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  • Asymmetric ionic aerogel of biologic nanofibrils for harvesting electricity from moisture W Yang, X Li, X Han, W Zhang, Z Wang, X Ma, M Li, C Li Nano Energy 2020, 71, 104610
    Asymmetric ionic aerogel of biologic nanofibrils for harvesting electricity from moisture W Yang, X Li, X Han, W Zhang, Z Wang, X Ma, M Li, C Li Nano Energy 2020, 71, 104610
    Artificial asymmetric ionic membranes have attracted great interests in harvesting electricity from ubiquitous water activities, while mostly based on delicately-designed nanopores/nanochannels, either to harness saline water in mimic of cytomembranes or to harness moisture with carbon nanomaterials. Herein, fully b......
    lchaoxu 写于2020.06.16
    945 945 0
    2020 生物质基 论文
  • Nacre-based carbon nanomeshes for a soft ionic actuator with large and rapid deformation. Journal of Materials Chemistry C. X. Han; M. Kong; M. Li;* X. Li; W. Yang; C. Li*DOI: 10.1039/c9tc06186j
    Nacre-based carbon nanomeshes for a soft ionic actuator with large and rapid deformation. Journal of Materials Chemistry C. X. Han; M. Kong; M. Li;* X. Li; W. Yang; C. Li*DOI: 10.1039/c9tc06186j
    Marine molluscs have inspired to construct robust composites with hierarchical microstructures, and also to design artificial muscles with rapid and controllable deformation. Abalone nacre has the unique “brick and mortar” structure, whose two-dimensional (2D) “mortar” can serve both as the strong adhesive between a......
    lvll 写于2020.01.22
    1247 1247 0
    2020 生物质基 柔性智能材料 论文
  • Polymerization of moldable self-healing hydrogel with liquid metal nanodroplets for flexible strain-sensing devices. Chemical Engineering Journal. J. Xu, Z. Wang, J. You, X. Li, M. Li, X. Wu, C. Li* DOI: 10.1016/j.cej.2019.123788
    Polymerization of moldable self-healing hydrogel with liquid metal nanodroplets for flexible strain-sensing devices. Chemical Engineering Journal. J. Xu, Z. Wang, J. You, X. Li, M. Li, X. Wu, C. Li* DOI: 10.1016/j.cej.2019.123788
    Incorporation of nanoscale colloidal objects into three-dimensional (3D) hydrogel networks can not only reinforce the hydrogels as “colloidal cross-linkers”, but also add many extra functionalities for diverse applications. For the first time, deformable droplets of liquid metal (LM) in combination with sonication w......
    lvll 写于2020.01.22
    1392 1392 0
    2020 柔性智能材料 论文
  • The synthesis of high-aspect-ratio Au microwires with a biomolecule for electrochemical sensing. Chemical Communication L. Lv, X. Han, X. Wu,* and Chaoxu Li*. DOI: 10.1039/c9cc06523g
    The synthesis of high-aspect-ratio Au microwires with a biomolecule for electrochemical sensing. Chemical Communication L. Lv, X. Han, X. Wu,* and Chaoxu Li*. DOI: 10.1039/c9cc06523g
    Gold (Au) crystalline microwires with an unprecedented diameter of >500 nm and an aspect ratio >400 were synthesized using L-tyrosine as a reducing and capping agent. The Au microwires possessed high conductivity and electrocatalytic activities towards glucose and Hg(II). Their large diameters and aspect ratio......
    lvll 写于2020.01.22
    1073 1073 0
    2020 生物质基 论文
  • Peeling and Mesoscale Dissociation of Silk Fibers for Hybridization of Electrothermic Fibrous Composites. ACS Sustainable Chemistry & Engineering L. Lv, X. Han, X. Wu,* and Chaoxu Li* DOI: 10.1021/acssuschemeng.9b05261
    Peeling and Mesoscale Dissociation of Silk Fibers for Hybridization of Electrothermic Fibrous Composites. ACS Sustainable Chemistry & Engineering L. Lv, X. Han, X. Wu,* and Chaoxu Li* DOI: 10.1021/acssuschemeng.9b05261
    Natural silk cocoons have fibrillary structure atseveral levels of length scales, which offered mechanical properties superior to many artificial silk materials. Despite the fact that many solvents had been endeavored to extract natural nanofibrils for the construction of functional materials, silk microfibrils have......
