Nombre del producto:benzoic acid

IUPAC Name:

CAS:65-85-0
Fórmula molecular:C7H6O2
Pureza:95%+
Número de catálogo:CM000151
Peso molecular:122.12

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CM000151-500g 1-2 Weeks ŸǺ

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Detalles del producto

Núm. De CAS :65-85-0
Fórmula molecular:C7H6O2
Punto de fusión:-
Código de sonrisas:O=C(O)C1=CC=CC=C1
Densidad:
Número de catálogo:CM000151
Peso molecular:122.12
Punto de ebullición:
Nº Mdl:MFCD00002398
Almacenamiento:

Category Infos

Lithium-ion Battery Materials
Lithium-ion batteries (Li-ion batteries) are widely used in portable electronic devices, electric vehicles, and renewable energy storage systems due to their high energy density and long cycle life. These batteries are composed of several key materials such as cathode materials, anode materials, electrolyte, separator and current collector, which enable them to operate. Other minor components in Li-ion batteries include binders, additives, and fillers, which improve electrode stability, electrolyte performance, and battery safety. Ongoing research and development focus on improving the energy density, safety, and cost-effectiveness of Li-ion batteries through advancements in materials, including the exploration of new cathode and anode materials, solid-state electrolytes, high-voltage electrolyte additives, and advanced manufacturing techniques.
Hydrogen Storage Materials
Hydrogen storage materials are materials which can store and release hydrogen gas. These materials are important for the development of hydrogen fuel cell technology, as they allow for the safe and efficient storage of hydrogen. There are several types of hydrogen storage materials, including: 1. Sorbent Materials. Carbon-based materials such as nanotubes, fullerenes, graphene, mesoporous silica, metal-organic frameworks (MOFs), isoreticular metal-organic frameworks (IRMOFs), covalent-organic frameworks (COFs), and clathrates belong to this category. 2. Complex Hydrides. These consist of light metal hydrides and chemical hydrides. 3. Nanostructured materials. These are composed of functionalized sorbent materials as well as nanoparticles of complex hydrides. The development of efficient and cost-effective hydrogen storage materials is crucial for the widespread adoption of hydrogen fuel cell technology.