Introducing Mobile Batteries Utilizing 'LiFePO4 & Semi-Solid' Batteries to Reduce Fire Risks!
Trans Co., Ltd. launched B2B custom mobile batteries in March 2026, featuring LiFePO4 and semi-solid state batteries to minimize fire risks and protect corporate brand images.
📋 Article Processing Timeline
- 📰 Published: March 31, 2026 at 20:00
- 🔍 Collected: April 1, 2026 at 13:39 (17h 39m after Published)
- 🤖 AI Analyzed: April 21, 2026 at 08:18 (474h 39m after Collected)
As mobile batteries become increasingly widespread, the management of risks related to fires and thermal issues is being heavily scrutinized, drawing attention to 'retail-use' gadgets that mitigate these risks. Original-Goods.com, operated by Trans Co., Ltd. (Headquarters: Shibuya-ku, Tokyo; CEO: Yukiko Inokuchi), began offering mobile batteries utilizing next-generation safety technologies—'Lithium Iron Phosphate (LiFePO4) batteries' and 'Semi-solid state batteries'—in March 2026. We support corporations and businesses that wish to prioritize safety when creating their original merchandise.
## The 'Safety' of Mobile Batteries Links Directly to Brand Trust
Mobile batteries are now essential for daily life, but fire accidents and thermal troubles are drawing attention. Especially when creating original goods as rental equipment for accommodation facilities or retail items for stores, a severe accident could lead to a fatal loss of brand image. Against this backdrop, the need for 'safer devices' is rapidly increasing.
## Two Next-Generation Technologies That Can Reduce Fire Risk
The mobile batteries we have introduced this time employ two technologies that offer superior thermal stability compared to conventional general lithium batteries.
### 1. Lithium Iron Phosphate (LiFePO4) Battery
This is a highly stable battery drawing global attention, used in electric vehicles (EVs) and solar power generation systems.
**Heat resistant and hard to burn**
The most significant feature is its extremely robust internal structure. Even in the unlikely event of an internal short circuit, thermal runaway is difficult to occur, thereby suppressing the risk of heat generation and fire.
**Resistant to changes in the usage environment**
Compared to conventional general lithium batteries, it is relatively stronger against strong external impacts and temperature increases.
**Long-lasting, reducing the frequency of replacement**
Performance does not easily degrade even with repeated charging, allowing it to be used for a longer period than general lithium batteries. The ability to use it for a long time
## The 'Safety' of Mobile Batteries Links Directly to Brand Trust
Mobile batteries are now essential for daily life, but fire accidents and thermal troubles are drawing attention. Especially when creating original goods as rental equipment for accommodation facilities or retail items for stores, a severe accident could lead to a fatal loss of brand image. Against this backdrop, the need for 'safer devices' is rapidly increasing.
## Two Next-Generation Technologies That Can Reduce Fire Risk
The mobile batteries we have introduced this time employ two technologies that offer superior thermal stability compared to conventional general lithium batteries.
### 1. Lithium Iron Phosphate (LiFePO4) Battery
This is a highly stable battery drawing global attention, used in electric vehicles (EVs) and solar power generation systems.
**Heat resistant and hard to burn**
The most significant feature is its extremely robust internal structure. Even in the unlikely event of an internal short circuit, thermal runaway is difficult to occur, thereby suppressing the risk of heat generation and fire.
**Resistant to changes in the usage environment**
Compared to conventional general lithium batteries, it is relatively stronger against strong external impacts and temperature increases.
**Long-lasting, reducing the frequency of replacement**
Performance does not easily degrade even with repeated charging, allowing it to be used for a longer period than general lithium batteries. The ability to use it for a long time