Mxene Materials Help Unlock Future Nanotechnologies
The rise of Mxene could be traced back to 2011, when the first MXene nanomaterial was reported. Ever since its discovery, the family of MXenes has grown at an extraordinarily fast pace among all 2D materials of different kinds. In addition, the numbers of research areas and publications with regard to MXenes are also on the rise. Please visit https://nanomaterials.alfa-chemistry.com/products/mxene-materials-6258.html to learn more.
The rise of Mxene could be traced back to 2011, when the first MXene nanomaterial was reported. Ever since its discovery, the family of MXenes has grown at an extraordinarily fast pace among all 2D materials of different kinds. In addition, the numbers of research areas and publications with regard to MXenes are also on the rise. Please visit https://nanomaterials.alfa-chemistry.com/products/mxene-materials-6258.html to learn more.
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Mxene Materials Help Unlock Future Nanotechnologies
As various forms of nanomaterials have captured the interest of materials science
researchers and developers over the last decade, the scientific team of Alfa
Chemistry steps up efforts to further enlarge its product offerings. Fairly recently,
the company announced the supply of Mxene materials, an innovative type of 2D
nanomaterials showing plenty of interesting properties, including high conductivity,
surface area, and functionalization.
The rise of Mxene could be traced back to 2011, when the first MXene nanomaterial
was reported. Ever since its discovery, the family of MXenes has grown at an
extraordinarily fast pace among all 2D materials of different kinds. In addition, the
numbers of research areas and publications with regard to MXenes are also on the
rise.
“What attracts researchers most about MXenes materials is the combination of the
metallic conductivity of the transition metal carbides with hydrophilic features
imparted by their hydroxyl- or oxygen-terminated surfaces,” said a senior scientist
from Alfa Chemistry. “The past decade has witnessed a major expansion in MXene
applications covering energy storage and conversion, environment and catalysis,
separation membranes, medicine, optics as well as electronics.”
Moreover, ongoing attempts have been made to afford 2D borides with more novel
properties leveraging computational studies on both MXenes and their precursors.
Based on different structures, MXenes can be divided into mono transition metal
MXenes, double transition metal MXenes, and divacancy MXenes. Below are some
of the Mxene materials available at Alfa Chemistry:
Nb 2 CT x (MXene) Multilayer Nanoflake (CAS 12069-94-2), Nb 4 AlC 3 (MAX) Phase
Ceramic Material (CAS 12069-94-2), Nb 4 C 3 T x (MXene) Multilayer Nanosheet (CAS
12069-94-2), V 2 AlC (MAX) Phase Ceramic Material (CAS 12070-10-9), V 4 C 3 T x (MXene)
Multilayer Nanosheet (CAS 12070-10-9), Ti 3 C 2 Freestanding Thin Film (CAS
12316-56-2), Multilayer Ti 3 C 2 T x MXene In-situ Loaded Nano Silver (CAS 12363-89-2),
Nitrided Multilayer Ti 3 C 2 T x (CAS 12363-89-2), Small Diameter Ti 3 C 2 T x (MXene) Thin
Layer Dispersion Solution (CAS 12363-89-2), Ti 2 CT x (MXene) Multilayer Nanoflake
(CAS 12363-89-2), Cu-doped V 2 CT x Multilayer Mxene, Mo 2 TiAlC 2 (MAX) Phase
Ceramic Material, Mxene Nb 4 C 3 Nanowire, Ni-doped Ti 3 C 2 T x Multilayer Mxene,
VNbAlC (MAX) Phase Ceramic Materials, etc.
For more information about Alfa Chemistry’s offering of Mxene materials, please
visit
https://nanomaterials.alfa-chemistry.com/products/mxene-materials-6258.html or
email us.
About Alfa Chemistry
Ever since its founding, Alfa Chemistry has been passionate about bringing its clients
the best quality chemicals and materials. Being at the forefront of innovation, the
company never slows down steps to enrich its product lines. Thanks to the hard
work and tireless efforts, its product offering has been expanded to catalysts, metal
materials, graphenes, nanomaterials, functional polymers, lipids, ion-exchange resins,
and more.