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GDI
City of Rochester, United States
B
11-50 Employees
2009
Key takeaway
GDI is dedicated to advancing battery technology through its innovative 100% silicon anodes, which provide superior performance compared to traditional lithium-ion batteries. Their silicon anodes enhance energy density and charging speed, making them a key player in the transition to sustainable energy solutions.
Reference
Core business
gdinrg.com
E-magy
Broek op Langedijk, Netherlands
A
11-50 Employees
2014
Key takeaway
The company specializes in advanced materials and has over 20 years of experience in silicon crystallization, focusing on the development of nano-porous silicon anode materials that significantly enhance battery performance. They are scaling up production to meet the growing demand in the battery industry, particularly for electric vehicles.
Reference
Core business
E-magy - The Battery Industry Is On With Silicon
Our nano-porous silicon anode material brings winning battery performance to manufacturers worldwide.
NorcSi GmbH
Halle (Saale), Germany
A
1-10 Employees
2020
Key takeaway
NorcSi specializes in developing silicon anodes for lithium-ion batteries, leveraging extensive research to enhance energy density and charging rates. Their patented anode platform technology integrates 100% silicon anodes into current cell production, addressing the challenges of volumetric changes during charging.
Reference
Core business
Silizium-Anoden | NorcSi GmbH | Halle (Saale)
NorcSi entwickelt Silizium-Anoden für Lithium-Ionen-Batterien.
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CELLARK POWERTECH
Bhubaneshwar, India
D
1-10 Employees
2018
Key takeaway
Cellark has developed a next-generation silicon anode material for lithium batteries, offering 30% more energy density than traditional graphite anodes. Their innovative porous silicon technology, resulting from a decade of research, enhances battery capacity and performance.
Reference
Core business
Cellark
Amprius
Sunnyvale, United States
B
11-50 Employees
2008
Key takeaway
Amprius is a leader in high-performance lithium-ion batteries, utilizing advanced silicon anodes to achieve industry-leading energy density and discharge rates. Their innovative silicon nanowire anode technology enhances battery performance, making it a key player in the development of next-generation energy storage solutions.
Reference
Core business
Amprius Technologies Silicon Anode Batteries
Paraclete Energy
Chelsea, United States
B
11-50 Employees
2007
Key takeaway
Paraclete Energy specializes in silicon anode materials that enhance battery energy and longevity, making them a key supplier for manufacturers aiming to produce high-performance batteries. Their products are particularly targeted at the electric vehicle industry and have been proven to significantly improve charging rates and capacity retention.
Reference
Core business
Paraclete Energy | Silicon That Cycles
ionobell
San Jose, United States
B
1-10 Employees
2017
Key takeaway
Ionobell specializes in high-performance silicon anode batteries, utilizing porous nano-particle silicon to enhance stability and efficiency. Their expertise helps automotive and electronics manufacturers achieve cost-effective, high-volume production of silicon batteries using existing equipment.
Reference
Product
Products —
NEO Battery Materials Ltd
Vancouver, Canada
A
11-50 Employees
2006
Key takeaway
NEO Battery Materials is focused on producing silicon anode materials, which are crucial for enhancing the performance of batteries, particularly in the electric vehicle and energy storage sectors. Their innovative and cost-effective manufacturing process promises longer-lasting and faster-charging battery solutions.
Reference
Core business
NEO Battery Materials Ltd. | Silicon-Based Hybrid Anode in the Battery Metal Industry
Silicon-Based Hybrid Anode in the Battery Metal Industry…
Nexeon
Vale of White Horse, United Kingdom
A
51-100 Employees
2006
Key takeaway
Nexeon is a leader in developing innovative silicon-based anode materials that significantly enhance the performance of Lithium-Ion batteries. Their technology offers ten times the specific capacity of graphite, enabling batteries to hold more lithium and improve overall energy storage.
Reference
Product
Technology - Nexeon | Nexeon | Building better batteries | Transformative silicon-based anode technology
Batteries are systems. Getting the highest performance from Li-ion rechargeable batteries requires research and a sound understanding of each of the component parts of cells.
Nexeon Ltd
Vale of White Horse, United Kingdom
A
51-100 Employees
-
Key takeaway
Nexeon is a leader in developing and manufacturing innovative silicon-based anode materials that significantly enhance the performance of lithium-ion batteries. With silicon's ability to hold ten times more lithium than graphite, Nexeon's technology offers a promising advancement for battery efficiency and sustainability.
