Can Graphene Supercapacitors Turn Lightning into a Reliable Energy Resource?

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Paper Title:	Can Graphene Supercapacitors Turn Lightning into a Reliable Energy Resource?
Authors Name:	Karthik Anumolu
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Author Reg. ID:	IJRTI_209852
Published Paper Id:	IJRTI2602083
Published In:	Volume 11 Issue 2, February-2026
DOI:
Abstract:	The Research Question evaluates the theoretical feasibility of an “energy grid” for future eco-systems, especially on atmospheric energy sources and graphene-enabled storage systems. When lightning strikes the earth surface, it delivers approximately 5 Gigajoules of energy per discharge. However, current grid systems are incapable of harvesting these transients due to the inability to accept massive energy louds in microseconds. By modelling a storage architecture based on Graphene super capacitors, this research paper demonstrates how the high surface area (2630m^2 / g) and low internal resistance of carbon nanomaterials can reduce the system’s RC Time Constant to a level compatible with atmospheric discharge speeds. Furthermore, the study explores additional inputs of energy sources with the technology of piezoelectric kinetic roadways and solar-integrated housing. The findings suggest that while significant material science uncertainties remain, the transition to a graphene-enabled grid offers a pathway towards SDG 7 (Affordable and Clean Energy).
Keywords:	Graphene Supercapacitors, Atmospheric Energy Harvesting, Laser-Induced Plasma Channels (LIPC), Transient Energy, Electrostatic Storage, Kinetic Roadways, Decentralized Microgrids, Piezoelectric Transduction, Smart City Architecture, Dielectric Breakdown, Techno-Economic Assessment, Levelized Cost of Energy (LCOE), Negative Externalities, Prosumer Economy, SDG 7, SDG 9, SDG 11.
Cite Article:	"Can Graphene Supercapacitors Turn Lightning into a Reliable Energy Resource?", International Journal for Research Trends and Innovation (www.ijrti.org), ISSN:2456-3315, Vol.11, Issue 2, page no.a615-a620, February-2026, Available :http://www.ijrti.org/papers/IJRTI2602083.pdf
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ISSN:	2456-3315 \| IMPACT FACTOR: 8.14 Calculated By Google Scholar\| ESTD YEAR: 2016 An International Scholarly Open Access Journal, Peer-Reviewed, Refereed Journal Impact Factor 8.14 Calculate by Google Scholar and Semantic Scholar \| AI-Powered Research Tool, Multidisciplinary, Monthly, Multilanguage Journal Indexing in All Major Database & Metadata, Citation Generator
Publication Details:	Published Paper ID: IJRTI2602083 Registration ID:209852 Published In: Volume 11 Issue 2, February-2026 DOI (Digital Object Identifier): Page No: a615-a620 Country: Hyderabad, Telangana, India Research Area: Physics Publisher : IJ Publication Published Paper URL : https://www.ijrti.org/viewpaperforall?paper=IJRTI2602083 Published Paper PDF: https://www.ijrti.org/papers/IJRTI2602083
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