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Recently Published Articles

  1. Programmed Emission Transformations: Negative-to-Positive Patterning Using the Decay-to-Recovery Behavior of Quantum Dots

    Sidney T. Malak, Marcus J. Smith, Young Jun Yoon, Chun Hao Lin, Jaehan Jung, Zhiqun Lin and Vladimir V. Tsukruk

    Version of Record online: 22 SEP 2016 | DOI: 10.1002/adom.201600509

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    The unique decay-to-recovery behavior of quantum dot emission allows for the fabrication of a variety of photopattern types including negative and positive, as well as negative-to-positive contrast switching.

  2. High-Performance Photodetectors Based on Effective Exciton Dissociation in Protein-Adsorbed Multiwalled Carbon Nanotube Nanohybrids

    Youpin Gong, Qingfeng Liu, Maogang Gong, Ti Wang, Guanggen Zeng, Wai-Lun Chan and Judy Wu

    Version of Record online: 20 SEP 2016 | DOI: 10.1002/adom.201600478

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    Biomolecule cytochrome c adsorbed to multiwalled carbon nanotubes can form interface heterojunctions for high-efficiency exciton dissociation, photoelectron transfer and transport, in which electrons are transported along the chain of cytochrome c. The extraordinary external quantum efficiency of up to 38.2% obtained in the nanotube/cytochrome c infrared detectors illustrates that these photonic nanohybrids are promising for room temperature quantum optoelectronics.

  3. Scaling the Artificial Polariton Bandgap at Infrared Frequencies Using Indium Tin Oxide Nanorod Arrays

    Xiangfan Chen, Peijun Guo, Cheng He, Biqin Dong, Leonidas E. Ocola, Richard D. Schaller, Robert P. H. Chang and Cheng Sun

    Version of Record online: 19 SEP 2016 | DOI: 10.1002/adom.201600439

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    Scaling of artificial plasmon–polariton bandgaps to infrared frequencies by exploiting the strong coupling of electromagnetic waves with induced electric dipoles in 2D indium tin oxide nanorod arrays is reported. A theoretical model is developed to understand the underlying principle of the observed plasmon–polariton bandgaps. The experimental results confirm that the bandgaps can be manipulated through controlling the near-field interactions among neighboring nanorods.

  4. Single-Crystal Germanium Core Optoelectronic Fibers

    Xiaoyu Ji, Ryan L. Page, Subhasis Chaudhuri, Wenjun Liu, Shih-Ying Yu, Suzanne E. Mohney, John V. Badding and Venkatraman Gopalan

    Version of Record online: 19 SEP 2016 | DOI: 10.1002/adom.201600592

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    Synthesis and fabrication of high-quality, small-core single-crystal germanium fibers that are photosensitive at the near-infrared and have low optical losses ≈1 dB cm−1 at 2 μm are reported. These fibers have potential applications in fiber-based spectroscopic imaging, nonlinear optical devices, and photodetection at the telecommunication wavelengths.

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    Switching to Bright (pages 1320–1321)

    He Tian and Stefan Hecht

    Version of Record online: 19 SEP 2016 | DOI: 10.1002/adom.201600638