Reference
Product
Technology - Nexeon | Nexeon | Building better batteries | Transformative silicon-based anode technology
Batteries are systems. Getting the highest performance from Li-ion rechargeable batteries requires research and a sound understanding of each of the component parts of cells.
Technologies which have been searched by others and may be interesting for you:
A silicon anode battery utilizes silicon as the anode material instead of the conventional graphite. Silicon has a much higher theoretical capacity for lithium-ion storage, allowing for greater energy density and improved battery performance. This technology can lead to batteries that charge faster and last longer, making them highly desirable for applications in electric vehicles and portable electronics. Silicon anodes can significantly enhance the overall efficiency and longevity of batteries. However, challenges such as silicon's expansion during charging, which can lead to structural degradation, are actively being researched and addressed by battery manufacturers. The ongoing advancements in this area aim to create more sustainable and efficient energy storage solutions.
A silicon anode battery operates by utilizing silicon as the anode material instead of the conventional graphite. When the battery charges, lithium ions move from the cathode through the electrolyte and intercalate into the silicon anode. This process allows the silicon to expand significantly, accommodating more lithium ions due to its high capacity for lithium storage. During discharge, the reverse occurs, as lithium ions exit the silicon and travel back to the cathode. The high energy density of silicon improves the overall performance of the battery, offering greater charge capacity and longer lifespan compared to traditional batteries. However, managing the expansion and contraction of silicon during charge and discharge cycles remains a critical focus in battery design to prevent degradation and enhance efficiency.
1. Higher Energy Density
Silicon anode batteries offer significantly higher energy density compared to traditional graphite anodes. This allows for more energy storage in a smaller and lighter package, which is particularly beneficial for portable electronics and electric vehicles.
2. Enhanced Charge Capacity
These batteries can provide a higher charge capacity, meaning they can store more energy per cycle. This results in longer usage times for devices and reduced charging frequency, enhancing overall user convenience.
3. Improved Cycle Life
Silicon anodes have the potential to improve the cycle life of batteries. They can withstand more charge and discharge cycles without significant degradation, leading to longer-lasting battery performance over time.
4. Faster Charging Times
Silicon anode batteries can achieve faster charging times due to their unique material properties. This feature is particularly advantageous as it aligns with the growing demand for quick charging solutions in modern technology.
Silicon anode batteries face several challenges that can hinder their widespread adoption. One significant issue is the volume expansion that occurs during lithium-ion insertion into the silicon. This expansion can lead to mechanical stress and cracking, ultimately reducing the battery's lifespan and efficiency. Another challenge is conductivity. Silicon has lower electrical conductivity compared to traditional graphite anodes, which can impact the battery's overall performance. Enhancing conductivity while maintaining the structural integrity of the anode remains a critical area of research and development. Additionally, cost factors associated with sourcing and processing silicon materials can also pose hurdles for manufacturers looking to integrate silicon anodes into commercial battery solutions.
Silicon Anode Batteries typically offer a longer lifespan compared to traditional lithium-ion batteries. This is largely due to the silicon anode's ability to accommodate more lithium ions during charge cycles, resulting in greater energy density and efficiency. As a result, these batteries can endure more charge and discharge cycles before experiencing significant capacity loss. Furthermore, the innovative materials used in silicon anodes minimize degradation over time, which enhances their durability. In contrast, conventional batteries often suffer from material fatigue and limited cycle life. Therefore, users can expect Silicon Anode Batteries to maintain performance over a greater number of cycles, making them a more reliable option in the long run.
Some interesting numbers and facts about your company results for Silicon Anode Battery
Country with most fitting companies | United States |
Amount of fitting manufacturers | 5837 |
Amount of suitable service providers | 3556 |
Average amount of employees | 11-50 |
Oldest suiting company | 2006 |
Youngest suiting company | 2020 |
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Some interesting questions that has been asked about the results you have just received for Silicon Anode Battery
What are related technologies to Silicon Anode Battery?
Based on our calculations related technologies to Silicon Anode Battery are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Who are Start-Ups in the field of Silicon Anode Battery?
Start-Ups who are working in Silicon Anode Battery are NorcSi GmbH
Which industries are mostly working on Silicon Anode Battery?
The most represented industries which are working in Silicon Anode Battery are Electronics and Electrical engineering, Oil, Energy and Gas, Other, IT, Software and Services, Semiconductor
How does ensun find these Silicon Anode Battery Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.