Our staff will participate in the 3rd International MXenes Academic Seminar to improve business level
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Our staff will participate in the 3rd International MXenes Academic Seminar to improve business level

The International 2D Transition Metal Carbide (MXenes) International Conference is the largest symposium in the MXenes field initiated by Professor Yury Gogotsi. On May 19-22, 2020, the 3rd MXene International Conference will be hosted by the Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, and will be hosted by the Advanced Energy Materials Engineering Laboratory led by Academician Chai Zhifang. The conference will last for 4 days, and the experts and scholars attending the conference will conduct extensive exchanges and discussions through the conference‘s keynote report, chapter special report, wall poster display and industry-university research seminar, and provide suggestions for cutting-edge research and industrial application of MXenes materials.
The conference will focus on: MXene Synthesis and Characterization, MXenes for Energy and Conversion, MXenes for Optics and Electronics, MXenes for Biomedicine and Biomaterials (Biomedical and Biomaterials), MXenes for Catalysis and Environment, MXene Theoretical Simulation, MXene Future (for student) and other topics are shared.
In May 2019, our employees participated in the 2nd International MXenes Academic Seminar, which expanded our vision and vision and promoted the development of our company‘s professional level. In 2020, our company will continue to participate in this event to further enhance the business level of our company.

Further reading: MAX phase materials combine the lightness, high strength, friction resistance, corrosion resistance, high electrical conductivity, easy processing, and good thermal shock resistance and damage tolerance of metal and ceramics in high-speed rail pantograph and nuclear fuel. National key projects such as cladding tubes have great application potential and are suitable as high-safety structural materials under extreme high temperature and harsh chemical environments. MXenes is an important two-dimensional derivative of the MAX phase. Compared to graphene, MXenes has a richer structural tunability, and the resulting properties can be adapted to the requirements of different application environments. For example, MXenes has a higher volumetric energy density than graphene and is suitable for the development of small-volume energy storage devices. Sc-based MXenes have semiconductor properties not found in pure graphene and are suitable for use as electronic devices. Ti-based MXenes have better biocompatibility than graphene, and are more suitable for research and application of diagnostic drugs and medical devices. Therefore, MXenes is expected to be used in the fields of national defense and people‘s livelihood such as energy storage, catalysis, sensing, biomedicine, electronic devices (5G), optical devices, resources and the environment.

Source: www.mxene2020.com

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