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  1. Injection of Microporous Annealing Particle (MAP) Hydrogels in the Stroke Cavity Reduces Gliosis and Inflammation and Promotes NPC Migration to the Lesion

    Lina R. Nih, Elias Sideris, S. Thomas Carmichael and Tatiana Segura

    Version of Record online: 26 JUN 2017 | DOI: 10.1002/adma.201606471

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    Particle hydrogels can be injected into the stroke cavity and anneal in situ to form a microporous scaffold in a minimally invasive procedure. It is shown that this particle hydrogel scaffold decreases gliosis, while increasing the peri-infarct vasculature and promoting neural progenitor cell infiltration into the hydrogel.

  2. Single Atomically Sharp Lateral Monolayer p-n Heterojunction Solar Cells with Extraordinarily High Power Conversion Efficiency

    Meng-Lin Tsai, Ming-Yang Li, José Ramón Durán Retamal, Kai-Tak Lam, Yung-Chang Lin, Kazu Suenaga, Lih-Juann Chen, Gengchiau Liang, Lain-Jong Li and Jr-Hau He

    Version of Record online: 26 JUN 2017 | DOI: 10.1002/adma.201701168

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    By sequential growth of alloy-free 2D monolayer WSe2-MoS2 lateral p-n heterojunction, photovoltaic devices show extraordinary power conversion efficiencies of 2.56%. The large surface active area of the devices enables the full exposure of the depletion region, leading to excellent omnidirectional light harvesting characteristic. Modeling studies demonstrate the devices comply with typical principles. The appropriate electrode-spacing design leads to environment-independent properties.

  3. Inverse Opal Scaffolds and Their Biomedical Applications

    Yu Shrike Zhang, Chunlei Zhu and Younan Xia

    Version of Record online: 26 JUN 2017 | DOI: 10.1002/adma.201701115

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    Inverse opal scaffolds are characterized by a highly ordered array of uniform and interconnected pores. This new class of advanced materials offers unique opportunities for a broad spectrum of applications in tissue regeneration by serving as biomimetic substrates with precisely controlled properties.

  4. Emerging Nanotechnology and Advanced Materials for Cancer Radiation Therapy

    Guosheng Song, Liang Cheng, Yu Chao, Kai Yang and Zhuang Liu

    Version of Record online: 23 JUN 2017 | DOI: 10.1002/adma.201700996

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    Radiation therapy has been widely used for clinical cancer treatment, while its therapeutic outcomes are limited due to different mechanisms. Recently, there have been great interests in exploring nanomedicine approaches to enhance radiation responses of tumors. Herein, various strategies of applying nanotechnology in radio-oncology and the latest development of ‘advanced materials' for enhanced cancer radiation therapy are summarized.

  5. Prussian Blue Nanocubes with an Open Framework Structure Coated with PEDOT as High-Capacity Cathodes for Lithium–Sulfur Batteries

    Dawei Su, Michael Cortie, Hongbo Fan and Guoxiu Wang

    Version of Record online: 23 JUN 2017 | DOI: 10.1002/adma.201700587

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    The synthesis of Na2Fe[Fe(CN)6] as cathode hosts for lithium–sulfur (Li–S) battery is reported. This open framework can store sulfur and acts as a polysulfide diffusion inhibitor based on the Lewis acid–base bonding effect for high-performance Li–S batteries. Li–S batteries based on this concept exhibit high specific capacity, good cycling stability, and superior rate capability.

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