Our customer services representatives are available 24 hours a day, from Monday to Sunday.
Energy and environment are the eternal themes of human development. As the global population grows, the demand for energy production and storage continues to increase. There is a huge demand for cleaner and greener new energy alternatives. The emergence of graphene is unleashing the possibility of its application in the energy field, which can create a greener, more efficient and sustainable future. Compared with traditional energy materials such as metals and metal oxides, graphene-based products with different structures (2D and 3D graphene) can effectively enhance the conversion and storage of green energy.
Graphene and related materials (GRM) have high surface area, large electrical conductivity, lightweight properties, chemical stability and high mechanical flexibility, which play a key role in meeting this demand for energy generation and storage. At present, many scholars in the world study and modify graphene. Graphene-based supercapacitors are expected to replace traditional capacitors in the use of new energy, and realize their applications in smart grid energy storage systems, energy transmission systems, wind energy, photovoltaic power generation energy storage systems, and distributed power generation energy storage systems. It can well improve energy storage efficiency and reduce energy loss during transmission and waste in energy consumption.
Alfa Chemistry explores the energy study using graphene in the following aspects:
Graphene is currently known as the material with the best electrical conductivity, while it is also the material with the smallest electrical resistivity in the world. These excellent properties make graphene applicable in high-performance batteries, supercapacitors and other fields. Alfa Chemistry provides a complete list of graphene solutions for battery and energy storage research.
The excellent thermal and electrical properties of graphene can quickly distribute heat to the entire graphene heating membrane. When the two ends of the membrane are energized, the carbon molecules in the membrane undergo Brownian motion to generate heat energy and form electrothermal conversion. The electric heating membrane can instantly heat up and maintain a higher temperature. Alfa Chemistry provides a complete list of graphene solutions for heating membrane.
Alfa Chemistry delivers personalized services to meet client's research demands of energy.
Alfa Chemistry is committed to supporting customers in energy through a series of graphene solutions, including battery, energy storage and heating membrane. Alfa Chemistry has a group of professional chemists and technicians, which has established long-term cooperative relationships with many well-known enterprises and research institutions, which can select the appropriate solution according to the customer's experimental purpose.