• The effects of carbon materials with different dimensionalities on the flow instabilities of LLDPE (linear low density polyethylene) G Tian, J Liu, T Sun, X Wang, X Wang, H Hu, C Li, X Dong, D Wang Polymer 2018, 142, 144-154
    Melt flow instability of LLDPE (Linear Low Density Polyethylene) and its composites with three kinds of carbon fillers with different dimensionalities, including multi-wall carbon nanotubes (MWCNTs), thermally reduced graphene (TRG) and carbon black (CB), was evaluated. A perio......
    lchaoxu 写于2018.10.07
    928 928 0
  • Shapeable Fibrous Aerogels of Metal-Organic-Frameworks Templated with Nanocellulose for Rapid and Large-Capacity Adsorption,ACS nano
    Conventional metal–organic framework (MOF) powders have periodic micro/mesoporous crystalline architectures tuned by their three-dimensional coordination of metal nodes and organic linkers. To add practical macroscopic shapeability and extrinsic hierarchical porosity, fibrous MOF aerog......
    lchaoxu 写于2018.10.07
    942 942 0
  • Endurable conductivity of nylon fibers by interfacial grafting and aniline polymerization C Xie, H Han, H Hu, J Zhao, Y Zhao, C Li Materials Letters 2018, 218, 213-216
    Interfacial grafting was combined with aniline polymerization to modify nylon fibers for high and endurable conductivity. A large amount of acrylic acid grafted to the surfaces of nylon66 fibers. The grafted polyacrylic acid further promoted in situ polymerization of aniline within the interfac......
    lchaoxu 写于2018.10.07
    1005 1005 0
  • Liquid exfoliated chitin nanofibrils for re-dispersibility and hybridization of two-dimensional nanomaterials J You, L Zhu, Z Wang, L Zong, M Li, X Wu, C Li Chemical Engineering Journal 2018, 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 blocks in material scienc......
    lchaoxu 写于2018.10.07
    843 843 0
  • Biomimetic Hybridization of Kevlar into Silk Fibroin: Nanofibrous Strategy for Improved Mechanic Properties of Flexible Composites and Filtration Membranes L Lv, X Han, L Zong, M Li, J You, X Wu, C Li ACS nano 11 (8), 8178-8184
    Silk, one of the strongest natural biopolymers, was hybridized with Kevlar, one of the strongest synthetic polymers, through a biomimetic nanofibrous strategy. Regenerated silk materials have outstanding properties in transparency, biocompatibility, biodegradability a......
    lchaoxu 写于2018.09.17
    831 831 0
  • Trans-scale 2D synthesis of millimeter-large Au single crystals via silk fibroin templates,L Lv, X Wu, Y Yang, X Han, R Mezzenga, C Li , ACS Sustainable Chemistry & Engineering 2018, 6 (9), 12419-12425
    The largest possible planar surfaces are highly sought for two-dimensional (2D) Au single-crystals applicable in catalysis, biomedicine, electronics, sensing, and optics. However, conventional chemical methods of synthesis are current......
    lchaoxu 写于2018.09.03
    882 882 0
  • Intensifying solar-thermal harvest of low-dimension biologic nanostructures for electric power and solar desalination, L Zong, M Li, C Li, Nano Energy 2018,50, 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 solar-nanoheaters have suffered from low conversion ......
    lchaoxu 写于2018.09.03
    1050 1050 0
  • Supramolecular proteinaceous biofilms as trapping sponges for biologic water treatment and durable catalysis, X Wu, X Han, L Lv, M Li, J You, C Li, J. colloid interf. sci. 2018, 527, 117
    Inspired by the bacterial biofilms and chorions of living organisms which are made by proteinaceous assemblies and functional for multi-applications, various artificial protein fibrils-based nanoporous films are developed, and show their potential applications in multiple field......
    lchaoxu 写于2018.09.03
    969 969 0