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  • Liquid Metal Droplets Wrapped with Polysaccharide Microgel as Biocompatible Aqueous Ink for Flexible Conductive Devices Advanced Functional Materials, 2018, 1804197
    Liquid Metal Droplets Wrapped with Polysaccharide Microgel as Biocompatible Aqueous Ink for Flexible Conductive Devices Advanced Functional Materials, 2018, 1804197
    Nanometerization of liquid metal in organic systems can facilitate deposition of liquid metals onto substrates and then recover its conductivity through sintering. Although having broader potential applicat......
    lchaoxu 写于2018.10.07
    2635 2635 0
  • Biomimetic engineering of spider silk fibres with graphene for electric devices with humidity and motion sensitivity X Li, L Zong, X Wu, J You, M Li, C Li Journal of Materials Chemistry C 2018, 6 (13), 3212-3219
    Biomimetic engineering of spider silk fibres with graphene for electric devices with humidity and motion sensitivity X Li, L Zong, X Wu, J You, M Li, C Li Journal of Materials Chemistry C 2018, 6 (13), 3212-3219
    A fibrous and electronic spidroin sensor with humidity and human motion sensitivity was engineered by forming graphene sheaths with morphological ripples or overlapped cracks around spidroin f......
    lchaoxu 写于2018.10.07
    2497 2497 0
  • Conductive Core–Shell Aramid Nanofibrils: Compromising Conductivity with Mechanical Robustness for Organic Wearable Sensing. Han, X., Lv, L., Yu, D., Wu, X., & Li, C. (2018).ACS applied materials & interfaces, 11(3), 3466-3473.
    Conductive Core–Shell Aramid Nanofibrils: Compromising Conductivity with Mechanical Robustness for Organic Wearable Sensing. Han, X., Lv, L., Yu, D., Wu, X., & Li, C. (2018).ACS applied materials & interfaces, 11(3), 3466-3473.
    One-dimensional organic nanomaterials with a combination of electric conductivity, flexibility, and mechanical robustness are highly in demand in a variety of flexible electronic devices. Herein, conducting polymers were combined with robust Kevla......
    lvll 写于2019.06.18
    2010 2010 0
  • Liquid exfoliated chitin nanofibrils for re-dispersibility and hybridization of two-dimensional nanomaterials. You, J., Zhu, L., Wang, Z., Zong, L., Li, M., Wu, X., & Li, C. (2018). Chemical Engineering Journal, 344, 498-505.
    Liquid exfoliated chitin nanofibrils for re-dispersibility and hybridization of two-dimensional nanomaterials. You, J., Zhu, L., Wang, Z., Zong, L., Li, M., Wu, X., & Li, C. (2018). Chemical Engineering Journal, 344, 498-505.
    With well-defined molecular architectures and geometries, natural fibrous nanostructures possess super physicochemical and biologic properties, allowing performing a variety of specific functions in living systems and also serving as building bloc......
    lvll 写于2019.06.18
    3257 3257 0
  • Intensifying solar-thermal harvest of low-dimension biologic nanostructures for electric power and solar desalination. Zong, L., Li, M., & Li, C. (2018). Nano energy, 50, 308-315.
    Intensifying solar-thermal harvest of low-dimension biologic nanostructures for electric power and solar desalination. Zong, L., Li, M., & Li, C. (2018). Nano energy, 50, 308-315.
    High-efficiency solar harvest and solar-thermal conversion have been targeted in modern sustainable energy science for diverse potential applications. However, broad applications with inorganic nanomaterials as solarnanoheaters have suffered from ......
    lvll 写于2019.06.18
    3250 3250 0
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