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Xinjian Feng
Researcher at Chinese Academy of Sciences
Publications - 52
Citations - 9509
Xinjian Feng is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Chemistry & Nanowire. The author has an hindex of 26, co-authored 38 publications receiving 8872 citations. Previous affiliations of Xinjian Feng include Soochow University (Suzhou) & Northern Illinois University.
Papers
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Journal ArticleDOI
Fabrication of coaxial TiO2/Sb2S3 nanowire hybrids for efficient nanostructured organic–inorganic thin film photovoltaics
Juliano C. Cardoso,Craig A. Grimes,Xinjian Feng,Xiaoyan Zhang,Sridhar Komarneni,Maria Valnice Boldrin Zanoni,Ningzhong Bao +6 more
TL;DR: Low-cost, all solution fabrication of efficient air-stable nanostructured thin film photovoltaics comprised of n-type Sb(2)S(3) chemically deposited onto TiO( 2) nanowire array films and intercalated with poly(3-hexylthiophene) (P3HT).
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Nickel-Cathoded Perovskite Solar Cells
TL;DR: In this article, a set of perovskite-type solar cells that use nickel (φ = 5.04 eV), an earth-abundant element and non-precious metal, as back cathode and achieve the same open-circuit voltage as gold and an efficiency of 10.4%.
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High performance Cu/Cu2O nanohybrid electrocatalyst for nonenzymatic glucose detection
Xiqing Cheng,Xiqing Cheng,Jun Zhang,Hucheng Chang,Liqiang Luo,Fuqiang Nie,Xinjian Feng,Xinjian Feng +7 more
TL;DR: High resolution transmission electron microscopy images reveal a homogeneous distribution of Cu and Cu2O in the composite, and the nanohybrids show much lower resistivity and higher glucose oxidation activity compared to the Cu/Cu2O counterpart.
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Nanostructured tantala as a template for enhanced osseointegration.
Timothy T. Ruckh,Joshua R. Porter,Nageh K. Allam,Xinjian Feng,Craig A. Grimes,Ketul C. Popat +5 more
TL;DR: Novel nanostructured nanoarrays from tantala that can promote cell adhesion and differentiation are presented and it is suggested that tantala nanotube arrays enhance osteoblastcell adhesion, proliferation and differentiation.
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A high performance three-phase enzyme electrode based on superhydrophobic mesoporous silicon nanowire arrays for glucose detection.
TL;DR: A high performance oxygen-rich three-phase enzyme electrode based on superhydrophobic mesoporous silicon nanowire arrays for glucose detection with linear detection upper limit is 30 mM, more than 15 times higher than that can be obtained on the normal enzyme-electrode.