Peihao Cheng scite author profile

Peihao Cheng

3Publications

5Citation Statements Received

254Citation Statements Given

How they've been cited

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160

253

Affiliations

Dalian University, Dalian University of Technology

Publications

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Wearable Motion Smartsensors Self-Powered by Core–Shell Au@Pt Methanol Fuel Cells

Liu

Cheng

et al. 2021

ACS Sens.

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A wearable self-powered sensor is a promising frontier in recent flexible electronic devices. In this work, a wearable fuel cell (FC)-type self-powering motion smartsensor has been fabricated, particularly in choosing methanol vapor as a target fuel for the first time. The core–shell structure of Pt@Au/N-rGO and the porous carbon network act as methanol oxidation and oxygen reduction reaction catalysts, with a highly conductive alkaline hydrogel as a solid-state electrolyte. As a result, a wearable FC for a self-powered sensing system demonstrates excellent sensing performance toward 2–20% (v/v) methanol vapor with a maximum power density of 2.26 μW cm–1 and good mechanical behaviors during the bending or twisting process. Significantly, this wearable FC device could power strain sensors of human motion, and real-time signals can be easily remotely detected via a cellphone. With attractive biocompatibility and self-powering performance, wearable FCs for a self-powering system would provide new opportunities for next-generation flexible smartsensing electronics and initiate a developed self-powering platform in future practical application of wearable smart monitoring.

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Highly Selective Wearable Alcohol Homologue Sensors Derived from Pt-Coated Truncated Octahedron Au

Cheng

Chen

et al. 2022

ACS Sens.

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Unhealthy alcohol inhalation is among the top 10 causes of preventable death. However, the present alcohol sensors show poor selectivity among alcohol homologues. Herein, Pt-coated truncated octahedron Au (Pt m @Auto) as the electrocatalyst for a highly selective electrochemical sensor toward alcohol homologues has been designed. The alcohol sensor is realized by distinguishing the electro-oxidation behavior of methanol (MeOH), ethanol (EtOH), or isopropanol (2-propanol). Intermediates from alcohols are further oxidized to CO2 by Pt m @Auto, resulting in different oxidation peaks in cyclic voltammograms and successful distinction of alcohols. Pt m @Auto is then modified on wearable glove-based sensors for monitoring actual alcohol samples (MeOH fuel, vodka, and 2-propanol hand sanitizer), with good mechanical performance and repeatability. The exploration of the Pt m @Auto-based wearable alcohol sensor is expected to be suitable for environmental measurement with high selectivity for alcohol homologues or volatile organic compounds.

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Customizable assembly of free-standing integrated electronics for wearables by phase separation

Chen

Cheng

et al. 2022

Chem. Commun.

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Peihao Cheng

Wearable Motion Smartsensors Self-Powered by Core–Shell Au@Pt Methanol Fuel Cells

Highly Selective Wearable Alcohol Homologue Sensors Derived from Pt-Coated Truncated Octahedron Au

Customizable assembly of free-standing integrated electronics for wearables by phase separation

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