AI Article Synopsis
- Researchers aimed to improve the detection of trace heavy metal ions by creating nano-patterned carbon electrodes using colloidal hollow carbon nanospheres (HCSs).
- They found a significant relationship between the contact points on the electrodes and electron transfer resistance, providing a new model for understanding how structure affects sensing efficiency.
- The resulting carbon electrode demonstrated high sensitivity for detecting lead ions (Pb(ii)) at 0.160 μA nM(-1) and a detection limit of 0.6 nM, which is considerably lower than the EPA's guideline of 72 nM, making it a promising alternative sensor for heavy metals.
Article Abstract
The challenge in efficient electrochemical detection of trace heavy metal ions (HMI) for early warning is to construct an electrode with a nano-patterned architecture. In this study, a range of carbon electrodes with ordered structures were fabricated using colloidal hollow carbon nanospheres (HCSs) as sensing materials for trace HMI (represented by Pb(ii)) detection by square wave anodic stripping voltammetry. The regular geometrical characteristics of the carbon electrode allow it to act as a model system for the estimation of electron transfer pathways by calculating contact points between HCSs and a glassy carbon electrode. A clear correlation between the contact points and the electron transfer resistance has been established, which fits well with the quadratic function model and is dependent on the size of HCSs. To our knowledge, this is the first clear function that expresses the structure-sensing activity relationship of carbon-based electrodes. The prepared carbon electrode is capable of sensing Pb(ii) with a sensitivity of 0.160 μA nM(-1), which is much higher than those of other electrodes reported in the literature. Its detection limit of 0.6 nM is far below the guideline value (72 nM) given by the US Environmental Protection Agency. In addition, the carbon electrode could be a robust alternative to various heavy metal sensors.
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| http://dx.doi.org/10.1039/c6nr04019e | DOI Listing |
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