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Main Authors: Xia, Xinyan, Yin, Tanji, Li, Jinghui, Zhuang, Xuming, Qin, Wei
Format: Artículo científico
Language:en
Published: Chemical communications (Cambridge, England) 2026
Online Access:https://pubmed.ncbi.nlm.nih.gov/42011705/
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author Xia, Xinyan
Yin, Tanji
Li, Jinghui
Zhuang, Xuming
Qin, Wei
author_facet Xia, Xinyan
Yin, Tanji
Li, Jinghui
Zhuang, Xuming
Qin, Wei
Xia, Xinyan
Yin, Tanji
Li, Jinghui
Zhuang, Xuming
Qin, Wei
collection PubMed - marine biology
contents A highly stable potentiometric Li-sensing chip based on hydrophobic laser-induced graphene. Xia, Xinyan Yin, Tanji Li, Jinghui Zhuang, Xuming Qin, Wei An electrochemical reduction method to fabricate hydrophobic laser-induced graphene (er-LIG) was introduced. An integrated potentiometric Li-sensing chip was constructed based on er-LIG with large double-layer capacitance and good conductivity. The proposed potentiometric sensing chip shows high potential stability for fast, direct, and low-cost detection of Li.
format Artículo científico
id pubmed_42011705
institution PubMed
language en
publishDate 2026
publisher Chemical communications (Cambridge, England)
record_format pubmed
spellingShingle A highly stable potentiometric Li-sensing chip based on hydrophobic laser-induced graphene.
Xia, Xinyan
Yin, Tanji
Li, Jinghui
Zhuang, Xuming
Qin, Wei
A highly stable potentiometric Li-sensing chip based on hydrophobic laser-induced graphene. Xia, Xinyan Yin, Tanji Li, Jinghui Zhuang, Xuming Qin, Wei An electrochemical reduction method to fabricate hydrophobic laser-induced graphene (er-LIG) was introduced. An integrated potentiometric Li-sensing chip was constructed based on er-LIG with large double-layer capacitance and good conductivity. The proposed potentiometric sensing chip shows high potential stability for fast, direct, and low-cost detection of Li.
title A highly stable potentiometric Li-sensing chip based on hydrophobic laser-induced graphene.
url https://pubmed.ncbi.nlm.nih.gov/42011705/