Geopolymers Market were established nearly four decades
ago using alumino-silicate materials in alkaline at ambient temperature
environments. It is a type of inorganic polymer that can be formed at proper
temperature by using aluminosilicate precursor material, such as metakaolin or
fly ash as source materials and adopting alkali activated technology to form a
solid binder that looks like and performs a similar function to OPC. Geopolymer
binder can be used in applications to fully or partially replace OPC (Ordinary
Portland Cement) with environmental and technical benefits, including an 80-90%
reduction in CO2 emissions and improved resistance to fire and aggressive
chemicals. CAGR of 30.02% between 2018 and 2024. The market is mainly driven by
the increasing investments in new infrastructure developments across the world
and an increase in GDP of China and India are increasing the demand of
Geopolymer market. The regions covered in this report are North America,
Europe, Asia-Pacific and Rest of the World. hese benefits of geopolymer
increases the demand of geopolymer globally. The market is mainly driven by the
increasing continuous infrastructure developments. The increasing demand mainly
from the developing regions like Middle East & Africa, Asia-Pacific, and
South American countries are also driving the market. The emerging markets such
as India, China, Brazil, Southeast Asia, and Japan are expected to change the
trends and dynamics of the market in the future.
Lithium Ion Battery Materials Market is valued at USD 10.75 Billion in 2018 and expected to reach USD 16.14 Billion by 2025
Lithium Ion Battery Materials Market is valued at USD 10.75 Billion in 2018 and expected to reach USD 16.14 Billion by 2025 with a CAGR of 15.1% over the forecast period. Increasing demand of consumer electronics and portable devices is one of the key growth driving factor for the Global Lithium Ion Battery Materials Market A lithium-ion battery is a type of rechargeable battery in which lithium ions move from the negative electrode to the positive electrode during discharge and back when charging. It uses an intercalated lithium compound as one electrode material, compared to the metallic lithium in a non-rechargeable lithium battery. It is commonly used as rechargeable batteries for portable electronics, due to its high energy density, tiny memory effect and low self-discharge. It has major applications in military, battery electric vehicle and aerospace sectors. The main component that is used commonly in these batteries is lithium cobalt oxide which offe
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