Market analysis of lithium battery

In a recently released report, we analyzed the global market share of lithium ion battery, lithium polymer battery, thin film battery and zinc air battery in 2011-2016, and predicted the market share in 2017. The batteries are suitable for mobile phones, portable electronics and laptops, and are expected to power electric cars, which are also the basis of smart computing. The 2011 report was 716 pages, with 254 charts. Lithium-ion batteries are being upgraded. Lithium thin film solid-state technology can improve energy density in many ways, developing battery packs that can be recharged 40,000 times, 200 times more than conventional batteries.

Lithium-ion batteries are the most common rechargeable batteries for portable electronics. Lithium ion battery has the best energy density and no memory effect. Lithium ion battery does not contain free lithium metal, is environmental protection battery, and a variety of models such as AA, AAA, RCR123A, 18650, 9 V, 2032 button batteries, etc.

Large lithium-ion batteries have not yet been made because of the cost of vacuum deposition. Researchers are looking at alternatives to vacuum deposition, which makes it difficult to make nanostructure electrolytes and large electrode materials chemically.

The world's largest car manufacturers, battery makers, national laboratories and university departments of materials science all have PhD research teams that test countless combinations of elements in hopes of developing thin-film batteries. Improving solid-state batteries is a fundamental challenge for every battery maker.

Thin-film cells can be deposited at low temperatures, so flexible polymer foils can be used as a substrate. Low temperature deposition greatly reduces the production cost of thin film batteries. The successful development of low temperature (<350oC) manufacturing processes also made possible polymer substrates such as Kapton, which greatly reduced manufacturing costs while improving elasticity and reducing battery thickness.

The world's demand for energy is steadily increasing, doubling every 15 years. As a clean, renewable and fossil energy substitute, solar energy industry has developed rapidly. Humans realized they needed to reduce their dependence on coal and fossil fuels, so they turned to solar energy.

Improving energy density is the key to developing thin-film batteries. The energy density of thin-film batteries is expected to be as high as 1000Wh/l. Phones and laptops with thin-film batteries will last four times longer than those with lithium-ion batteries, and they will be smaller.

The global market share of lithium ion batteries was $9.4 billion in 2011 and is expected to reach $18.6 billion in 2017. The market is expected to expand as lithium-ion batteries support the development of mobile devices, power tools, portable electronics, laptops, mobile phones and electric cars. System design is increasing the value of cloud intelligence, roads, machines, and Bridges. All these markets offer endless opportunities for global growth.

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