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Showing 1–12 of 12 results
Advanced filters: Author: Pengju Yue Clear advanced filters

  • A wearable hydrogel-based electrochemical platform is presented for on-demand hydrogen gas therapy, enabling localized gas generation, storage and sustained delivery. This device offers a therapeutic modality for treating ischemia–reperfusion heart disease and skin bedsores, expanding bioelectronics applications in gas-phase chemical delivery.

    • Wen Li
    • Jing Zhang
    • Bozhi Tian
    Research
    Nature Chemical Engineering
    Volume: 2, P: 484-497

  • Detecting dilute airborne biomarkers is important in healthcare but is limited by the low sensitivity of current gas sensors. A portable, low-cost device is introduced that uses water condensation to enrich airborne biomarkers into a concentrated liquid, enabling existing liquid sensors to detect biomarkers with high sensitivity and broad accessibility.

    • Jingcheng Ma
    • Megan Laune
    • Bozhi Tian
    Research
    Nature Chemical Engineering
    Volume: 2, P: 321-333

  • Developing biointerfaces that combine the advantages of both monolithic and focal elements remains challenging. Now, a hydrogel that releases surface-modified granules and shows biointerface transition capability has been developed. This granule-releasing hydrogel manages colitis, accelerates wound healing, and facilitates cardiac tissue regeneration and mapping of cardiac activity with bioelectronic devices.

    • Jiuyun Shi
    • Yiliang Lin
    • Bozhi Tian
    Research
    Nature Chemical Engineering
    Volume: 1, P: 73-86

  • The clinical outcomes of esophageal squamous cell carcinoma (ESCC) remain poor, and thus it remains critical to find prognostic molecular markers. Here, the authors identify prognostic ESCC subtypes based on bulk and single-cell RNA-seq combined with histology AI in samples from patients with more than four years of follow-up, and find markers associated with immune evasion.

    • Guozhong Jiang
    • Zhizhong Wang
    • Yaohe Wang
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-17

  • Microfabrication has an essential role in device fabrication but is accompanied by unfavourable environmental footprint. This study presents a bioinspired permeable junction approach for sustainable microfabrication, which eliminates the use of hazardous chemicals and minimizes energy consumption.

    • Chuanwang Yang
    • Pengju Li
    • Bozhi Tian
    Research
    Nature Sustainability
    Volume: 7, P: 1190-1203

  • Fabrication of semiconductor heterojunctions typically involves a complex process and often leads to bioincompatibility. Here, the authors propose a porous heterojunction in p-type silicon via simple stain etching at ambient conditions, and apply it in optically induced biomodulation.

    • Aleksander Prominski
    • Jiuyun Shi
    • Menahem Y. Rotenberg
    Research
    Nature Materials
    Volume: 21, P: 647-655

  • A silicon-based electrode system is described that allows tunable spatiotemporal photostimulation of cardiac systems, with the optoelectronic capabilities of these devices being demonstrated in mouse, rat and pig heart models.

    • Pengju Li
    • Jing Zhang
    • Bozhi Tian
    Research
    Nature
    Volume: 626, P: 990-998

  • Synthetic shape-shifting materials typically rely on monotonic evolution between equilibrium states, limiting the shape-shifting behaviours. Here the authors report an unanticipated shape-shifting behaviour for a hydrogel that can be programmed to operate via a far-from-equilibrium mechanism.

    • Yue Zhang
    • Kangkang Liu
    • Tao Xie
    ResearchOpen Access
    Nature Communications
    Volume: 12, P: 1-8