Manganese ion intercalation MXene Ti3C2
- Price:
- Request a Quote
- Vendor:
- beike 2D materials Co.,Ltd.
- Country:
- China | Contact Details
-
Product Category
Complex compound nanoparticlesCompound name
MXene Ti3C2Purity (%)
99%Symbol
MXene Ti3C2APS
N/APhase
N/ASpecification
10mlDescription
Introducing highly conductive manganese ions into Ti3C2Tx to prepare a high-performance electromagnetic shielding material. The cation intercalation mechanism of Ti3C2Tx is discussed in this paper. Manganese ions tend to bond with the oxygen-containing terminal of the interface and combine in the way of orbital hybridization of Mn 3d and O 2p. Cation intercalation can increase the interlayer spacing and increase the electrical conductivity of Ti3C2Tx. After introducing highly conductive manganese ions into Ti3C2Tx, the prepared MSCs showed excellent energy storage capacity and outstanding electromagnetic interference shielding efficiency
For details,check the internet site:www.nanomxenes.com -
Beike 2D materials Co., Ltd. specializes in 2D nanomaterials technology companies specializing in MXenes and MAX phase materials, MOFs and COFs materials, and black phosphorus. The company has a number of doctors with overseas study experience and years of research experience in the domestic research team. It forms the core strength of the R&D team. It can conduct “private customized” research products according to customer needs, and timely solve problems encountered in trials for customers. problem.
The company‘s existing products mainly include:
(1) two-dimensional carbonitride MXenes and MAX materials;
(2) metal organic framework compounds MOFs and metal organic complex COFs materials;
(3) black phosphorus, graphene, and perovskite materials;
(4) quantum dot solution, ionic liquid;
(4) graphene/graphene oxide/graphene-like carbon material;
(5) preparing a two-dimensional material film or a heterojunction material by CVD;
(6) AAO template materials, etc.
In addition, the company provides the following services:
(1) Nanomaterial customization services;
(2) Material testing services;
(3) Material simulation calculation service.
Visit company website
The contents of this site are copyright ©2005-2024 Nanowerk. All Rights Reserved.