MXene材料 Ti3C2 Nb2C MOF材料 Ti3C2 Nb2C 北科纳米

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MXenes 2D transition metal carbonitride

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position： home > Product > MXenes-Max 2D transition metal carbonitride

Detailed

product information:
Name: S in-situ doped max-Ti3AlC2
Product performance: Excellent Mxene precursor can be processed by HF or HCl+LiF to obtain MXene
Purity:99%
Storage conditions: room temperature and dry
Application areas: energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc.
The size process can be customized and can be used to prepare Mxene material

Sodium-sulfur batteries use abundant elements and provide an attractive alternative to currently used batteries, but they need better sulfur-containing materials to compete with lithium-ion batteries for capacity and cycle capabilities. This paper proposes an in-situ sulfur doping strategy to functionalize MXene nanosheets by introducing heteroatomic sulfur from the MAX precursor into the MXene structure. Three-dimensional fold MXene nanostructures with high specific surface area were prepared by vacuum freeze-drying. In the room temperature sodium-sulfur battery, a specially made MXene (S-Ti3C2Tx) nanosheet is used as the main electrode material. The S−Ti3C2Tx group is highly polar with sodium polysulfide, which limits the diffusion of sodium polysulfide. The MXene/sulfur electrode can achieve a high-area load of sulfur up to 4.5 mg cm−2 and good electrochemical performance (the reversible capacity at 2C after 500 cycles is 577 mAh g−1).

Text and picture source: WeChat public account MXene Frontier

Warm tip: the products supplied by Beijing Beike Xincai Technology Co., Ltd. are only used for scientific research, not for human body

Item ID	CAS	ID	Pack	Parameter	Stock	Make up	Price
BK2020041301-01	196506-01-1	BK2020041301	1g		100		$400

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