Ultrasensitive detecting of dopamine in complex components by field effect transistor sensor based on the synergistic enhancement effect and overcoming debye length limitations-Reference-Cited by-同舟云学术

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Ultrasensitive detecting of dopamine in complex components by field effect transistor sensor based on the synergistic enhancement effect and overcoming debye length limitations

Published:2024-03 Issue: Volume:58 Page:107487
ISSN:2211-3797
Container-title:Results in Physics
language:en
Short-container-title:Results in Physics

Author:

Tian Meng,Li Chonghui,Yu Renzhong,Shen Congcong,Wang Jihua,Lu Jiajun,Liu Guofeng,Wang Zhenxing,Wang Tiejun,Zhao Xiaofei,Li Zhen,Li Le,Man Baoyuan,Xu Shicai^ORCID,Zhang Chao

Funder

National Natural Science Foundation of China

Shandong Province Natural Science Foundation

Taishan Scholar Foundation of Shandong Province

Publisher

Elsevier BV

Reference71 articles.

1. Rapid detection of COVID-19 causative virus (SARS-CoV-2) in human nasopharyngeal swab specimens using field-effect transistor-based biosensor;Seo;ACS Nano,2020

2. Biosensors promising bio-device for pandemic screening “COVID-19”;Mobed;Microchem J,2021

3. Two-dimensional nanomaterial-based field-effect transistors for chemical and biological sensing;Mao;Chem Soc Rev,2017

4. Ultratrace antibiotic sensing using aptamer/graphene-based field-effect transistors;Chen;Biosens Bioelectron,2019

5. Real-time and selective detection of nitrates in water using graphene-based field-effect transistor sensors;Chen;Environ Sci Nano,2018

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