Samsung Electro-Mechanics, a renowned technology company, has recently made significant advancements in the solid-state battery market for wearable devices. With over 40 patents filed for this innovative technology, the company aims to offer enhanced flexibility in form factors while ensuring superior safety.

The breakthrough comes in the form of the world’s first ultra-small oxide-based solid-state battery created specifically for wearable devices. Despite its compact size, this battery boasts an impressive energy density of 200 watt-hours per liter, comparable to larger lithium-ion batteries.

What sets this battery apart from its competitors is its ability to overcome size limitations. The Samsung Electro-Mechanics battery can be manufactured in sizes ranging from millimeters to centimeters, customized to meet specific customer requirements.

Solid-state batteries utilize non-flammable solid electrolytes, making them inherently safer and more resistant to external shocks. Additionally, they can be produced in various forms and ultra-small sizes.

The miniaturization of this battery was made possible through the utilization of Samsung Electro-Mechanics’ expertise in multi-layer ceramic capacitors production. By printing thin layers of materials and stacking them alternately, the company was able to prevent the wrinkling issues commonly observed in conventional lithium-ion batteries. This approach also enables minimal volume change during charging, eliminating the need for additional space.

After three years of intensive research and development, Samsung Electro-Mechanics successfully completed this project last month. With more than 40 patents filed during the development phase, the company is well-equipped to transform this innovation into a viable business.

The company plans to integrate this advanced battery technology into wearable devices, leveraging its stability, size, and flexibility in form. Sample tests with potential client companies are already underway, demonstrating Samsung Electro-Mechanics’ commitment to delivering cutting-edge solutions to the wearable technology market.

With Samsung Electro-Mechanics at the forefront of solid-state battery innovation, the future of wearable devices looks promising, incorporating greater safety, improved flexibility, and enhanced user experience.

Samsung Electro-Mechanics develops compact solid-state battery for wearable devices

Samsung Electro-Mechanics has made significant advancements in the solid-state battery market for wearable devices, offering enhanced flexibility and superior safety. The company has filed over 40 patents for this innovative technology.

Key terms:

1. Solid-State Battery: A type of battery that uses solid electrodes and a solid electrolyte, as opposed to traditional lithium-ion batteries which use liquid or gel electrolytes. Solid-state batteries are known for their improved safety and energy density.

2. Energy Density: The amount of energy that can be stored per unit volume of the battery. Higher energy density means the battery can store more energy and provide longer battery life.

3. Multi-Layer Ceramic Capacitors: These are electronic components that store and discharge electrical energy in various devices. Samsung Electro-Mechanics utilized its expertise in multi-layer ceramic capacitors production to miniaturize the solid-state battery.

FAQs:

1. What is Samsung Electro-Mechanics’ recent achievement in the solid-state battery market?
Samsung Electro-Mechanics has developed the world’s first ultra-small oxide-based solid-state battery for wearable devices. This battery offers enhanced flexibility in form factors and superior safety.

2. What is the energy density of Samsung Electro-Mechanics’ solid-state battery?
The solid-state battery developed by Samsung Electro-Mechanics has an energy density of 200 watt-hours per liter, which is comparable to larger lithium-ion batteries.

3. How does Samsung Electro-Mechanics’ solid-state battery overcome size limitations?
The Samsung Electro-Mechanics battery can be manufactured in sizes ranging from millimeters to centimeters, customized to meet specific customer requirements.

4. What are the advantages of solid-state batteries?
Solid-state batteries are safer and more resistant to external shocks compared to traditional lithium-ion batteries. They can also be produced in various forms and ultra-small sizes.

5. How was the miniaturization of the battery achieved?
Samsung Electro-Mechanics utilized its expertise in multi-layer ceramic capacitors production. Thin layers of materials were printed and stacked alternately, preventing wrinkling issues commonly observed in conventional lithium-ion batteries. This also eliminates the need for additional space due to minimal volume change during charging.

6. What are the future plans for Samsung Electro-Mechanics’ solid-state battery?
The company plans to integrate this advanced battery technology into wearable devices, leveraging its stability, size, and flexibility in form. Sample tests with potential client companies are already underway.

Suggested related links:
Samsung Electro-Mechanics Official Website

Ann Marie Sastry | Solid state energy storage: Game-changing technology for the 21st century

BySeweryn Dominsky

Seweryn Dominsky is an accomplished author and thought leader in the realms of new technologies and fintech. He holds a Master’s degree in Information Technology from the University of Krakow, where he cultivated a deep understanding of the intersection between technology and finance. With over a decade of experience in the industry, Seweryn has worked with TechX Solutions, a leading firm specializing in innovative fintech applications. His unique insights, paired with a rigorous academic background, allow him to explore complex technological advancements and their implications in the financial sector. Through his writing, Seweryn aims to demystify emerging technologies, making them accessible to professionals and enthusiasts alike.