NMNM – Nanjing MingShan New Materials Co.,Ltd
eMove360 Exhibitors, MATERIALICA Award - Finalist Level Sponsor
MATERIALICA Design + Technology Award 2025 – Finalist
Booth no. F13
MXene (two-dimensional transition metal carbide/nitride) is a class of layered materials with the general chemical formula Mn+1XnTx, where M represents transition metals (such as Ti, Zr, V, etc.), X is carbon or nitrogen, and Tx denotes surface functional groups (e.g., -OH, -O, -F, etc.). Its structure resembles graphene and is obtained by etching MAX phase precursors.
Structural Characteristics
Application fields of MXene materials: As an emerging family of two-dimensional materials, MXenes demonstrate outstanding performance in energy storage and conversion due to their excellent conductivity, hydrophilicity, and processability. In electrochemical energy storage, MXenes serve as ideal electrode materials for supercapacitors, offering high volumetric capacitance and rapid charge/discharge capabilities, while also exhibiting superior performance as anode materials in metal-ion batteries such as lithium-ion and sodium-ion batteries. In electromagnetic shielding and conductive composites, the high conductivity of MXenes makes them lightweight and efficient materials for electromagnetic interference shielding. For sensor applications, MXenes exhibit sensitive response characteristics to gases, biomolecules, and ions. Additionally, MXenes show great potential in water treatment, catalysis, lubricants, and transparent conductive films, with their tunable surface functional groups providing a foundation for multifunctional applications.
LDHs
Double-layer hydroxides (Layered Double Hydroxides, LDHs), also known as hydrotalcite, are inorganic materials with a layered structure consisting mainly of positively charged layers and intercalated anions.
In electrochemical energy storage, LDH stands out as an electrode material for supercapacitors and cathode material for lithium-ion batteries. In catalysis, its numerous active sites make it an excellent catalyst for water electrolysis, CO₂ reduction, and organic synthesis. In environmental engineering, LDH effectively removes heavy metal ions, organic pollutants, and phosphates from water through anion exchange and adsorption mechanisms. Additionally, LDH finds important applications in flame-retardant materials, drug carriers, photocatalytic degradation, and sensors, with its interlayer modification capability offering significant flexibility for functional design.
MOFs
Metal-organic framework compounds (MOFs) are a new class of functional porous materials. MOF materials play roles in gas separation and storage, particularly in hydrogen storage, CO₂ capture, methane storage, and alkane separation. In catalysis, MOFs serve an important function, and in biomedicine, MOFs demonstrate significant potential as drug carriers with high loading capacity and controlled release for tumor therapy and bioimaging. Their selective molecular recognition makes them ideal for highly sensitive chemical and biological sensors. Additionally, MOFs show significant applications in proton conduction, ion conductors, membrane separation, and energy conversion.
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Address:
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Nanjing 210006
JS
China
Contact:
Mrs. Shanshan Wang
rostian048@yahoo.com
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