Carbon nanotubes heavy metal detection with stripping voltammetry: A review paper
Tingting Wang, Wei Yue

TL;DR
This review paper discusses the use of carbon nanotubes in stripping voltammetry for sensitive heavy metal detection, highlighting recent advancements from 2011 to 2016.
Contribution
It provides a comprehensive overview of recent applications of carbon nanotubes as electrode modifiers in heavy metal detection via stripping voltammetry.
Findings
Carbon nanotubes enhance sensitivity and selectivity in heavy metal detection.
Recent applications demonstrate improved detection limits and efficiency.
The review summarizes key developments from 2011 to 2016.
Abstract
The challenge of heavy metal detection for environmental, industrial and medical purposes has led to the development of many analytical techniques. Stripping voltammetry is a very sensitive electrochemical method and has been widely used for heavy metal detection. Carbon nanotubes, a well-studied carbon material with physical and chemical properties suited for electrode material is commonly employed for sensitive and selective metal detection in electrochemistry. This article reviews the recent (2011-2016) applications of carbon nanotubes as an electrode or electrode surface modifier for heavy metals detection with stripping voltammetry.
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