Contact Shanghai Green Tech Co.,Ltd. sales team via channels you prefer provided at the Contact Us page. Request for Quotation (RFQ) is a key step in your China sourcing plan to ensure the timeliness and quality of your production. To get an accurate and professional quote of supercapacitor battery, please keep the following in mind. Make sure to be as detailed as possible with your product description. Typically, a quote request should at least include the following details about your product: model, order quantities, packaging requirements, customization needs, manufacturing technology requirements, etc.

Shanghai Green Tech has accumulated years of experience in developing innovative graphene supercapacitor for sale. Now, our company is noted as a strong manufacturer. Various in styles, Shanghai Green Tech's graphene battery can meet the needs of different customers. With the changes of the society, customers also pay more attention to the design of graphene capacitor. Our mature sales network contributes to the popularity of GTCAP.

Winning your graphene battery is our greatest power to move forward. Get more info!

In China, the number of supercapacitor energy storage manufacturers is huge. The business distribution is mainly decided by the sources of raw materials and the traffic conditions. We fully understand that foreign purchasers always emphasize the cost (price), and quality of the products, as well as the transportation. The former is crucial because it has an impact on the purchasers’ business growth, while the latter is a main factor for the business visit and the long-term cooperation. Fortunately, most of the supercapacitor energy storage manufacturers enjoy great traffic convenience. You may pay a visit to China and we would provide pick-up service for you.

Shanghai Green Tech Co.,Ltd. is a pioneer company with the most advanced international level in R&D, manufacture, and sales of graphene supercapacitor. Shanghai Green Tech's graphene battery series contains multiple sub-products. graphene battery would work in a safe and serviceable fashion. Installation service of GTCAP is also accessible to all the clients.

It is a fact that GTCAP has been keeping the idea of graphene battery first in mind since founded. Contact us!

Compared with lithium batteries, supercapacitors have fast charging and discharging speed, high efficiency, long cycle life and high safety. These seem to be the antidote to the current dilemma of electric vehicle promotion. When the lithium battery industry is enjoying the chasing of the stars and the moon, one of its potential opponents has quietly approached, and it is the super capacitor. Recently, market research firm IDTechEx made a bold assertion that supercapacitors will destroy the lithium-ion battery market.

In a report titled 'Supercapacitor Market 2014-2024', IDTechEx stated that by 2024, the global supercapacitor market will be worth $6.5 billion, and the market share will increase while swallowing the battery market. The so-called supercapacitor is a new type of energy storage device between traditional capacitors and rechargeable batteries. The basic principle is the same as that of other types of electric double-layer capacitors. The electric double-layer structure composed of activated carbon porous electrodes and electrolytes is used to obtain super-large capacity. Because of its large capacity, its external performance is the same as that of batteries, so it is also called 'capacitor battery'.

Why do some people think it will replace lithium batteries? Mainly from its performance considerations. Compared with lithium batteries, supercapacitors have fast charging and discharging speed, high efficiency, long cycle life and high safety. These seem to be the antidote to the current dilemma of electric vehicle promotion. The world's first supercapacitor 100% low-floor tram, delivered in a single batch by CSR Zhuji in May this year, uses 7500F electric double-layer supercapacitors with a lifespan of 10 years and can be charged and discharged 1 million times. The train can be quickly charged every time it enters the station, the maximum charging time is 30 seconds, and the fastest charging can be completed in 10 seconds. The safety performance of supercapacitors higher than that of lithium batteries has also been demonstrated in various events in recent years.

In the past year, Boeing, Apple, Tesla and other companies have been trapped in the safety of lithium batteries, causing frequent incidents. Experts also pointed out that lithium batteries are 'inherently difficult to move', and it is difficult to technically make up for their safety shortcomings. The supercapacitor itself, which uses electrostatic charge to store electrical energy, ensures its safety performance. Today, supercapacitors mainly play a supporting role in lithium batteries due to their low energy density.

However, due to the application of 'universal material' graphene, the footsteps of supercapacitors to replace lithium batteries seem to be getting closer. Although there are many debates at home and abroad, no consensus has been reached. However, compared with the high enthusiasm for lithium batteries in China, the approach of many European and American countries is more balanced. Taking Germany as an example, the 'German National Electric Vehicle Development Plan' promulgated in 2008 places the research and development of supercapacitors and lithium batteries on the same equal position.

In the industrialization of supercapacitors, some companies in the United States, Japan, Russia, Switzerland, South Korea, and France are currently in a leading position with years of research and development and technology accumulation. Such as Maxwell in the United States, Nec, Panasonic, Tokin in Japan and Econd in Russia, etc., these companies currently occupy most of the global market.

Among them, Maxwell was the first to taste the big cake from the Chinese market. According to Alexander Potter, an analyst at PiperJaffray, an American investment bank, Yutong is currently Maxwell's largest customer, and the order growth is still accelerating. In recent years, some Chinese companies have also begun to actively set foot in this industry due to their optimism about the broad application prospects in this field. However, due to the high technical barriers, before 2012, there were more than 50 domestic manufacturers engaged in the research and development of large-capacity supercapacitors, but only more than 10 manufacturers were able to mass-produce and reach the practical level.

