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From: Haim R. Branisteanu1/24/2025 3:06:04 PM
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Pogeu Mahone

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Sustainable Carbon Nanomaterial Gii Set to Transform Energy Storage in the Internet of Things Devices.
Sustainable Carbon Nanomaterial Gii Set to Transform Energy Storage in Internet of Things Devices
Researchers at the University of Liverpool have developed a groundbreaking energy storage material using sustainable carbon nanomaterial, Gii. This innovation could enable smaller, more efficient energy storage capabilities in ‘Internet of Things’ (IoT) devices.
Published in Batteries & Supercaps, the researchers combined Gii with iron oxyhydroxide (FeOOH) through a process called electrochemical deposition, creating a powerful new electrode material for micro-supercapacitors. These small energy-storage devices are increasingly used to power IoT technologies, such as internet-connected sensors in vehicles and home appliances.
This material is a pure, porous, 3D carbon nanostructure that offers exceptional properties for various applications. Here are some key points about Gii:
High Sensitivity: Gii has a large surface area and high conductivity, making it ideal for advanced sensing technologies.
Sustainability: Gii is manufactured using a low-energy process without additives or binders, making it more sustainable compared to traditional materials like gold or platinum.
Cost-Effective: The manufacturing process of Gii is cost-efficient, allowing it to be produced at a fraction of the cost of other materials.
Versatility: Gii can be used in various industries, including healthcare, environmental monitoring, and energy storage.
See my presentation of 2016 at Eilat Eilot on page 16 at Smart Cities presentation at the Renewable Energy Conference at Eilat Eilot | PPT

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