    lvll 写于2020.01.22
    1017 1017 0
    2019 生物质基 论文
  • Noncloggingly Sieving Sub‑6 nm Nanoparticles of Noble Metals into Conductive Mesoporous Foams with Biological Nanofibrils. ACS Nano Z. Wang, J. Xu, P. Wang, Y. Zhang, J. You,* and C. Li*. DOI: 10.1021/acsnano.9b07923
    Noncloggingly Sieving Sub‑6 nm Nanoparticles of Noble Metals into Conductive Mesoporous Foams with Biological Nanofibrils. ACS Nano Z. Wang, J. Xu, P. Wang, Y. Zhang, J. You,* and C. Li*. DOI: 10.1021/acsnano.9b07923
    Porous metal foams have been one of the most sought-after materials owing to their combination of bulk metallic characteristics (e.g., thermal/electrical conductivity and ductility) and nanometric size-effect properties (e.g., catalytic reactivity, plasmonic behavior, and high surface area). Traditional sol-gel appr......
    lvll 写于2020.01.22
    2621 2621 0
    2019 生物质基 论文
  • 甲壳素纳米纤维的非衍生化剥离及应用最新进展
    甲壳素纳米纤维的非衍生化剥离及应用最新进展
    甲壳素纳米纤维的非衍生化剥离及应用最新进展
    甲壳素纳米纤维的非衍生化剥离及应用最新进展
    limingjie 写于2019.12.26
    1088 1088 0
  • Evaporation-induced sintering of liquid metal droplets with biological nanofibrils for flexible conductivity and responsive actuation X Li, M Li, J Xu, J You, Z Yang, C Li, Nature Communications, 2019, https://doi.org/10.1038/s41467-019-11466-5
    Evaporation-induced sintering of liquid metal droplets with biological nanofibrils for flexible conductivity and responsive actuation X Li, M Li, J Xu, J You, Z Yang, C Li, Nature Communications, 2019, https://doi.org/10.1038/s41467-019-11466-5
    Liquid metal (LM) droplets show the superiority in coalescing into integral liquid conductors applicable in flexible and deformable electronics. However, the large surface tension, oxide shells and poor compatibility with most other materials may prevent spontaneous coalescence of LM droplets and/or hybridisa......
    lixk 写于2019.08.07
    1173 1173 0
    2019 生物质基 柔性智能材料 论文
  • 一种液态金属/高分子复合介电材料的制备方法.李朝旭,徐洁,尤俊。申请号:201910261174.6。已申报,未授权。
    一种液态金属/高分子复合介电材料的制备方法.李朝旭,徐洁,尤俊。申请号:201910261174.6。已申报,未授权。
    本发明公开了一种液态金属/高分子复合介电材料及其制备方法。所述复合材料由液态金属和高分子共混组成。将液态金属加入至聚合单体溶液中,低温超声分散,即得液态金属微/纳米级分散的前驱体分散液;待其成胶后转移至模具中静置,即得液态金属/高分子复合介电材料。其中,所述液态金属为镓、镓的二元合金和镓的三元合金中的一种或几种,所述聚合单体包括丙烯酸,丙烯酰胺,丙烯腈,丙烯酸甲酯和甲基丙烯酸甲酯中的一种或几种。本发明方法制备方法简便,所制备的复合材料具备优秀的介电性能,同时拉伸性能优于传统介电材料,在可穿戴电子设备、软机器人等领域有广泛的应用前景。......
    lvll 写于2019.06.19
    1181 1181 0
    2019 柔性智能材料 专利
  • 李朝旭,李明杰,李现凯. 一种利用溶剂蒸发诱导液态金属微纳液滴融合烧结的方法: 中国, 201910334861.6.已申报,未授权。
    李朝旭,李明杰,李现凯. 一种利用溶剂蒸发诱导液态金属微纳液滴融合烧结的方法: 中国, 201910334861.6.已申报,未授权。
    一种利用溶剂蒸发诱导液态金属微纳液滴融合烧结的方法......
    lvll 写于2019.06.19
    1223 1223 0
    2019 生物质基 柔性智能材料 绿色环保材料 专利
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    • 2022年08月08日 星期一
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