Chandru
近期热点
资料介绍
个人简历
Bananakere Nanjegowda Chandrashekar is currently working as a Research Assistant Professor in Prof. Cheng Xing group. He received his Ph.D. in 2013 from Kuvempu University, Karnataka, India. Then he joined as postdoctoral fellow at Peking University, Beijing in China. His research interest includes the fabrication of transparent & flexible electrodes, Nanostructured materials and Novel fabrication techniques for energy conversion/storage devices, and wearable electronics. Now, he has published over 52 SCI papers including Advanced Materials, Nano Letters, ACS Nano, Nano Energy, Journal of Colloid and Interface Science, Colloids and Surfaces B: Bio interfaces, Scientific Reports, which have been cited over 1225 times with H-index 20.研究领域
Transparent and Flexible ElectrodesEnergy Materials近期论文
[1] Single-electrode triboelectric nanogenerator based on economical graphite coated paper for harvesting waste environmental energy. Nano Energy 66 (2019), 104141.[2] Dry-Coated Graphite onto Sandpaper for Triboelectric Nanogenerator as an Active Power Source for Portable Electronics. Nanomaterials 9(11), (2019), 1585;[3] Free-Molecular-Flow Modulated Synthesis of Hexagonal Boron Nitride Monolayers. Cryst. Growth Des. 2019.[4] Oil Boundary Approach for Sublimation Enabled Camphor Mediated Graphene Transfer. Journal of Colloids and Interface Science 546, 15 (2019) 11-19 (2019),[5] A Universal Stamping Method of Graphene Transfer for Conducting Flexible and Transparent Polymers, Scientific Reports, 9, 3999 (2019)[6] Novel green biomimetic approach for synthesis of ZnO-Ag nanocomposite; antimicrobial activity against food-borne pathogen, biocompatibility and solar photocatalysis. Scientific Reportsvolume 9, Article number: 8303 (2019).[7] Cyclic Voltammetric and Quantum Chemical Studies of a Poly (methionine) Modified Carbon Paste Electrode for Simultaneous Detection of Dopamine and Uric Acid. Chemosensors, 2019, 7(2), 24.[8] Nature inspired ZnO/ZnS nanobranch-like composites, decorated with Cu(OH)2 clusters for enhanced visible-light photocatalytic hydrogen evolution (2019) 253, 379-390.[9] MOFs derived Zn/Co-Fe core-shell nanocages with remarkable oxygen evolution reaction performance. J. Mater. Chem. A, (2019). doi.10.1039/C9TA02017A[10] Cyclic Voltammetry and Quantum Chemical studies of Poly(methionine) Modified Carbon Paste Electrode for Simultaneous Investigation Dopamine and Uric Acid. Chemosensors (2019) Minor Revision.[11] Synthesis, optimization and applications of ZnO/polymer nanocomposites, Materials Science and Engineering: C, 98, (2019),1210-1240,[12] Roll-to-Roll Green Transfer of CVD Graphene onto Plastic for Transparent and Flexible Triboelectric Nanogenerator Liu Advanced materials, 27(35), (2015) 5210–5216 (2015).[13] Roll-to-roll encapsulation of metal nanowires between graphene and plastic substrate for high-performance flexible transparent electrodes. Nano Letters, 15, 4206−4213. (2015).[14] Fabricating High‐Efficient Blade‐Coated Perovskite Solar Cells under Ambient Condition Using Lead Acetate Trihydrate, Sol. RRL 2018, 2, 1700214 (Cover page) Volume 2, Issue 3, March 2018[15] Electronically semitransparent ZnO nanorods with superior electron transport ability for DSSCs and solar photocatalysis, Ceramics International (2018) doi.org/10.1016/j.ceramint.2018.01.167[16] Twin Defect Derived Growth of Atomically Thin MoS2 Dendrites, ACS Nano (2017)[17] Phosphorous doped graphitic-C 3 N 4 hierarchical architecture for hydrogen production from water under visible light, Materials Today Energy, (2017), 5, 91-98.[18] A laser irradiation synthesis of strongly-coupled VOx-reduced graphene oxide composites as enhanced performance supercapacitor electrodes, Materials Today Energy, (2017) 05, 222-229.[19] Theoretical and cyclic voltammetric studies on electrocatalysis of benzethonium chloride at carbon paste electrode for detection of dopamine in presence of ascorbic acid, Journal of Molecular Liquids (2017) 240, 395-401.[20] Heterogeneous growth mechanism of ZnO nanostructures and the effects of their morphology on optical and photocatalytic properties, CrystEngComm (2017) 3299-3312. 相关热点
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