QuantumDNAGroup
@QuantumDNAGroup
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The Quantum DNA (qDNA) group at Boise State pioneers the use of DNA as a programmable architecture to organize dye molecules for quantum information systems.
Boise, Idaho
Joined December 2021
Boise State University's Quantum DNA Group had the honor of hosting distinguished members of the U.S. Council on Competitiveness for an exclusive tour of our cutting-edge research.
linkedin.com
Boise State University’s Quantum DNA Group had the honor of hosting distinguished members of the U.S. Council on Competitiveness for an exclusive tour of our cutting-edge research. These industry...
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Thank you everyone who attended and presented at our first NSF Engines workshop on quantum supply chain May 16-17th.
boisestate.edu
Follow @QuantumDNAGroup In May 2024, just in time for Boise’s beautiful spring weather, the Quantum...
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"Happy International Women’s Day".The @quantumDNAGroup of @BoiseState celebrates the contributions of women in nanoscience. Our researcher @GisselaPascual has been featured in @nanoscale_rsc for publishing impactful work. #InternationalWomensDay2024.
In line with #InternationalWomensDay2024, we would like to highlight some of the excellent women researchers publishing impactful work in nanoscience. Check out our collection celebrating some of the amazing women in nano science.🔗
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Our most recent work @QuantumDNAGroup of @BoiseState published in @nanoscale_rsc has potential applications in #excitonics based materials and #QuantumInformationScience. #quantumcomputing #opticalInformationProcessing #lightharvesting @INL @USNRL @materialsrocks.
ICYMI! The effect of hydrophilicity-imparting substituents on exciton delocalization in squaraine dye aggregates covalently templated to DNA Holliday junctions has been studied in the latest Nanoscale article from the @QuantumDNAGroup @BoiseState 👇.
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The @QuantumDNAGroup 📷 presented work and celebrated science at #FNANO 2023 at @Snowbird Utah, last week. 📷📷#DNA #nanotech #excitonics @DNA_Nanotech #BoiseState
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Our five specialized teams presented their work on characterizing excitonic materials templated by DNA. 📷📷.
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Our recent work Exciton Chirality Inversion in Dye Dimers Templated by DNA Holliday Junction will open new opportunities for creating excitonic DNA-based materials that rely on programmable system chirality.@QuantumDNAGroup @USNRL #QuantumInformationScience, #DNAnanotech.
Using #dnananotechnology researchers at @QuantumDNAGroup @BoiseState created mirror image dye dimers that are excitonically coupled in solution.
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RT @DivitaMathur: Spectral tailoring of cyanine dyes within a 4-arm #DNA junction - great collaboration between @USNRL @BoiseState @Quantum….
pubs.acs.org
Molecular excitons are useful for applications in light harvesting, organic optoelectronics, and nanoscale computing. Electronic energy transfer (EET) is a process central to the function of devices...
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Check out our most recent work: Controlling the spatial orientation of #SingleMolecules tethered on.#DNAorigami using intercalation and stretching strategies, by @QuantumDNAGroup.@USNRL. Results with strong implications for #excitonics, #QuantumInformationScience,. #DNAnanotech.
New controls in DNA-based nanoarchitectonics: Intercalation and Stretching Strategies for.Controlling the Spatial Orientation of Single Molecules Tethered on DNA Origami Templates Physisorbed.on Glass Substrates. #DNAorigami #DNAnanotech #DNAPAINT.DOI:
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A new publication by the Quantum DNA Group .@BoiseState regarding #photocrosslinking in DNA constructs. #QuantumInformationScience.#DNAnanotech @INL @USNRL @materialsrocks @BlackPhysicists.
#RecommendedPaper #HighlyAccessedPaper.Photocrosslinking to elucidate structural characteristics of DNA-templated squaraine dye aggregates with potential applications in organic optoelectronics and quantum computing.By Jeunghoon Lee, Olga A. Mass,et al. 👉
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A recent JPC C article from @BoiseState uses #DNAnanotech to examine the role of excitonic coupling in dye aggregates templated by DNA with potential applications in #QuantumInformationScience. @INL @USNRL @materialsrocks @BlackPhysicists.
pubs.acs.org
Control over the strength of excitonic coupling in molecular dye aggregates is a substantial factor for the development of technologies such as light harvesting, optoelectronics, and quantum comput...
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The Quantum DNA Research Group at Boise State is now live on twitter! We recently received this tweet for a paper published in the Journal of Physical Chemistry. @BoiseState @INL @USNRL @materialsrocks @BlackPhysicists.
A JPC B article from @BoiseState uses #DNAnanotech to engineer delocalized excitons in dye aggregates for energy transfer--with potential applications in #QuantumInformationScience--using synthetic DNA analogs.
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