AI Article Synopsis
- Electrochemical sensors are crucial for detecting small organic molecules and improving environmental and human health awareness, but current sensors for formaldehyde face challenges like low efficiency and CO poisoning.
- A new 2D Cr-doped Pd metallene (Cr-Pdene) is introduced as a highly effective catalyst that enhances formaldehyde detection by improving electrooxidation efficiency and reducing CO interference.
- Cr-Pdene sensors outperform traditional models with significantly higher detection capabilities and compatibility for use in commercial wireless networks, which could benefit various applications in environmental monitoring, health, and food safety.
Article Abstract
Electrochemical sensors for detecting micromolecule organics are desirable for improving the perception of environmental quality and human health. However, currently, the electrochemical sensors for formaldehyde are substantially limited on the market due to the long-term unsolved problems of the low electrooxidation efficiency and CO poisoning issue of commercial Pd catalysts. Here, a 2D Cr-doped Pd metallene (Cr-Pdene) with few atomic layers is shown as an advanced catalyst for ultrasensitive and selective sensing of formaldehyde via a highly efficient formaldehyde electrooxidation. It is found that the doping of Cr into Pd metallene can efficiently optimize the electronic structure of Pd and weaken the interaction between Pd and CO, providing an anti-poisoning means to favor CO production and suppress CO adsorption. The Cr-Pdene-based electrochemical sensor exhibits one order of magnitude higher detection range and, especially, much higher anti-interference for formaldehyde than that of the conventional sensors. Most importantly, it is demonstrated that the Cr-Pdene can be integrated into commercializable wireless sensor networks or handheld instruments for promising applications relating to the environment, health, and food.
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| http://dx.doi.org/10.1002/adma.202105276 | DOI Listing |
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Article Synopsis
- Electrochemical sensors are crucial for detecting small organic molecules and improving environmental and human health awareness, but current sensors for formaldehyde face challenges like low efficiency and CO poisoning.
- A new 2D Cr-doped Pd metallene (Cr-Pdene) is introduced as a highly effective catalyst that enhances formaldehyde detection by improving electrooxidation efficiency and reducing CO interference.
- Cr-Pdene sensors outperform traditional models with significantly higher detection capabilities and compatibility for use in commercial wireless networks, which could benefit various applications in environmental monitoring, health, and food safety.
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