However, given that supercapacitors can be used in various industries such as new energy power generation, smart grids, new energy vehicles, energy-saving buildings, industrial energy conservation and emission reduction, whether or not they will replace lithium batteries in ten years, its use determines its strategic value. .

Recently, a research team from Nanyang Technological University in Singapore developed a graphene supercapacitor specially designed for wearable electronic products. Due to its folding and bending properties, this graphene supercapacitor can be used not only for pressure sensors and chemical sensors but also for various small smart wearable devices and any flexible smart products. The product was announced at the 252nd American Chemical Society Symposium. At present, the supercapacitors developed in the market have high hardness and a certain thickness and are not suitable for some flexible smart wearable devices.

The research team used graphene, which has thinness, strength, flexibility, and conductivity as raw material, to produce a miniature supercapacitor with good elasticity and ductility, which is more flexible and less perishable than the original rigid battery. Graphene supercapacitors will have higher efficacy and life cycle than standard capacitors and batteries. The research team said that, as a test product in the initial stage, the energy storage of supercapacitor products is relatively limited. During the test period, the operation time of the supercapacitor in the LCD device is one minute. The next stage of research will focus on how to increase the electrode surface area to improve performance. Battery storage.

Overseas analysts predict that in the next few years, the compound annual growth rate of the global smart wearable device and service market will reach 22.65%, and the market demand for flexible graphene supercapacitors, which is one of the future standard equipment, will have greater potential. In recent years, the global application of graphene has been expanding, and breakthroughs have been made in the application of composite materials, flexible touch screens, supercapacitors and chips, and graphene will enter the stage of large-scale industrialization.

As one of the graphene giants, my country's supercapacitor market is also growing rapidly. In July this year, my country launched the world's first graphene-based lithium-ion battery product, opening up the market space for the intersection of graphene and lithium batteries. The 'cooperation' between graphene and supercapacitors also verifies the application prospects of graphene in energy storage.

In addition, as a strategic new material for my country's key development, the graphene industry has received support from local governments, and joint industrial zones have been established one after another. In September this year, Sichuan will set up the Graphene Application Technology Research Institute, focusing on the research and development of large-capacity supercapacitors.

Coincidentally, the China International Graphene Resources Industry Alliance is expected to be officially established in September this year. In the country to accelerate the research and development of various graphene products and acceleration the pace of industrialization, the agency predicts that by 2020, the graphene market will reach a scale of 100 billion, and there is huge room for future development.

In an age where energy efficiency and sustainability are paramount, technological innovations in energy storage solutions have become the need of the hour. GTCAP Graphene batteries are emerging as a revolutionary breakthrough in the field of energy storage. These batteries are poised to reshape the landscape of not only consumer electronics but also renewable energy systems and electric vehicles. In this article, we will explore what GTCAP Graphene batteries are, their key advantages, and the potential they hold for a greener, more sustainable future.

Understanding GTCAP Graphene Batteries

GTCAP Graphene batteries are the next frontier in energy storage technology. They leverage the remarkable properties of graphene, a single layer of carbon atoms arranged in a hexagonal lattice. Graphene is renowned for its exceptional electrical conductivity, mechanical strength, and thermal properties, making it an ideal candidate for enhancing battery performance.

Key Advantages of GTCAP Graphene Batteries

Fast Charging: GTCAP Graphene batteries can be charged significantly faster than conventional lithium-ion batteries. This is a game-changer, especially for electric vehicles, where reducing charging times is critical for widespread adoption.

Longer Lifespan: These batteries boast an extended lifespan due to their improved cycling capabilities. With reduced degradation over time, GTCAP Graphene batteries can endure more charge-discharge cycles, ultimately reducing the frequency of battery replacements.

High Energy Density: GTCAP Graphene batteries offer a higher energy density, meaning they can store more energy in a smaller and lighter package. This property is particularly valuable for portable electronics and electric vehicles, where space and weight constraints are crucial.

Enhanced Safety: Graphene batteries are less prone to overheating and thermal runaway incidents, making them safer for both consumers and the environment. This is a significant advancement over traditional lithium-ion batteries.

Environmental Sustainability: GTCAP Graphene batteries have the potential to be more environmentally friendly than their counterparts. Reduced replacement frequency and the use of carbon materials can contribute to a more sustainable energy storage solution.

Applications of GTCAP Graphene Batteries

Consumer Electronics: Imagine your smartphone charging in minutes and lasting longer between charges. GTCAP Graphene batteries could revolutionize the way we power our portable devices.

Electric Vehicles: Electric cars powered by these batteries could have longer ranges and shorter charging times, addressing two critical factors in EV adoption.

Renewable Energy Storage: GTCAP Graphene batteries can store excess energy generated from renewable sources like solar and wind power, providing a more reliable and efficient way to harness clean energy.

Medical Devices: In the healthcare sector, these batteries could enhance the performance and longevity of critical medical devices, such as pacemakers and insulin pumps.

Conclusion

GTCAP Graphene batteries represent a significant leap forward in energy storage technology. Their remarkable advantages in terms of fast charging, longer lifespan, and high energy density make them a promising solution for a wide range of applications, from consumer electronics to renewable energy systems and electric vehicles. As research and development in graphene battery technology continue to progress, we can anticipate a cleaner, more efficient, and sustainable future powered by GTCAP Graphene batteries. Stay tuned as this groundbreaking technology transforms the way we store and utilize energy.