Next-Generation Anode Materials Key Players, SWOT Analysis, Dynamics, DriversPosted by BIS RSRCH on March 24th, 2021 The research study focuses on unleashing the innovations in anode electrode of lithium-ion battery and aims to put forward a clear picture of the current consumption and future growth potential of different next-generation anode materials. The current technology revolves around the usage of graphite as an anode material. However, this chemistry, though found in abundance, is not sufficient to cater to the rising demand for high energy storage by end-user applications in the industry. A battery must be able to sustain high power and resistance, have long shelf life and durability, and other such benefits. Some of the next-generation anode materials that can offer the aforementioned advantages to certain extent are silicon/silicon oxide blend, silicon-graphene, silicon-carbon composite, and Lithium titanium oxide (LTO). Read Report Overview: https://bisresearch.com/industry-report/global-next-generation-anode-materials-market.html Currently, these materials are not produced at a scale similar to the traditional graphite-based anode materials as they are still in the development stage. More than 500 patents have been filed/granted between 2014 and 2018 and validate the extensive research and development activity for these materials. Besides, partnerships and collaborations on an industry level are highly witnessed between the key players to bring improvements in their next-generation anode material products. The materials that are identified as next-generation anode materials are silicon/silicon oxide blend, silicon-carbon composite, silicon-graphene, and lithium titanium oxide, among others. These materials owing to their distinguished characteristics are expected to bring a disruption in the existing market of anode materials in the coming ten years. Major consumption of silicon/silicon oxide blend anode material could be expected in the coming five years. These next-generation anode materials are anticipated to cannibalize a significant share of existing pure graphite and carbon anode materials in the global anode materials market over the next ten years. For Sample Report, Click here: https://bisresearch.com/requestsample?id=1000&type=download Like it? Share it!More by this author |