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Excelitas Technologies Corp. - X-Cite Vitae LB 11/24

Robust Imaging Tool Boosts Biology, Materials Science

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EUGENE, Ore., Aug. 8, 2011 — A novel imaging method developed at the University of Oregon may help researchers better understand and predict how nanometer-size pieces fit together into structures ranging from living cells to artificially fabricated devices. Coupling laser-driven, two-dimensional fluorescence imaging and high-performance computer modeling, a six-member team led by Andrew H. Marcus of the University of Oregon and Alan Aspuru-Guzik of Harvard University solved the conformation of self-assembled porphyrin molecules in a biological membrane. Porphyrins are organic compounds that are ubiquitous in...Read full article

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    Published: August 2011
    Alan Aspuru-GuzikAmericasAndrew H. MarcusBasic ScienceBiophotonicscell biologyCommunicationsfluorescence imagingHarvard UniversityImagingMaterialsMaterials & Chemicalsmaterials sciencenanodevicesOregonphase-modulation 2-D fluorescence spectroscopyResearch & TechnologyUniversity of Oregon

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