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Journal Abstract Search

147 related items for PubMed ID: 38000610

  • 1. Guar-based aerogels with oriented lamellar structure and lightweight properties for flame-retardant and thermal insulation.
    Sun J, Guo J, Li Y, Guan F, Zhang Y, Li Z.
    Int J Biol Macromol; 2024 Jan; 256(Pt 1):128318. PubMed ID: 38000610
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  • 2. 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; 273(Pt 2):132643. PubMed ID: 38823751
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  • 3. Anisotropic composite aerogel with thermal insulation and flame retardancy from cellulose nanofibers, calcium alginate and boric acid.
    Zhu J, Wang Y, Zhao X, Li N, Guo X, Zhao L, Yin Y.
    Int J Biol Macromol; 2024 May; 267(Pt 1):131450. PubMed ID: 38588838
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  • 4. Dual-crosslinked reduced graphene oxide/polyimide aerogels possessing regulable superelasticity, fatigue resistance, and rigidity for thermal insulation and flame retardant protection in harsh conditions.
    Xie M, Qian G, Ye Q, Zhang Y, Wang M, Deng Z, Yu Y, Chen C, Li H, Li D.
    J Colloid Interface Sci; 2024 Dec 15; 676():1011-1022. PubMed ID: 39068833
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  • 6. 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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  • 7. "Robust-Soft" Anisotropic Nanofibrillated Cellulose Aerogels with Superior Mechanical, Flame-Retardant, and Thermal Insulating Properties.
    Yan M, Pan Y, Cheng X, Zhang Z, Deng Y, Lun Z, Gong L, Gao M, Zhang H.
    ACS Appl Mater Interfaces; 2021 Jun 16; 13(23):27458-27470. PubMed ID: 34081863
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  • 8. Freeze-casting production of thermal insulating and fire-retardant lightweight aerogels based on nanocellulose and boron nitride.
    Liu C, Huang C, Li Y, Liu Y, Bian H, Xiang Z, Wang H, Wang H, Xiao H.
    Int J Biol Macromol; 2023 Dec 01; 252():126370. PubMed ID: 37595711
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  • 12. 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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  • 13. 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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  • 15. Magnesium hydroxide coated hollow glass microspheres/chitosan composite aerogels with excellent thermal insulation and flame retardancy.
    Zhu Z, Niu Y, Wang S, Su M, Long Y, Sun H, Liang W, Li A.
    J Colloid Interface Sci; 2022 Apr 15; 612():35-42. PubMed ID: 34974256
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  • 16. Improving the comprehensive properties of chitosan-based thermal insulation aerogels by introducing a biobased epoxy thermoset to form an anisotropic honeycomb-layered structure.
    Zhang C, Song S, Cao Q, Li J, Liu Q, Zhang S, Jian X, Weng Z.
    Int J Biol Macromol; 2023 Aug 15; 246():125616. PubMed ID: 37391003
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  • 17. Cogel Strategy for the Preparation of a "Thorn"-Like Porous Halloysite/Gelatin Composite Aerogel with Excellent Mechanical Properties and Thermal Insulation.
    Zhao F, Liu H, Li H, Cao Y, Hua X, Ge S, He Y, Jiang C, He D.
    ACS Appl Mater Interfaces; 2022 Apr 20; 14(15):17763-17773. PubMed ID: 35384643
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  • 20. Seaweed-Derived Alginate-Cellulose Nanofiber Aerogel for Insulation Applications.
    Berglund L, Nissilä T, Sivaraman D, Komulainen S, Telkki VV, Oksman K.
    ACS Appl Mater Interfaces; 2021 Jul 28; 13(29):34899-34909. PubMed ID: 34255967
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