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Nanjing Janus New- Materials Co., Ltd.
Contact: 18020112633 (Ms. Wang)
WeChat:18020112633
Tel: 025-83585108
Fax: 025-83172243
Address: Nanjing Xianlin University City Science and Technology Park, Yuanhua Road, Xianlin University, Qixia District, Nanjing
Website: m.fhztl.com
Bank: Bank of China, Jiangsu Branch Office
Account number: 474161398545
JNS Instrument
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Microfluidic nano air jet spinning machine
Microfluidic nano-air jet spinning machine is a new type of equipment for large-scale preparation of nano-fiber blankets. This equipment uses microchannels formed by microfluidic technology (such as microfluidic pumps and microfluidic chips). By controlling the air pressure of the air pump and regulating the distance between the receiving device and the nozzle, a nanofiber with controllable size is prepared. The receiving device realizes large-scale preparation of nanofiber blankets; by controlling multiple groups of microchannels to form microreactors, nanomaterial fiber blankets such as quantum dots, photonic crystals, and biomimetic peritoneum can be prepared.
Microfluidic nano-air jet spinning machine is a new type of equipment for large-scale preparation of nano-fiber blankets. This equipment uses microchannels formed by microfluidic technology (such as microfluidic pumps and microfluidic chips). By controlling the air pressure of the air pump and regulating the distance between the receiving device and the nozzle, a nanofiber with controllable size is prepared. The receiving device realizes large-scale preparation of nanofiber blankets; by controlling multiple groups of microchannels to form microreactors, nanomaterial fiber blankets such as quantum dots, photonic crystals, and biomimetic peritoneum can be prepared.
Microfluidic nano-air jet spinning machine is a new type of equipment for large-scale preparation of nano-fiber blankets. This equipment uses microchannels formed by microfluidic technology (such as microfluidic pumps and microfluidic chips). By controlling the air pressure of the air pump and regulating the distance between the receiving device and the nozzle, a nanofiber with controllable size is prepared. The receiving device realizes large-scale preparation of nanofiber blankets; by controlling multiple groups of microchannels to form microreactors, nanomaterial fiber blankets such as quantum dots, photonic crystals, and biomimetic peritoneum can be prepared.
