Tag: Nagaland University
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Nagaland University Scientists Unveil Flexible Supercapacitor for Wearables, EVs
Reinforcing the future of portable energy storage Researchers at Nagaland University have announced a breakthrough in energy storage: a flexible supercapacitor capable of powering next-generation wearable electronics, electric vehicles (EVs), and renewable energy systems. This development marks the first comprehensive comparison of tungsten, vanadium, and cobalt doping in molybdenum diselenide for energy storage and demonstrates…
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Flexible supercapacitor to power wearables, EVs, and renewables in India
Overview: A breakthrough in Indian energy storage Researchers at Nagaland University have announced a breakthrough in flexible energy storage: a wearable-friendly, cobalt-doped molybdenum diselenide-based supercapacitor. The device promises to power next-generation wearable electronics, electric vehicles (EVs), and renewable energy systems while helping India reduce its dependence on imported batteries. Supported by the Indian Institute of…
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Flexible supercapacitor for wearables and EVs, Nagaland Uni unveils breakthrough
Groundbreaking flexible supercapacitor from Nagaland University Researchers at Nagaland University have introduced a flexible supercapacitor capable of powering next-generation wearable electronics, Internet of Things (IoT) devices, and electric vehicles (EVs). This breakthrough marks a significant advance in energy storage, combining pliability with durable high-energy performance. The project represents a pioneering comparison of tungsten, vanadium, and…
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Flexible Supercapacitor for Wearables and EVs – Nagaland Uni
Breakthrough Overview Researchers at Nagaland University have unveiled a flexible supercapacitor capable of powering next-generation wearable electronics, electric vehicles (EVs), and renewable energy systems. This study is notable not only for its substantive advancement in material science but also for its hands-on demonstration: a working prototype that proves the technology’s practical viability beyond lab-scale development.…