Hsin-Hsin Fan scite author profile

Hsin-Hsin Fan

2Publications

40Citation Statements Received

60Citation Statements Given

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National Tsing Hua University

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Electrochemical Cycling-Induced Spiky Cu_xO/Cu Nanowire Array for Glucose Sensing

et al. 2019

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The glucose level is an important biological indicator for diabetes diagnosis. In contrast with costly and unstable enzymatic glucose sensing, oxide-based glucose sensors own the advantages of low fabrication cost, outstanding catalytic ability, and high chemical stability. Here, we fabricate a self-supporting spiky Cu x O/Cu nanowire array structure by electrochemical cycling treatment. The spiky Cu x O/Cu nanowire is identified to be a Cu core passivated by a conformal Cu 2 O layer with extruded CuO petals, which provides abundant active sites for electrocatalytic reaction in glucose detection. An interruptive potential sweeping experiment is presented to elucidate the growth mechanism of the spiky Cu x O/Cu nanostructure during the potential cycling treatment. The spiky Cu x O/Cu nanowire array electrode exhibits a sensitivity of 1210 ± 124 μA·mM –1 ·cm –2 , a wide linear detection range of 0.01–7 mM, and a short response time (<1 s) for amperometric glucose sensing. The study demonstrates a route to modulate oxide phase, crystal morphology, and electrocatalytic properties of metal/oxide core–shell nanostructures.

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Twin-mediated epitaxial growth of highly lattice-mismatched Cu/Ag core–shell nanowires

et al. 2018

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Lattice-mismatch is an important factor for the heteroepitaxial growth of core-shell nanostructures. A large lattice-mismatch usually leads to a non-coherent interface or a polycrystalline shell layer. In this study, a conformal Ag layer is coated on Cu nanowires with dense nanoscale twin boundaries through a galvanic replacement reaction. Despite a large lattice mismatch between Ag and Cu (∼12.6%), the Ag shell replicates the twinning structure in Cu nanowires and grows epitaxially on the nanotwinned Cu nanowire. A twin-mediated growth mechanism is proposed to explain the epitaxy of high lattice-mismatch bimetallic systems in which the misfit dislocations are accommodated by coherent twin boundaries.

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Hsin-Hsin Fan

Electrochemical Cycling-Induced Spiky Cu_xO/Cu Nanowire Array for Glucose Sensing

Twin-mediated epitaxial growth of highly lattice-mismatched Cu/Ag core–shell nanowires

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Hsin-Hsin Fan

Electrochemical Cycling-Induced Spiky CuxO/Cu Nanowire Array for Glucose Sensing

Twin-mediated epitaxial growth of highly lattice-mismatched Cu/Ag core–shell nanowires

Contact Info

Product

Resources

About

Electrochemical Cycling-Induced Spiky Cu_xO/Cu Nanowire Array for Glucose Sensing