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CS-W001157 4
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Material Science

Material science is an interdisciplinary subject involving chemistry, physics, biology and other fields, and plays an irreplaceable role in many industries such as electronics, medicine, life sciences, and new energy. ChemScene's materials science product line keeps up with the forefront of scientific research and industrial development trends, and is committed to developing high-quality material products. At present, ChemScene can provide more than 10,000 materials science products, including: MOF&COF materials and their ligands, solar cell materials, polymer materials, nanocarbon materials, electronic materials, organic-inorganic hybrid materials, and photonic/optical materials.

Organic Electrosynthesis

As a green synthesis method that combines electrochemistry and organic chemistry, organic electrosynthesis has high selectivity, mild reaction conditions and low environmental impact. With the continuous development of technology, especially in the research of electrocatalytic materials and reaction mechanisms, organic electrosynthesis has a very broad application prospect in the fields of drug synthesis, materials science and green chemistry.

Redox mediator
Electrolytes

Photonics/Optical Materials

Materials used to manipulate light, including waveguides, lasers and optical fibers, are critical to telecommunications, imaging and sensing technologies.

Fluorescent Material
Perylene Dye
Coumarin Dye
Xanthene Dye
Phthalocyanine Dye
Heat Sensitive Dye
NIR
Quinacridone Dye
NLO
DCM
Cyanine Dye
Dipyrrole Methylene Dye
Photochromic Dye
Other Functional Dyes

Electronic Materials

Materials used to make electronic devices, including semiconductors, conductors, insulators, and dielectrics. Foundation for the development of microelectronics and nanotechnology.

Organic Light Emitting Diode (OLED)
Molecular Conductor
Liquid crystal (LC) materials
Photoresist Monomer
Self assembly and contact printing materials
Molecular Self-Assembly
Flexible Printed Electronics
Polyimide Monomer
Deuterated optoelectronic materials
Org. Field- Effect Transistor

Material Composite Block

A structural component made from two or more different materials that performs better than the individual components alone. Commonly used in the construction, aerospace and automotive industries.

Optoelectronic Material Intermediate
Semiconducting Polymer Synthetic Building Block
Other Material Composite Block
Functional Metal Complex Ligand
Liquid Crystal (LC) Block
Small Molecule Semiconductor Synthesis Building Block
Derivatization Reagents To Improve Solubility
Supramolecular Host Material
Phthalocyanine Building Block

Solar Cell Materials

Specialized materials such as silicon, cadmium telluride and perovskites that convert sunlight into electricity are driving the development of renewable energy solutions.

Perovskite Solar Cell ( PSC) Materials
Dye Sensitized Solar Cell (DSSC) Materials
Donor Intermediate DI
Organic Photovoltaic OPV
Organic Solar Cell (OPV) Materials
Other Solar cell materials
Receptor Intermediate AI

Nano Carbon Materials

A class of materials, including carbon nanotubes, graphene and fullerenes, characterized by their nanoscale size and exceptional properties such as strength, conductivity and flexibility. Key to the fields of nanotechnology and energy storage.

Fullerene
Carbon nanostructure unit
Graphene

Organic-Inorganic Hybrid Materials

Materials that combine organic and inorganic components offer unique properties for catalysis, energy storage, sensors, and optoelectronics applications.

Organic-inorganic perovskite precursor
Organometallic compound
A silane coupling agent

Oxide

A chemical compound containing at least one oxygen atom bonded to another element, commonly used in ceramics, superconductors, and catalysts.

Silica
Zinc Oxide
Other Oxides

Metal Organic Frameworks

Crystalline porous materials composed of metal ions or clusters coordinated with organic ligands. Used in gas storage, separation, catalysis, and drug delivery due to their high surface area and tunable pore size.

Hybrid MOFs Linkers
Carboxylic MOFs Linkers
Phosphate MOFs Linkers
MOF Finished Products
Ionic MOFs Linkers
Other MOFs Linkers
Two-dimensional MOF ligand
Nitrogen MOFs Linkers
Hydroxy MOFs Linkers
MOF organic framework ligand block
Sulfonic Acid MOFs Linkers
Porphyrin
Halogen-containing MOF ligand

Covalent Organic Frameworks

A class of crystalline porous polymers linked by strong covalent bonds. COFs have design flexibility and can be used in gas storage, catalysis, sensing, and electronics.

Amido COFs Linkers
Alkyne COFs Linkers
Boric Acid COFs Linkers
Halogenated COFs Linkers
COF organic frame single block
COF-covalent organic framework material
Aldehyde COFs Linkers
Hydroxyl COFs Linkers
Nitrile COFs Linkers
Nitro COFs Linkers
Other COFs Linkers

Polymer Materials

Large molecules composed of repeating units with diverse properties and applications, including plastics, fibers, elastomers and coatings.

RAFT Reagent
Other Polymer Materials
Polymer Additives
Polyimide Raw Materials
Macromolecular Monomer
Dendrimer Building Block
Polymerization Functional Reagents
Copolymer

Functional Materials

Materials designed or tailored to exhibit specific properties or functions, such as conductivity, magnetism, catalysis, or biocompatibility. Key components in advanced technologies.

g-C3N4 Nitrogen Carbide
Aggregation Induced Emission (AIE) materials
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