Market Analysis of Lithium-ion Battery

Combined with the market performance of lithium-ion batteries, the editor made a forecast of the future market of lithium-ion batteries in his report.

In a recent report, the market share of lithium-ion batteries, lithium polymer batteries, thin-film batteries and zinc-air batteries in 2011-2016 was analyzed and the market share in 2017 was predicted. These batteries are suitable for mobile phones, portable electronic products and notebook computers, and are expected to drive electric vehicles, and are also the basis of intelligent computing. The 2011 report was 716 pages with 254 charts. Lithium-ion batteries are constantly being upgraded. Lithium thin film solid state technology can improve energy density in many aspects, and developed a battery pack that can be recharged 40,000 times, which is 200 times the number of ordinary battery charging.

Lithium-ion batteries are the most common rechargeable batteries in portable electronic products. Lithium-ion batteries have the best energy density and no memory effect, and self-discharge is smaller than other rechargeable chemical batteries. Lithium-ion batteries do not contain free lithium metals and are environmentally friendly batteries. There are many models such as AA, AAA, RCR123A, 18650, 9V, and 2032 button batteries.

Due to the limited cost of vacuum deposition, people have not yet produced large lithium-ion batteries. Researchers are looking for alternatives to vacuum deposition. It is difficult to use chemical methods to make nanostructured electrolytes and large electrode materials.

The world's largest automakers, battery manufacturers, national laboratories and universities have doctoral research teams in materials science. They have tested countless combinations of elements and hope to develop thin-film batteries. Improving solid-state batteries is a fundamental challenge for every battery manufacturer.

Thin film batteries can be deposited at low temperatures, so flexible polymer foil can be used as a substrate. Low temperature deposition greatly reduced the production cost of thin film batteries. Low temperature(& lt; 350 oC) The successful development of the manufacturing process also made it possible for polymer substrates(such as Kapton) to increase elasticity and reduce battery thickness while greatly reducing manufacturing costs.

The world's demand for energy has steadily increased, doubling every 15 years. As a substitute for clean, renewable and fossil energy, solar energy has developed rapidly. Humans realized that they had to rely less on coal and fossil energy, so they turned to solar energy.

Increasing energy density is the key to developing thin-film batteries. The energy density of thin film batteries is expected to be as high as 1000 Wh / L. Phones and laptops equipped with thin-film batteries will last four times as long as lithium-ion batteries, and the batteries will be smaller in size.

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 because 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 construction, roads, machines, and bridges. All these markets offer endless opportunities for global economic growth.

The page contains the contents of the machine translation.