Xiuchao Sun scite author profile

Xiuchao Sun

2Publications

37Citation Statements Received

85Citation Statements Given

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107

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Qingdao University of Science and Technology

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Ultrathin Graphdiyne/Graphene Heterostructure as a Robust Electrochemical Sensing Platform

Sun

Duan

et al. 2022

Anal. Chem.

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Graphdiyne (GDY) has been considered as an appealing electrode material for electrochemical sensing because of its alkyne-rich structure and high degrees of π-conjugation, which shows great affinity to heavy metal ions and pollutant molecules via d−π and π–π interactions. However, the low surface area and poor conductivity of bulk GDY limit its electrochemical performance. Herein, a two-dimensional ultrathin GDY/graphene (GDY/G) nanostructure was synthesized and used as an electrode material for electrochemical sensing. Graphene plays the role of an epitaxy template for few-layered GDY growth and conductive layers. The formed few-layered GDY with a high surface area possesses abundant affinity sites toward heavy metal ions (Cd2+, Pb2+) and toxic molecules, for example, nitrobenzene and 4-nitrophenol, via d−π and π–π interactions, respectively. Moreover, hemin as a key part of the enzyme catalytic motif was immobilized on GDY/G via π–π interactions. The artificial enzyme mimic hemin/GDY/G-modified electrode exhibited promising ascorbic acid and uric acid detection performance with excellent sensitivity and selectivity, a good linear range, and reproducibility. More importantly, real sample detection and the feasibility of this electrochemical sensor as a wearable biosensor were demonstrated.

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Graphdiyne/graphene heterostructure supported NiFe layered double hydroxides for oxygen evolution reaction

Shi

Sun

Bai

et al. 2022

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Xiuchao Sun

Ultrathin Graphdiyne/Graphene Heterostructure as a Robust Electrochemical Sensing Platform

Graphdiyne/graphene heterostructure supported NiFe layered double hydroxides for oxygen evolution reaction

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