Ruimin Yao scite author profile

hollow nano-micro hierarchical microspheres (NCM-HS) are synthesized using MnCO 3 both as a self-template and Mn source. The hollow microspheres with diameters of about 1 mm have walls about 250 nm thick, which are composed of approximately 100 nm primary nanoparticles. NCM-HS cathodes have an initial discharge capacity of 212 mA h g À1 at 0.1 C between 2.5 and 4.5 V. After 40 charge-discharge cycles, the capacity retention at 0.1 C is 85.1%. At higher rates, the reversible capacities of the NCM-HS cathodes are 208.9 (0.5 C), 204.8 (1 C), 180.7 (2 C), 155.7 (5 C) and 135.9 mA h g À1 (10 C). The high performances can be attributed to the distinctive hollow microspherical structures with the 100 nm building blocks, which could effectively reduce the path of Li ion diffusion, increase the contact area between electrodes and electrolyte and buffer the volume changes during the Li ion intercalation/deintercalation processes. † Electronic supplementary information (ESI) available: SEM images and XRD proles of MnCO 3 and MnO 2 microspheres, XPS prole of NCM-HS, SEM image of NCM-bulk, one more TEM image of NCM-HS, the rst ve cyclic voltammetry (CV) curves of NCM-HS cathode. See

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LiNi_1/3Co_1/3Mn_1/3O₂ Nanoplates with {010} Active Planes Exposing Prepared in Polyol Medium as a High-Performance Cathode for Li-Ion Battery

Yao

Cao

2014

ACS Appl. Mater. Interfaces

137

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As we know, Li(+)-ion transport in layered LiNi1/3Co1/3Mn1/3O2 (NCM) is through two-dimensional channels parallel to the Li(+)-ion layers that are indexed as {010} active planes. In this paper, NCM nanoplates with exposed {010} active facets are synthesized in a polyol medium (ethylene glycol) and characterized by XRD, XPS, SEM, and HR-TEM. In addition, the effects of reaction conditions on the morphologies, structures and electrochemical performances are also evaluated. The results show that more {010} facets can be exposed with the thickness of NCM nanoplates increasing which can lead to more channels for Li(+)-ion migration. However, when the annealing temperatures exceed 900 °C, many new crystal planes grow along the thickness direction covering the {010} facets. In all of the NCM nanoplates obtained at different conditions, the NCM nanoplates calcined at 850 °C for 12 h (NCM-850-12H) display a high initial discharge capacity of 207.6 mAh g(-1) at 0.1 C (1 C = 200 mA g(-1)) between 2.5 and 4.5 V higher than most of NCM materials as cathodes for lithium ion batteries. The discharge capacities of NCM-850-12H are 169.8, 160.5, and 149.3 mAh g(-1) at 2, 5, and 7 C, respectively, illustrating the excellent rate capability. The superior electrochemical performance of NCM-850-12H cathode can be attributed to more {010} active planes exposure.

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Highly efficient solar-thermal storage coating based on phosphorene encapsulated phase change materials

Aftab

Khurram

Shi

et al. 2020

Energy Storage Materials

101

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A functional form-stable phase change composite with high efficiency electro-to-thermal energy conversion

Huang

Li³

et al. 2017

Applied Energy

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Controllable Thermal Rectification Realized in Binary Phase Change Composites

Chen

Cui

Tian

et al. 2015

Sci Rep

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Phase transition is a natural phenomenon happened around our daily life, represented by the process from ice to water. While melting and solidifying at a certain temperature, a high heat of fusion is accompanied, classified as the latent heat. Phase change material (PCM) has been widely applied to store and release large amount of energy attributed to the distinctive thermal behavior. Here, with the help of nanoporous materials, we introduce a general strategy to achieve the binary eicosane/PEG4000 stuffed reduced graphene oxide aerogels, which has two ends with different melting points. It's successfully demonstrated this binary PCM composites exhibits thermal rectification characteristic. Partial phase transitions within porous networks instantaneously result in one end of the thermal conductivity saltation at a critical temperature, and therefore switch on or off the thermal rectification with the coefficient up to 1.23. This value can be further raised by adjusting the loading content of PCM. The uniqueness of this device lies in its performance as a normal thermal conductor at low temperature, only exhibiting rectification phenomenon when temperature is higher than a critical value. The stated technology has broad applications for thermal energy control in macroscopic scale such as energy-efficiency building or nanodevice thermal management.

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Ruimin Yao

LiNi1/3Co1/3Mn1/3O2 hollow nano-micro hierarchical microspheres with enhanced performances as cathodes for lithium-ion batteries

LiNi_1/3Co_1/3Mn_1/3O₂ Nanoplates with {010} Active Planes Exposing Prepared in Polyol Medium as a High-Performance Cathode for Li-Ion Battery

Highly efficient solar-thermal storage coating based on phosphorene encapsulated phase change materials

A functional form-stable phase change composite with high efficiency electro-to-thermal energy conversion

Controllable Thermal Rectification Realized in Binary Phase Change Composites

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Ruimin Yao

LiNi1/3Co1/3Mn1/3O2 hollow nano-micro hierarchical microspheres with enhanced performances as cathodes for lithium-ion batteries

LiNi1/3Co1/3Mn1/3O2 Nanoplates with {010} Active Planes Exposing Prepared in Polyol Medium as a High-Performance Cathode for Li-Ion Battery

Highly efficient solar-thermal storage coating based on phosphorene encapsulated phase change materials

A functional form-stable phase change composite with high efficiency electro-to-thermal energy conversion

Controllable Thermal Rectification Realized in Binary Phase Change Composites

Contact Info

Product

Resources

About

LiNi_1/3Co_1/3Mn_1/3O₂ Nanoplates with {010} Active Planes Exposing Prepared in Polyol Medium as a High-Performance Cathode for Li-Ion Battery