What is Indium Selenide Used for?

Now China has become a powerful country in science and technology, but do you know how powerful China's technology is? The manned space station alone is not enough, and now it has successfully broken through the key technology of nuclear fusion, even leading the world by 15 years. Does this mean that China is not far from the artificial sun? It turned out that the fully superconducting tokamak nuclear fusion experimental device developed by China at the Hefei Research Institute of the Chinese Academy of Sciences successfully achieved a record of 101 seconds of continuous operation at 120 million degrees Celsius, and broke the world record. Compared with the previous record in South Korea, China has time has been directly extended by 5 times, and it seems that we are one step closer to the practical stage of artificial sun.
The success of nuclear fusion technology will lead to the development of Indium Selenide.

What is Indium Selenide?

Indium Selenide is an inorganic compound with the chemical formula In2Se3. Black crystals or dark black scale-like substances. It is a typical two-dimensional layered semiconductor material.

Single crystal indium selenide can be prepared by the Bridgman–Stockberger method. Using a certain proportion of selenium and indium as raw materials, each compound of indium selenide can be prepared by reacting in a tube furnace at high temperature for a long time.

The research on the hydrothermal synthesis of In2Se3 was relatively late. Ascorbic acid was dissolved in ethanol solution at 60 °C, then InCl3 and Se powder were added, and the reaction kettle was kept at 220 °C for 20 hours. -4 μm flower-like γ-In2Se3 spheres.

What is indium selenide used for

InSe is a bandgap-tunable layered semiconductor material with nonlinear optical response over a wide wavelength range. The researchers obtained InSe nanosheets with suitable thickness and band gap by a liquid-phase exfoliation method, and systematically investigated their nonlinear optics and ultrafast carrier dynamics at different pulse width scales (ns and fs).

The researchers found that InSe nanosheets are more likely to reach saturable absorption under wide-pulse laser excitation. Furthermore, the InSe dispersions exhibit different mechanisms of scattering phenomena at different pulse durations, which are due to the thermal effect under ns-pulse excitation and the dynamic spatial self-phase modulation of the laser flow under fs-pulse excitation. 

At the same time, the optical switch modulation is realized by utilizing the competitive relationship between saturable absorption at low energy and nonlinear scattering at high energy. The time-resolved pump-probe results indicate that the InSe dispersion has an ultrafast saturable absorption process and a photoinduced absorption process that may be caused by free carrier absorption or bandgap renormalization.

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The resurgence of the global COVID-19 pandemic and the impact of the Russia-Ukraine conflict continued to cause high volatility in commodity prices. Stubbornly high inflation and rising commodity prices are likely to influence each other and thus push each other higher. The price of the Indium Selenide may not decrease significantly in the short term.

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