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NEO Battery Materials Ltd.: NEO Battery Materials Announces Second Licensing Agreement with YUIF Regarding Silicon Nanocoating Technology finanznachrichten.de - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from finanznachrichten.de Daily Mail and Mail on Sunday newspapers.
NEO Battery Materials Ltd. Announces Intention to Meet TSX Venture Exchange Listing Requirements TSXV: NBM) ( NEO or the Company ) announces that, in follow up to the Company s press release dated January 27, 2021 and in accordance with section 3.2(b) of the TSX Venture Exchange (the Exchange ) Policy 2.5, the Company provided a submission to the Exchange prior to April 30, 2021 evidencing how it intends to meet Tier 2 continued listing requirements as a mining Company. In connection with the submission to the Exchange, the Company is providing the following summary and updates to its mining operations: Pursuant to the Company s press releases dated January 26, 2021 and February 11, 2021, the Company has staked new mining claims in Golden, BC, along strike with a quartzite bed, targeting silica in the quartzites over a total of 467 hectares. The Company has also engaged an exploration manager to oversee the exploration program (the Initial Program ) of th ....
NEO Battery Materials Ltd.: NEO Battery Materials Ltd: Updates on Key Innovations of Licensed Patents Regarding Silicon Nano-Coating Technology for Next Generation Battery Anode Materials NEO or the Agreement ) made with the University-Industry Foundation of Yonsei University ( Yonsei University ). NEO s innovative technology will enable ultra-fast charging and discharging, longer battery life-span, and mechanical robustness for lithium-ion batteries through proprietary silicon nano-coating. Over the past decades, astonishing advances in portable electronics and hybrid/full electric vehicles have awakened the persistent demand for higher energy density lithium-ion batteries (LIBs) to power them longer. Due to the limited specific capacity of traditional graphite anode materials (370 mAh/g), the attractive features of silicon as an anode material - a much higher theoretical specific capacity of 4200 mAh/g, a low discharge potential of around +0.5 V versus Li/Li+ ....