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Journal Abstract Search

242 related items for PubMed ID: 37918590

  • 1. Konjac glucomannan-based aerogels with excellent thermal stability and flame retardancy for thermal insulation application.
    Deng P, Liu X, Li Y, Zhang YF, Wu K, Jiang F.
    Int J Biol Macromol; 2024 Jan; 254(Pt 1):127814. PubMed ID: 37918590
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  • 2. Study on the Influence of the Preparation Method of Konjac Glucomannan-Silica Aerogels on the Microstructure, Thermal Insulation, and Flame-Retardant Properties.
    Kuang Y, Liu P, Yang Y, Wang X, Liu M, Wang W, Guo T, Xiao M, Chen K, Jiang F, Li C.
    Molecules; 2023 Feb 10; 28(4):. PubMed ID: 36838679
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  • 4. Konjac Glucomannan Aerogels Modified by Hydrophilic Isocyanate and Expandable Graphite with Excellent Hydrolysis Resistance, Mechanical Strength, and Flame Retardancy.
    Wang L, Lin X, Li J, Yang H, Feng X, Wan C.
    Biomacromolecules; 2023 Jun 12; 24(6):2816-2827. PubMed ID: 37141322
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  • 5. Study on properties and simulation application scenarios of flame retarded modified konjac glucomannan organic and inorganic composite aerogel.
    Wang L, Lin X, Liu F, Lin P, Xiao H, Yang H, Feng X, Wan C.
    Int J Biol Macromol; 2024 Nov 12; 279(Pt 4):135678. PubMed ID: 39368892
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  • 6. Double cross-linked biomass aerogels with enhanced mechanical strength and flame retardancy for construction thermal insulation.
    Gong L, An X, Ma C, Wang R, Zhou X, Liu C, Li N, Liu Z, Li X.
    Int J Biol Macromol; 2024 Nov 12; 281(Pt 1):136304. PubMed ID: 39370080
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  • 7. Thermal conductivity, structure and mechanical properties of konjac glucomannan/starch based aerogel strengthened by wheat straw.
    Wang Y, Wu K, Xiao M, Riffat SB, Su Y, Jiang F.
    Carbohydr Polym; 2018 Oct 01; 197():284-291. PubMed ID: 30007615
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  • 10. Integration of N- and P- elements in sodium alginate aerogels for efficient flame retardant and thermal insulating properties.
    Zhan H, Liu J, Wang P, Wang C, Wang Z, Chen M, Zhu X, Fu B.
    Int J Biol Macromol; 2024 Jul 01; 273(Pt 2):132643. PubMed ID: 38823751
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  • 11. Ultralight and Hydrophobic Palygorskite-based Aerogels with Prominent Thermal Insulation and Flame Retardancy.
    Jin H, Zhou X, Xu T, Dai C, Gu Y, Yun S, Hu T, Guan G, Chen J.
    ACS Appl Mater Interfaces; 2020 Mar 11; 12(10):11815-11824. PubMed ID: 32092256
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  • 14. Robust, Fire-Retardant, and Water-Resistant Wood/Polyimide Composite Aerogels with a Hierarchical Pore Structure for Thermal Insulation.
    Zhao L, Chen J, Pan D, Hou Y.
    Gels; 2023 Jun 06; 9(6):. PubMed ID: 37367138
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  • 16. Eco-friendly Flame-Retardant Cellulose Nanofibril Aerogels by Incorporating Sodium Bicarbonate.
    Farooq M, Sipponen MH, Seppälä A, Österberg M.
    ACS Appl Mater Interfaces; 2018 Aug 15; 10(32):27407-27415. PubMed ID: 30033716
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  • 19. Mechanically Strong and Thermally Stable Chemical Cross-Linked Polyimide Aerogels for Thermal Insulator.
    Zheng S, Jiang L, Chang F, Zhang C, Ma N, Liu X.
    ACS Appl Mater Interfaces; 2022 Oct 29. PubMed ID: 36308398
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  • 20. Ambient Pressure Drying to Construct Cellulose Acetate/Benzoxazine Hybrid Aerogels with Flame Retardancy, Excellent Thermal Stability, and Superior Mechanical Strength Resistance to Cryogenic Temperature.
    Zhang S, Wang Z, Hu Y, Ji H, Xiao Y, Wang J, Xu G, Ding F.
    Biomacromolecules; 2022 Dec 12; 23(12):5056-5064. PubMed ID: 36331293
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