Ischemic stroke: experimental models and reality

The synthesis of vertical ReS2 nanowalls on 3D graphene foam (V-ReS2 /3DGF) is demonstrated by a chemical vapor deposition route. The vertical nanowall structure leads to an effective exposure of active sites and enhances the lithium interaction with all of the layers. When serving as the anode material for lithium-ion batteries, the V-ReS2 /3DGF composite demonstrates excellent cycling stability at high-current-density.

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Opening Two‐Dimensional Materials for Energy Conversion and Storage: A Concept

Xue

Zhang

Wang

et al. 2017

Advanced Energy Materials

320

204

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The development of two‐dimensional (2D) materials is experiencing a renaissance since the adventure of graphene. 2D materials typically exhibit strong in‐plane covalent bonding and weak out‐of‐plane van der Waals interactions through the interlayer gap. Opening 2D materials is an effective way to alter the physical and chemical properties, such as band gap, conductivity, optical property, thermoelectric property, photovoltaic property and superconductivity. A larger interlayer distance means more accessible active sites for catalysis, an ion‐accessible surface in the interlayer space, which may greatly enhance the performance of 2D materials for energy conversion and storage. Moreover, opening 2D materials by intercalation can change the band filling state and the Fermi level. This review mainly focuses on the opening of 2D materials and their subsequent applications in energy conversion and storage fields, expecting to promote the development of such a new class of materials, namely expanded 2D materials. The exciting progresses of these expanded materials made in both energy conversion and storage devices including solar cells, thermoelectric devices, electrocatalyst, supercapacitors and rechargeable batteries, is presented and discussed in depth. Furthermore, prospects and further developments in these exciting fields of the expanded 2D materials are also commented.

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Supercritical Carbon Dioxide Anchored Fe₃O₄ Nanoparticles on Graphene Foam and Lithium Battery Performance

Zeng

et al. 2014

ACS Appl. Mater. Interfaces

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Magnetite (Fe3O4) is an attractive electrode material due to its high theoretical capacity, eco-friendliness, and natural abundance. However, its commercial application in lithium-ion batteries is still hindered by its poor cycling stability and low rate capacity resulting from large volume expansion and low conductivity. We present a new approach which makes use of supercritical carbon dioxide to efficiently anchor Fe3O4 nanoparticles (NPs) on graphene foam (GF), which was obtained by chemical vapor deposition in a single step. Without the use of any surfactants, we obtain moderately spaced Fe3O4 NPs arrays on the surface of GF. The particle size of the Fe3O4 NPs exhibits a narrow distribution (11 ± 4 nm in diameter). As a result, the composites deliver a high capacity of about 1200 mAh g(-1) up to 500 cycles at 1 C (924 mAh g(-1)) and about 300 mAh g(-1) at 20 C, which reaches a record high using Fe3O4 as anode material for lithium-ion batteries.

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Newborn 2D materials for flexible energy conversion and storage

et al. 2016

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Newborntwo-dimensional materials (NB2DMs) beyond graphene such as transition metal dichalcogenides (TMDs) exhibit excellent optoelectronic and mechanical properties as well as high theoretical specific capacity, which make them become the promising building blocks of flexible energy devices related to energy conversion and storage. Compared to graphene with zero band gap or traditional friable materials such as Si, these NB2DMs are more suitable to construct flexible devices as active layers of optoelectronic devices or as active materials for batteries. The present review focuses on the recent advances in bendable energy devices based on NB2DMs, including batteries, supercapacitors (SCs), solar cells, photodetectors and nanogenerators (NGs). The NB2DMs pave a new way to construct next-generation flexible energy devices with improved performance and we believe that those devices will be seen in our daily life and change our lifestyle in the immediate future.

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Edge-to-Edge Oriented Self-Assembly of ReS₂ Nanoflakes

et al. 2016

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The self-assembly of two-dimensional (2D) nanomaterials, an emerging research area, still remains largely unexplored. The strong interlayer attraction between 2D nanosheets leads to face-to-face stacking rather than edge-to-edge coupling. We demonstrate, for the first time, how one can induce and control an edge-to-edge self-assembly process for 2D nanomaterials. The extremely weak van der Waals coupling and strong anisotropy of ReS2 allow us to realize an oriented self-assembly (OSA) process. The aspect ratio of the resulting ReS2 nanoscrolls can be well controlled. In addition, we perform simulations to further explain and confirm the OSA process, demonstrating its great potential to be expanded as a general edge-to-edge self-assembly process suitable for other 2D nanomaterials.

