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Showing 1–9 of 9 results
Advanced filters: Author: Dane R. McCamey Clear advanced filters

  • Previous demonstrations of electrically and optically detected magnetic resonance in OLED materials have established these systems as promising candidates for magnetic field sensing. Here the authors present an integrated OLED-based device for magnetic field imaging with sub-micron resolution.

    • Rugang Geng
    • Adrian Mena
    • Dane R. McCamey
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-8

  • Experiments show how molecular structure affects the interaction and dynamics of the triplet exciton pairs produced when an excited singlet exciton decays via singlet fission — a process that could be harnessed for optoelectronic applications.

    • Murad J. Y. Tayebjee
    • Samuel N. Sanders
    • Dane R. McCamey
    Research
    Nature Physics
    Volume: 13, P: 182-188

    • T. L. Keevers
    • A. Danos
    • Dane R. McCamey
    Correspondence
    Nature Nanotechnology
    Volume: 8, P: 886-887

  • Performing logical operations with molecular excitons may provide opportunities for developing ultrafast, subnanometre and biocompatible computational architectures. This Roadmap outlines a framework for using multiexcitonic processes such as singlet fission and triplet–triplet annihilation to drive logical devices.

    • Rohan J. Hudson
    • Thomas S. C. MacDonald
    • Dane R. McCamey
    Reviews
    Nature Reviews Chemistry
    Volume: 8, P: 136-151

  • Although they are synthetically tunable, organic molecules that undergo singlet fission (the generation of two excitons from one photon) have not demonstrated the excited-state properties necessary to improve optoelectronic devices. Now, a general ‘energy cleft’ molecular design scheme has been demonstrated that enables rapid generation and long lifetimes of multiple triplet excitons that are for device applications.

    • Andrew B. Pun
    • Amir Asadpoordarvish
    • Matthew Y. Sfeir
    Research
    Nature Chemistry
    Volume: 11, P: 821-828

  • Quintet formation is a part of a photochemical energy conversion process, which could be exploited to help achieve higher efficiency values for photovoltaics. Here, the authors propose a stochastic and coherent resonance mechanism for formation of the quintet spin state in singlet fission materials, that is still viable in the strong-exchange regime.

    • Miles I. Collins
    • Francesco Campaioli
    • Dane R. McCamey
    ResearchOpen Access
    Communications Physics
    Volume: 6, P: 1-8