.cn

English

Progress in Paper-based Colorimetric Sensor Array

Corresponding author: FENG Liang, fengl@dicp.ac.cn

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通讯作者: 陈斌, bchen63@163.com

中国化学会秘书处

纸基比色阵列传感器的研究进展

通讯作者: 冯亮,fengl@dicp.ac.cn

English

Progress in Paper-based Colorimetric Sensor Array

Corresponding author: FENG Liang, fengl@dicp.ac.cn

CCS Chemistry：嵌段共聚物自组装成 “三明治”二维有机材料，实现纳米级压力传感功能

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CCS Chemistry：工作高效不疲劳，只须让催化剂动起来

CCS Chemistry：静电组装导向聚合- 聚电解质纳米凝胶量化制备新策略

CCS Chemistry：金黄色葡萄球菌醛基脱氢酶是如何识别特异性底物的？

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