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Black Phosphorus: Properties, Synthesis, and Applications in Energy Conversion and Storage

Xue

Zhang

et al. 2017

ChemNanoMat

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Following graphene, MXenes, and transition metal dichalcogenides (TMDs), black phosphorus (BP) has recently been introduced as an ew member of the 2D materials family.R ecently,t he intensified research in BP has been motivated not only by its appealing properties, such as tunable band gap and high carrierm obility,b ut also by the strong light-matter interactions andl ithium storage capability.T he band gap of BP changes from 0.3 eV to 2.0 eV,a nd can be tuned efficientlyf or photon absorption. BP can undergo electrochemical reactions with both lithium and sodium as an anode material with ah igh theoretical specific capacity. The anisotropic structure of BP also makes it af ast ion conductor in aspecific direction. The unique structureand properties of BP make it ap romising materialf or various applications including energy conversion and storage. This review providesasummary of recent research progress for BP in terms of its properties, synthesis, and applications in energy conversion and storage, with af ocus on enabling the important roles that BP could play in rechargeable batteries.

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Li-storage performance of binder-free and flexible iron fluoride@graphene cathodes

Mendes

et al. 2015

J. Mater. Chem. A

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Coral-Inspired Nanoengineering Design for Long-Cycle and Flexible Lithium-Ion Battery Anode

Sun

Wang

Xue

et al. 2016

ACS Appl. Mater. Interfaces

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Conversion reaction electrode materials (CREMs) have gained significant interest in lithium-ion batteries (LIBs) owing to their high theoretical gravimetric capacity. However, traditional CREMs-based electrodes, with large strain arising from Li(+) intercalation/deintercalation causes pulverization or electrical breakdown and cracking of the active materials which leads to structural collapse, limiting performance. Therefore, in order to construct electrodes with a strong tolerance to the strain incurred during the conversion reaction process, we design a coral-like three-dimensional (3D) hierarchical heterostructure by using cross-linked nanoflakes interspersed with nanoparticles (NPs) standing vertically on graphene foam (GF). The coral-like 3D hierarchical heterostructures can efficiently disperse the strain from both internal and external forces as well as increase the specific surface area for enhanced electrochemical reactions. These features lead to long-cycle stability and excellent flexibility in LIBs. Fe3O4 NPs and CoO NFs are utilized as a model system to demonstrate our strategy. The as-prepared coral-like hierarchical electrode is studied as an anode in LIBs for the first time and is shown to deliver a high reversible specific gravimetric capacity of ∼1200 mA h g(-1) at a rate of 0.5 A g(-1) for 400 cycles. In addition, our batteries can even power a green light-emitting diode when bent to high degrees confirming the excellent flexibility of the material.

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Yinghui Xue

Extremely Weak van der Waals Coupling in Vertical ReS₂ Nanowalls for High‐Current‐Density Lithium‐Ion Batteries

Opening Two‐Dimensional Materials for Energy Conversion and Storage: A Concept

Supercritical Carbon Dioxide Anchored Fe₃O₄ Nanoparticles on Graphene Foam and Lithium Battery Performance

Newborn 2D materials for flexible energy conversion and storage

Edge-to-Edge Oriented Self-Assembly of ReS₂ Nanoflakes

Black Phosphorus: Properties, Synthesis, and Applications in Energy Conversion and Storage

Li-storage performance of binder-free and flexible iron fluoride@graphene cathodes

Coral-Inspired Nanoengineering Design for Long-Cycle and Flexible Lithium-Ion Battery Anode

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Resources

About

Yinghui Xue

Extremely Weak van der Waals Coupling in Vertical ReS2 Nanowalls for High‐Current‐Density Lithium‐Ion Batteries

Opening Two‐Dimensional Materials for Energy Conversion and Storage: A Concept

Supercritical Carbon Dioxide Anchored Fe3O4 Nanoparticles on Graphene Foam and Lithium Battery Performance

Newborn 2D materials for flexible energy conversion and storage

Edge-to-Edge Oriented Self-Assembly of ReS2 Nanoflakes

Black Phosphorus: Properties, Synthesis, and Applications in Energy Conversion and Storage

Li-storage performance of binder-free and flexible iron fluoride@graphene cathodes

Coral-Inspired Nanoengineering Design for Long-Cycle and Flexible Lithium-Ion Battery Anode

Contact Info

Product

Resources

About

Extremely Weak van der Waals Coupling in Vertical ReS₂ Nanowalls for High‐Current‐Density Lithium‐Ion Batteries

Supercritical Carbon Dioxide Anchored Fe₃O₄ Nanoparticles on Graphene Foam and Lithium Battery Performance

Edge-to-Edge Oriented Self-Assembly of ReS₂ Nanoflakes