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Articles 1–20. Professor of Chemistry and Nanotechnology, Peking University (zfliu@pku .cn) - Cited by 72,162 - Graphene - MoS2 - carbon nanotubes - Raman - PL.
Printable Energy Storage: Stay or Go? Yuhan Zou, Changpeng Qiao, Jingyuan Sun. Published in ACS Nano 5 September 2023. Engineering, Materials Science, Environmental Science. In the era of rapidly evolving smart electronic devices, the development of power supplies with miniaturization and versatility is imperative.
2,2,6,6-Tetramethylpiperidine-1-oxyl (TEMPO) functional polymers are a type of organic electroactive material featuring a two-electron redox process. However, the electrochemical reduction of TEMPO (TEMPO•/–) is rarely adopted for energy storage due to its slow
Deep reinforcement learning-based energy storage arbitrage with accurate lithium-ion battery degradation model
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Energy storage applications include electrodes in rechargeable lithium- and sodium-ion batteries, lithium–sulfur batteries, and supercapacitors. In terms of energy conversion, photocatalytic fuel production, such as hydrogen
Dr Zhongfan Jia is an Associate Professor in the College of Science and Engineering at the Flinders University. He graduated with a PhD in Polymer Chemistry and Physics in 2007 from Fudan University. Followed by
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Graphdiyne(GDY), which is composed of sp2-/sp-hybridized carbon atoms, has attracted increasing attention. In the structure of GDY, the existence of large triangular-like pores, well dispersed electron-rich cavities as well as a large π-conjugated structure endows GDY with a natural bandgap, fast electron/ion transport, and tunable
Focus will be on preparation of nanomaterials for Li-ion batteries and supercapacitors, structural design of the nanogenerator-based self-charging energy storage devices, performance testing, and potential applications. HighlightsThe progress of nanogenerator-based self-charging energy storage devices is summarized.The
Energy storage applications include electrodes in rechargeable lithium- and sodium-ion batteries, lithium-sulfur batteries, and supercapacitors. In terms of energy conversion, photocatalytic
Direct-Chemical Vapor Deposition-Enabled Graphene for Emerging Energy Storage: Versatility, Essentiality, and Possibility. August 2022. ACS Nano 16 (8) DOI:
Organic redox molecules exhibiting multi-electron storage and fast electron transfer kinetics are ideal compounds for sustainable high-energy storage devices with high-power
Increasing demand for portable and flexible electronic devices requires seamless integration of the energy storage system with other electronic components. This ever-growing area has urged on the rapid development of new electroactive materials that not only possess excellent electrochemical properties but hold capabilities to be fabricated to desired shapes.
Direct-Chemical Vapor Deposition-Enabled Graphene for Emerging Energy Storage: Versatility, Essentiality, and ACS Nano ( IF 15.8) Pub Date : 2022-08-04, DOI: 10.1021/acsnano.2c05745
Dr Zhongfan Jia is an Associate Professor of Chemistry at Flinders University. He was an ARC future fellow (2014-2018) and an Advanced Queensland Fellow (2018-2020) in the Australian Institute for Bioengineering and Nanotechnology (AIBN), at UQ. He received his Ph.D. degree in polymer chemistry and physics from Fudan University, China, in 2007.
Such 3D graphene structures have served as ideal platforms for constructing next-generation energy storage and conversion devices such as supercapacitors, batteries, and fuel cells. In this tutorial
Energy storage applications include electrodes in rechargeable lithium-and sodium-ion batteries, lithium-sulfur batteries, and supercapacitors. In terms of energy conversion,
Potassium (K) metal batteries have emerged as a promising energy‐storage device owing to abundant K resources. Semiconductors In article number 2202529, Tongbo Wei, Zhongfan Liu, Peng Gao
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