The chemical formula of zinc indium sulfide is InZns, which is a variety of semiconducting materials and has a suitable foreground. The main text includes progress in the chemical composition of the zinc indium sulfide, its properties and harmonization, etc.
The chemical composition of copper sulfide is the chemical composition of copper and the chemical composition of copper and sulfur. The crystal structure is similar to the cubic crystal system. The crystal structure of zinc indium sulfide has good optical performance and thermal stability, so it is used in optical electronics, solar energy batteries, LEDs, and other areas.
The main characteristics of zinc indium sulfide are as follows:
At the tip, the zinc indium sulfide pot is made of various semiconducting materials, and has good and Wako electrical performance. Next, sulfide glass has a wide range of degrees, so it can absorb light and be used for solar power, LEDs, etc. In addition, the thermal stability of zinc indium sulfide is excellent, and it has the ability to maintain constant optical performance under high-temperature environments.
Artificial photosynthesis stimulation: research progress on zinc indium sulfide
Because of the massive consumption of fossil fuels, the global industry needs renewable energy sources. Due to this environmental crisis, light production technology has a certain effect. In the various current photocatalyst technologies, the long-term use of light and different photocatalysts leads to water decomposition or two-gas conversion technology that can decrease the amount of energy produced at the same time as a useful fuel for the industry. The production of one type of sulfide photocatalyst is that the sulfide compound has a narrow gap semiconducting body (approximately 2.02 – 2.59 eV) and can absorb light at a wavelength of 614 nm. However, due to the relatively low active sites of the primitive sulfurized metal, the low light exchange efficiency leads to the lack of intelligent power generation, and the current market demand is due to the lack of light exchange performance. In this case, it is suitable for high sulfurization process, light catalytic water decomposition, analysis reaction and two-layer conversion process, intermediate performance, finishing process, crystal surface process, quality process and other types of modification model homogenization.
The zinc indium sulfide can be used for various synthesis methods: instant water heating, melting heat, microwave, hot sulfurization, and hot water decomposition methods. At the same time, the superior performance of zinc indium sulfide can be suppressed, and the rapid charge combination rate, unloading process (pressing and emptying), crystallization process, negative acceleration process, and quality process, etc., are impossible or destructive. In addition, after the modification, the sulfurized copper light stimulant has a suitable electric structure, a larger surface area, a changed electric current separation efficiency, a different selection property and a different absorbable light wave length. Head. Synthetic structure with environmental modification and energy source with high efficiency performance. In-depth understanding of power transfer dynamics, mutual research group exposure to sulfurized metal light stimulation, commercialized road challenges, comprehensive non-ideal thermal stability due to medium-sized body or material weight new replenishment surface, leading to light stimulation’s deactivation. Since then, the patient’s admission to the outpatient department has led to a low recurrence rate. Because of this, the promotion of sulfurization, oxidation, and other practical applications in the field of artificial photosynthesis, such as collaboration, limited synthesis, full light catalysis, photothermalization, and high-grade optical catalysis, are indispensable.
The application of zinc indium sulfide
Zinc indium sulfide can be used to manufacture electronic equipment, photovoltaic energy exchange, etc. This is due to the fact that the current level of the electric power is constant, and the efficiency of the production of the electric power in the electric field is increased.
The zinc indium sulfide can be used for production of light stimulants. The use of different light stimulants can lead to water decomposition or two-gas conversion. At the same time, the production of useful fuel can be reduced and the second-gas conversion can be discharged. This kind of technology is helping us and our environment is in crisis.
Supplier
TRUNNANO is a supplier of zinc sulfide powder and indium powder with over 12 years experience in nano-building energy conservation and nanotechnology development. It accepts payment via Credit Card, T/T, West Union and Paypal. Trunnano will ship the goods to customers overseas through FedEx, DHL, by air, or by sea. If you are looking for high quality zinc sulfide powder and indium powder, please feel free to contact us and send an inquiry.