Flexible lithium battery – the core of the development of smart wearable devices

September 14 15:04 2021
Flexible lithium battery - the core of the development of smart wearable devices
Flexible battery
On 2nd Sep, Peng Huisheng’s team from the Department of Polymer Science of Fudan University solved related problems and continuously constructed a new type of fiber polymer lithium-ion battery, which has both good safety and comprehensive electrochemical performance. The fully flexible fabric display system independently developed by the team can closely follow the irregular contours of the human body, and is as light and breathable as ordinary fabrics, ensuring good wearing comfort.

On 2nd Sep, Peng Huisheng’s team from the Department of Polymer Science of Fudan University solved related problems and continuously constructed a new type of fiber polymer lithium-ion battery, which has both good safety and comprehensive electrochemical performance. The fully flexible fabric display system independently developed by the team can closely follow the irregular contours of the human body, and is as light and breathable as ordinary fabrics, ensuring good wearing comfort.

They do not need to bring a charger and power bank when they go out. They can wirelessly charge their mobile phone through the clothes they wear. Nowadays, scenes that sound like sci-fi movies are gradually becoming reality. All this is inseparable from the credit of the flexible battery. The emergence of flexible batteries can get rid of the existing metal foil rigid batteries for product shape and structure design restrictions, after being integrated with flexible wearable electronics, it can take advantage of its arbitrary deformation.

Currently, commonly used lithium-ion batteries cannot be bent because the layered metal foil electrodes in the battery are easily broken after being bent. However, to power flexible electronic fabrics, wearable devices, etc., lithium-ion batteries must have a certain degree of flexibility. Up to now, Flexible lithium polymer batteries with high flexibility, chemical stability, good cycle performance, flexible energy storage device has become a most desirable cell want.

Dongguan Hoppt Light Technology Co., Ltd. is a high-tech enterprise, committed to R&D and the industrialization of high-capacity flexible lithium batteries for flexible electronics and wearable devices. The company has built the world’s first flexible battery development platform with a monthly production capacity of up to 50,000 batteries. A series of innovative technologies such as high-capacity, high-voltage positive electrode, silicon-carbon electrode, nanofiber to enhance structural stability, high-temperature resistant and gel electrolyte are adapted to make flexible batteries have higher energy density and better flexibility. 

Dongguan Hoppt Light Technology Co., Ltd. produces flexible and stable batteries:

 

Flexible Battery HB 1420100-150mAh Lithium -ion battery Flexible battery Watch Battery

Rechargeable Flexible Curved Lithium Polymer Battery 1750mAh Lipo Battery

2526179-740mAh Curved Batteries Flexible Battery for wearable device.

If a customer needs to buy or customize flexible batteries, they must find the correct manufacturer and brand. Flexible battery products have the advantages of high capacity, long cycle life, low internal resistance, fast charge and discharge, low self-discharge, and good balance. Choose a high-quality supplier, in order to buy a better quality flexible battery.

DongguanHoppt Light Technology Co.,Ltd. has one-stop service capabilities in the field of lithium battery customization. They can call or email to purchase or customize at any time. To know more about the company, please visit the above mentioned website.

Media Contact
Company Name: Dongguan Hoppt Light Technology Co.,Ltd.
Contact Person: Lance Lau
Email: Send Email
Phone: +8618922520682
Address:Nancheng Street, Dongguan City, Guangdong Province No.8 Shigu Garden Road
City: Dongguan
State: Guangdong
Country: China
Website: https://www.lipolymer-battery.com/

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