1, Used as W/O or O/W type emulsifying agent, defoamer, oil emulsifier, PVC granules additives, etc., also can be used as laundry detergent. Nonylphenol Ethoxylate,Surfactant Nonylphenol Ethoxylate,Washing Agent Nonylphenol Ethoxylates,Nonyl Phenol Ethoxylates NINGBO LUCKY CHEMICAL INDUSTRY CO. LTD , https://www.chinaluckychem.com
Samsung has developed methods to overcome this problem: researchers have coated silicon nanoparticles on graphene layers, which, thanks to their excellent electrical and mechanical properties, allow silicon nanoparticles to slide left and right and expand or contract when needed. Make sure the silicon material has all the space it needs.
By using this technology, Samsung is able to create batteries that use silicon anodes, which are almost twice the energy capacity of today's lithium batteries while maintaining size, size and safety. In fact, this new type of battery provides 1.8 times the energy density of today's lithium batteries, and maintains 1.5 times the energy density after 200 charge and discharge cycles.
2, Used be used as acrylic dyed before and after dyeing detergent components, and as a cationic dye, leveling agent, can be in the general industrial as emulsifier.
3, It is widely used in industries as dispersant, solubilizing agent, penetrating agent, emulsifier, wetting agent, detergent, etc
Samsung uses graphene silicon anode battery to double the capacity of lithium battery
Abstract Samsung and a number of university researchers in Korea have worked together to create a new technology that will substantially double the capacity of our current lithium-ion battery, and the technology will soon be commercially viable. Researchers use silicon as the anode for new batteries. Silicon due to...
Samsung and a number of university researchers in South Korea have worked together to create a new technology that will substantially double the capacity of our current lithium-ion battery, and the technology will soon be commercially viable. Researchers use silicon as the anode for new batteries. Silicon has been seen as a potentially revolutionary material in the field of energy storage because of its atomic structure. However, this material has a big problem, that is, the size changes during the charging and discharging cycles.