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|a (TOE)ost1668848
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|a E 1.99:inl/exp-20-59760-rev000
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|a Investigation of Exciton Delocalization and Exciton Coherence in Chromophores and Acoustic Nanostructures
|h [electronic resource]
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| 260 |
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|a Idaho Falls, Idaho :
|b Idaho National Laboratory ;
|a Oak Ridge, Tenn. :
|b Distributed by the Office of Scientific and Technical Information, U.S. Department of Energy,
|c 2020.
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| 300 |
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|a Medium: ED :
|b digital, PDF file.
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|a Published through Scitech Connect.
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|a 09/24/2020.
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|a "inl/exp-20-59760-rev000."
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|a Khanolkar, Amey Rajendra ; Hurley, David H ; Hua, Zilong ; Dennett, Cody Andrew ; Simmonds, Paul ; Yurke, Bernard
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| 500 |
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|a Laboratory Directed Research and Development.
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|a Quantum materials have a rich potential for providing transformative energy technologies ranging from new energy efficient computation paradigms to lossless energy transport across the national grid. The field of quantum materials, however, is still in its infancy with many quantum materials systems requiring cyrogenic temperatures to be viable. Few viable, room-temperature quantum materials systems have been identified; therefore, identifying additional such systems is vitally important. This state of the science combined with the low number of potential systems that exhibit room-temperature quantum character make this field of research fertile ground for EPSCoR states (states eligible for funding under the Established Program to Stimulate Competitive Research program) such as Idaho to compete on a national level. As a result, this project proposed and accomplished two main goals in advancing two room-temperature quantum materials systems: (1) advance the science for demonstrating room temperature exciton delocalization in two excitonic systems and (2) build capacity and expertise in developing and understanding quantum materials at both Boise State University and Idaho National Laboratory. The work at Boise State focused mainly on the use of nucleic acid self-assembled chromophore molecule networks that offer a much easier and mature approach to construct aggregates of chromophores that can be tailored to specific two-dimensional and three-dimensional geometries and allow exciton manipulation towards achieving room-temperature quantum computation. A second complementary effort performed at Boise State and INL focused on confining excitons on quantum length scales using coherent surface acoustic phonons.
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|b DE-AC07-05ID14517.
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|a 36 - materials science
|2 local.
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|a Quantum materials
|2 local.
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|a Acoustic nanostructures
|2 local.
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|a Excitons
|2 local.
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|a Idaho National Laboratory.
|4 res.
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|a United States. Department of Energy. Office of Energy Efficiency and Renewable Energy.
|4 spn.
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|a United States.
|b Department of Energy.
|b Office of Scientific and Technical Information
|4 dst.
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| 856 |
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|u http://www.osti.gov/servlets/purl/1668848
|z Full Text (via OSTI)
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|b 11-30-21
|c 10-05-20
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