The Applications of Nano Silicon Powder

Overview Nano Silicon Powder
The most promising electrode material for next generation lithium-ion batteries is silicon. Its specific capacity (3600mAh/g) is more than 10 times that of graphite (372mAh/g). The material’s significant expansion (more than 300%) in the loaded state (lithiation), and the instability of its solid electrolyte interface (SEI) make it a restricted choice. Poor mechanical stability and chemical passingivation properties make silicon electrodes difficult to cycle. There has been a lot research into these issues and many suggestions for ways to overcome them.
The volume of silicon changes during lithium insertion. It is about 400%. When this happens, the silicon cracks and falls from the collector. The prototype lithium-silicon lithium-ion battery loses most of its capacity in a few charge and discharge cycles. Lithium-ion silicon’s stability and capacity issues are the keys to the success of large-capacity, high-capacity batteries.
Anode materials made of silicon have great potential to improve the efficiency and energy storage capacities of lithium-ion cells. The main drawback of silicon anode materials was their surface passivation via oxidation. This is a process that increases impedance while decreasing the circularity. Our silicon anode materials are high-purity and can achieve high specific capacitiy without significantly reducing cycle life.
Nano Silicon Anode Material Si Powder CAS 7440-21-3
What are the potential applications Nano Silicon Powder
Silicon is the most promising type of anode material for next-generation lithium-ion batteries. The nano silicon anode material is used in aluminum shell, flexible, and cylindrical batteries. Our silicon anode material can be mixed in the solvent to prevent agglomeration. They stick well to other battery materials and provide uniform, stable coatings. They can be used in a variety of applications, including for photovoltaics, lithium-ion batteries, and electronic components.
Nano Silicon Powder Supplier
Tech Co., Ltd. () is a professional Lithium Batterie Anode Over 12 years’ experience in chemical product development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
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Researches and application prospects of nano silicon powder

What is Nano silicon? Nano silicon The smallest diameter of crystal silicon particles is 5 nanometers. Nano silicon powder is high in purity and has small particles. It also has uniform distribution. This product is tasteless and non-toxic thanks to its high surface area, high activity and low bulk density. Nano silicon powder, a new generation optoelectronic materials, is a high-power source material and has a wide gap energie semiconductor.
Nano silicon research is undergoing new developments
(1) Change the amount of silicon-rich, the annealing conditions, and other factors to control the size or density of silicon nanocrystals. The critical temperature required for the formation of silicon nanocrystals has been suggested by the literature as being 1000oC. We have proved this through experiments. After annealing at 900oC, the high-resolution electron photo of silicon-rich silicone oxide has a silicon content of around 30%. It is obvious that silicon nanocrystals exist.
(2) First time observation of the electroluminescence in Au/(Ge/SiO2) superlattice/p–Si structures. High-resolution electron micrograph showing a four-period Ge/SiO2 supra lattice. The bright-line shows SiO2 having a thickness of 2.0nm. The Ge layer has a thickness at 2.4nm.
(3) A nanoSiO2/Si/SiO2 single-potential high-potential sandwich structure was created on the silicon substrate. It was first realized that visible electroluminescence from the Au/NDB/pSi structure could be achieved. It was found that the intensity and peak positions of electroluminescence oscillate synchroeously with changes in the thickness (W), of Nano-silicon. Further research and analysis have proven that the oscillation time is 1/2 of the de Broglie wavelength. This is explained by the electroluminescence theory proposed by our group.

(4) Er electroluminescence (with a wavelength 1.54mm) was first realized using the SiO2Si:Er film grown by magnetron-sputtering.
(5) First time, a UV-violet luminescence of 360nm at a low threshold voltage was achieved in heat-treated natural silicon oxide/pSi. It is the longest wavelength known to be produced by silicon-based ultravioletescence.
The applications prospects for Nano silicon
We have developed more than 10 types of silicon/siliconoxide nanostructures and realized the photoluminescence within the main wavelength band (including 1.54mm, 1.62mm, from the near ultraviolet to the near infrared) and the photoluminescence with the forward or reverse bias Low-threshold voltage electroluminescence. Our photoluminescence model and widely supported electroluminescence models provide the foundation for silicon-based optoelectronics integration. It has significant scientific significance and great application potential.
(aka. Technology Co. Ltd. (aka. Our Nano silicon is high in purity, fine particle size, and impurity. Please Please contact us if necessary.