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W4281687718 abstract "Due to their advantages of good flexibility, low cost, simple operations, and small equipment size, electrochemical sensors have been commonly employed in food safety. However, when they are applied to detect various food or drug samples, their stability and specificity can be greatly influenced by the complex matrix. By combining electrochemical sensors with molecular imprinting techniques (MIT), they will be endowed with new functions of specific recognition and separation, which make them powerful tools in analytical fields. MIT-based electrochemical sensors (MIECs) require preparing or modifying molecularly imprinted polymers (MIPs) on the electrode surface. In this review, we explored different MIECs regarding the design, working principle and functions. Additionally, the applications of MIECs in food and drug safety were discussed, as well as the challenges and prospects for developing new electrochemical methods. The strengths and weaknesses of MIECs including low stability and electrode fouling are discussed to indicate the research direction for future electrochemical sensors." @default.
W4281687718 created "2022-06-13" @default.
W4281687718 creator A5003360183 @default.
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W4281687718 date "2022-05-27" @default.
W4281687718 modified "2023-10-16" @default.
W4281687718 title "Towards Development of Molecularly Imprinted Electrochemical Sensors for Food and Drug Safety: Progress and Trends" @default.
W4281687718 cites W2033139932 @default.
W4281687718 cites W2047683103 @default.
W4281687718 cites W2465604914 @default.
W4281687718 cites W2518868491 @default.
W4281687718 cites W2525803632 @default.
W4281687718 cites W2660434330 @default.
W4281687718 cites W2664462862 @default.
W4281687718 cites W2727423140 @default.
W4281687718 cites W2745687010 @default.
W4281687718 cites W2757812247 @default.
W4281687718 cites W2767477051 @default.
W4281687718 cites W2781781228 @default.
W4281687718 cites W2800875463 @default.
W4281687718 cites W2883651170 @default.
W4281687718 cites W2902407991 @default.
W4281687718 cites W2911638153 @default.
W4281687718 cites W2922932889 @default.
W4281687718 cites W2931211806 @default.
W4281687718 cites W2939478228 @default.
W4281687718 cites W2941246111 @default.
W4281687718 cites W2947405463 @default.
W4281687718 cites W2996427817 @default.
W4281687718 cites W2996557982 @default.
W4281687718 cites W2999532007 @default.
W4281687718 cites W3006275452 @default.
W4281687718 cites W3011496797 @default.
W4281687718 cites W3013703750 @default.
W4281687718 cites W3015470783 @default.
W4281687718 cites W3016292144 @default.
W4281687718 cites W3032988214 @default.
W4281687718 cites W3034506909 @default.
W4281687718 cites W3039963053 @default.
W4281687718 cites W3040250435 @default.
W4281687718 cites W3047962558 @default.
W4281687718 cites W3090008323 @default.
W4281687718 cites W3091901808 @default.
W4281687718 cites W3095610048 @default.
W4281687718 cites W3106886256 @default.
W4281687718 cites W3108229809 @default.
W4281687718 cites W3120717251 @default.
W4281687718 cites W3121325188 @default.
W4281687718 cites W3123978030 @default.
W4281687718 cites W3130117803 @default.
W4281687718 cites W3131284135 @default.
W4281687718 cites W3132404912 @default.
W4281687718 cites W3136467134 @default.
W4281687718 cites W3141931126 @default.
W4281687718 cites W3146497898 @default.
W4281687718 cites W3152873465 @default.
W4281687718 cites W3153152992 @default.
W4281687718 cites W3155568064 @default.
W4281687718 cites W3158660519 @default.
W4281687718 cites W3158824636 @default.
W4281687718 cites W3162250016 @default.
W4281687718 cites W3163186637 @default.
W4281687718 cites W3164199337 @default.
W4281687718 cites W3165677366 @default.
W4281687718 cites W3168320520 @default.
W4281687718 cites W3171567113 @default.
W4281687718 cites W3173284953 @default.
W4281687718 cites W3174244321 @default.
W4281687718 cites W3179108241 @default.
W4281687718 cites W3185091301 @default.
W4281687718 cites W3185808936 @default.
W4281687718 cites W3193293395 @default.
W4281687718 cites W3196036631 @default.
W4281687718 cites W3196756544 @default.
W4281687718 cites W3204922827 @default.
W4281687718 cites W3205581746 @default.
W4281687718 cites W3210958357 @default.
W4281687718 cites W3212316352 @default.
W4281687718 cites W3212523289 @default.
W4281687718 cites W3215776252 @default.
W4281687718 cites W4212960022 @default.
W4281687718 cites W4226084014 @default.
W4281687718 doi "https://doi.org/10.3390/bios12060369" @default.
W4281687718 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35735516" @default.
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