Energy harvesting and distribution through nanoscale networks well below the diffraction limit will be a powerful tool in the development of next-generation technologies for the warfighter including utilizing focused energy for sensing, catalysis and conversion to electricity or movement. The graphic depicts 6 energy transfer steps on a discrete DNA photonic wire. Each individual energy transfer step proceeds through the pendant fluorophores sequentially displayed on the DNA scaffold and their order is indicated by a number. (Image courtesy of Dr. Igor Medintz, Naval Research Laboratory) Harve
Energy harvesting and distribution through nanoscale networks well below the diffraction limit will be a powerful tool in the development of next-generation technologies for the warfighter including utilizing focused energy for sensing, catalysis and conversion to electricity or movement. The graphic depicts 6 energy transfer steps on a discrete DNA photonic wire. Each individual energy transfer step proceeds through the pendant fluorophores sequentially displayed on the DNA scaffold and their order is indicated by a number. (Image courtesy of Dr. Igor Medintz, Naval Research Laboratory) Harvesting Energy at Nano Level 150318-A-AB123-001
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Keywords: agency, armed, cb, conflict, defense, dna, dtra, forces, igor, laboratory, level, medintz, military, nano, nanoscale, naval, nrl, photonic, reduction, research, states, threat, united, war, wire
