Used AMAT / APPLIED MATERIALS 0190-01623 #293655400 for sale

AMAT / APPLIED MATERIALS 0190-01623 Reactor is a high-voltage, high-efficiency electrochemical equipment that is used to produce microscale and nanoscale materials in industrial and research settings. It features two electrodes, and a chamber encasing a high-voltage dielectric filled with an electrolyte such as metal, oxidized water, or molten salt. The electrodes are placed close together within the dielectric, allowing for high-intensity electric fields to be generated and consequently cause electrochemical reactions to occur within the chamber. The system is designed to be able to handle high voltages up to 10 volts, and is outfitted with a UV-visible light source, as well as temperature and mechanism controls. AMAT 0190-01623 Reactor is used in a variety of applications, including the production of nanostructures, and for etching and thinning thin films. Additionally, it can be used for the synthesis of materials such as nanowires, nanorods, and nanotubes; making them suitable for use in electronics or biomedical applications. It can also be used for gas-phase reactions and the production of nanoscale materials and composite structures. Additionally, the unit can carry out processes such as lithography and etching. In operating APPLIED MATERIALS 0190-01623 Reactor, it is necessary to connect the machine to an AC power source. Furthermore, the power supply should be reliable and managed with an over-current and over-voltage control. Additionally, the reactors chamber should be filled with an electrolyte and left in a strictly temperature controlled environment prior to operation. Once the tool is ready, high-intensity electric fields may be generated in the chamber and the desired electrochemical reactions may be initiated. 0190-01623 reactor is a reliable and versatile electrochemical asset that is used to produce nanoscale materials and components in industrial and research applications. It is designed to handle high voltages, and is outfitted with a UV-visible light source. It is necessary to connect and configure the model correctly in order to ensure optimal operation. Additionally, the chamber should be filled with an electrolyte and kept temperature controlled before operation. Once ready, high-intensity electric fields may be generated within the chamber to initiate electrochemical reactions.