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12th Edition of World Nanotechnology Conference

March 18-20, 2027 | Singapore
March 18-20, 2027 | Singapore

Green nanotechnology

Green nanotechnology

Green nanotechnology are integral components of the broader field of nanomaterials and nanotechnology, showcasing a symbiotic relationship that drives advancements across various industries. Graphene, a two-dimensional material composed of a single layer of carbon atoms arranged in a hexagonal lattice, is inherently a nanomaterial due to its atomic-scale thickness and nanoscale dimensions. In the context of nanotechnology, graphene serves as a pioneering nanomaterial with exceptional electronic, mechanical, and thermal properties. Its incorporation into diverse applications exemplifies the intersection of Green nanotechnology  and nanotechnology. In electronics, graphene transistors and conductors form the basis for nanoscale devices, contributing to the miniaturization and enhancement of electronic components. Moreover, graphene's unique properties are leveraged in nanocomposites to improve material strength, conductivity, and flexibility. Graphene's role extends to energy storage and conversion within the realm of nanotechnology. It is explored for applications in nanoscale batteries, supercapacitors, and energy-efficient materials. The high surface area and conductivity of graphene make it an ideal candidate for optimizing energy-related nanotechnologies. In the field of nanomedicine, graphene-based nanomaterials are investigated for drug delivery systems, diagnostic tools, and imaging agents. The tunability of graphene properties at the nanoscale allows for the design of targeted drug delivery platforms, showcasing the synergistic relationship between Green nanotechnology  and advancements in nanomedicine. The relationship between Green nanotechnology  and nanotechnology is reciprocal—graphene exemplifies the capabilities of nanomaterials, contributing to the development and application of nanotechnologies, while advancements in nanotechnology, in turn, drive the exploration of novel uses for graphene. This collaborative interplay continues to push the boundaries of what is possible in materials science, electronics, energy, and biomedicine, making graphene a flagship nanomaterial with transformative potential in the broader landscape of nanotechnology

Committee Members
Committee Member - Alexander G Ramm

Alexander G Ramm

Kansas State University, United States
Committee Member - Paulo Cesar De Morais

Paulo Cesar De Morais

Catholic University of Brasilia, Brazil
Committee Member - Thomas J Webster

Thomas J Webster

Brown University, United States
World Nano 2027 Speakers
Karel Havlicek

Karel Havlicek

Technical University of Liberec, Czech Republic
Magda Nechanicka

Magda Nechanicka

Technical University of Liberec, Czech Republic

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Green nanotechnology | Scientific Sessions | World Nano