Journal ArticleDOI
A review of studies using graphenes in energy conversion, energy storage and heat transfer development
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In this paper, the authors have shown that the graphene fiber application on the battery can significantly increase the charge and discharge rates with enhanced storage capacity of 763 F g−1.About:
This article is published in Energy Conversion and Management.The article was published on 2019-03-15. It has received 101 citations till now. The article focuses on the topics: Graphene foam & Graphene oxide paper.read more
Citations
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Hydrocarbon emission control of an adsorptive catalytic gasoline particulate filter during cold-start period of the gasoline engine
TL;DR: In this article , an adsorptive catalytic gasoline particulate filter (A-CGPF) is proposed and a mathematical model of the A-cGPF is established.
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Thin Film Flow of Couple Stress Magneto-Hydrodynamics Nanofluid with Convective Heat over an Inclined Exponentially Rotating Stretched Surface
TL;DR: In this paper, a couple stress magneto-hydrodynamic (MHD) thin film flow over an exponential stretching sheet with joule heating and viscous dissipation is considered.
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Modeling of heat transfer and fluid flow in epsom salt (MgSO4•7H2O) dissociation for thermochemical energy storage
TL;DR: In this paper, a model for dissociation of a salt hydrate is presented, which comprehensively integrates the attendant transport phenomena of the dissociation process, reaction kinetics and convection of the generated vapor.
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Effect analysis on pressure sensitivity performance of diesel particulate filter for heavy-duty truck diesel engine by the nonlinear soot regeneration combustion pressure model
TL;DR: In this paper , a nonlinear regeneration combustion pressure model (NSRCMP) is employed for diesel Particulate Filter (DPF) simulation study, and the results show that cell density is the key parameter to affect the overall system pressure.
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Predicting temperature-dependent creep and recovery behaviors of agglomerated graphene-polymer nanocomposites with a thermodynamically driven temperature-degraded process
TL;DR: In this article, a two-scale agglomerate-based homogenization scheme was proposed to address the issue of filler aggleration and a thermodynamically driven temperature-degraded process to describe the interface effect.
References
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The rise of graphene
TL;DR: Owing to its unusual electronic spectrum, graphene has led to the emergence of a new paradigm of 'relativistic' condensed-matter physics, where quantum relativistic phenomena can now be mimicked and tested in table-top experiments.
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Graphene: Status and Prospects
TL;DR: This review analyzes recent trends in graphene research and applications, and attempts to identify future directions in which the field is likely to develop.
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The SIESTA method for ab initio order-N materials simulation
José M. Soler,Emilio Artacho,Julian D. Gale,Alberto García,Javier Junquera,Javier Junquera,Pablo Ordejón,Daniel Sánchez-Portal +7 more
TL;DR: In this paper, a selfconsistent density functional method using standard norm-conserving pseudopotentials and a flexible, numerical linear combination of atomic orbitals basis set, which includes multiple-zeta and polarization orbitals, was developed and implemented.
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Roll-to-roll production of 30-inch graphene films for transparent electrodes
Sukang Bae,Hyeongkeun Kim,Youngbin Lee,Xiangfan Xu,Jaesung Park,Yi Zheng,Jayakumar Balakrishnan,Tian Lei,Hye Ri Kim,Young Il Song,Young Jin Kim,Kwang S. Kim,Barbaros Özyilmaz,Jong Hyun Ahn,Byung Hee Hong,Sumio Iijima,Sumio Iijima +16 more
TL;DR: The roll-to-roll production and wet-chemical doping of predominantly monolayer 30-inch graphene films grown by chemical vapour deposition onto flexible copper substrates are reported, showing high quality and sheet resistances superior to commercial transparent electrodes such as indium tin oxides.
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Graphene photonics and optoelectronics
TL;DR: Graphene has high mobility and optical transparency, in addition to flexibility, robustness and environmental stability as discussed by the authors, and its true potential lies in photonics and optoelectronics, where the combination of its unique optical and electronic properties can be fully exploited, even in the absence of a bandgap, and the linear dispersion of the Dirac electrons enables ultrawideband tunability.