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Pubmed for Handhelds

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Journal Abstract Search

512 related items for PubMed ID: 29111059

  • 41. Efficient approach to improving the flame retardancy of poly(vinyl alcohol)/clay aerogels: incorporating piperazine-modified ammonium polyphosphate.
    Wang YT, Liao SF, Shang K, Chen MJ, Huang JQ, Wang YZ, Schiraldi DA.
    ACS Appl Mater Interfaces; 2015 Jan 28; 7(3):1780-6. PubMed ID: 25588129
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  • 44. Self-cross-linked melamine-formaldehyde-pectin aerogel with excellent water resistance and flame retardancy.
    Chen HB, Li XL, Chen MJ, He YR, Zhao HB.
    Carbohydr Polym; 2019 Feb 15; 206():609-615. PubMed ID: 30553364
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  • 47. Highly Efficient Flame-Retardant and Enhanced PVA-Based Composite Aerogels through Interpenetrating Cross-Linking Networks.
    Wu N, Deng S, Wang F, Wang M, Xia M, Cui H, Jia H.
    Polymers (Basel); 2023 Jan 27; 15(3):. PubMed ID: 36771958
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  • 50. Nano-fibrillated cellulose-hydroxyapatite based composite foams with excellent fire resistance.
    Guo W, Wang X, Zhang P, Liu J, Song L, Hu Y.
    Carbohydr Polym; 2018 Sep 01; 195():71-78. PubMed ID: 29805026
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  • 51. 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 01; 256(Pt 1):128318. PubMed ID: 38000610
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  • 52. Green Approach to Improving the Strength and Flame Retardancy of Poly(vinyl alcohol)/Clay Aerogels: Incorporating Biobased Gelatin.
    Wang YT, Zhao HB, Degracia K, Han LX, Sun H, Sun M, Wang YZ, Schiraldi DA.
    ACS Appl Mater Interfaces; 2017 Dec 06; 9(48):42258-42265. PubMed ID: 29140679
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  • 53. Development of eco-friendly CO2-responsive cellulose nanofibril aerogels as "green" adsorbents for anionic dyes removal.
    Yang L, Zhan Y, Gong Y, Ren E, Lan J, Guo R, Yan B, Chen S, Lin S.
    J Hazard Mater; 2021 Mar 05; 405():124194. PubMed ID: 33097347
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  • 54. Highly efficient flame-retardant and low-smoke-toxicity poly(vinyl alcohol)/alginate/ montmorillonite composite aerogels by two-step crosslinking strategy.
    Wu N, Niu F, Lang W, Xia M.
    Carbohydr Polym; 2019 Oct 01; 221():221-230. PubMed ID: 31227162
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  • 55. Fabrication of cylindrical 3D cellulose nanofibril(CNF) aerogel for continuous removal of copper(Cu2+) from wastewater.
    Hong HJ, Ban G, Kim HS, Jeong HS, Park MS.
    Chemosphere; 2021 Sep 01; 278():130288. PubMed ID: 33823344
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  • 56. A Top-Down Approach to the Fabrication of Flame-Retardant Wood Aerogel with In Situ-Synthesized Borax and Zinc Borate.
    Lin M, Guo X, Xu Y, Zhang X, Hu D.
    Materials (Basel); 2024 May 30; 17(11):. PubMed ID: 38893902
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  • 58. Review on recent advances in cellulose nanofibril based hybrid aerogels: Synthesis, properties and their applications.
    Prasad C, Jeong SG, Won JS, Ramanjaneyulu S, Sangaraju S, Kerru N, Choi HY.
    Int J Biol Macromol; 2024 Mar 30; 261(Pt 1):129460. PubMed ID: 38237829
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  • 59. Cellulose nanofibril/reduced graphene oxide/carbon nanotube hybrid aerogels for highly flexible and all-solid-state supercapacitors.
    Zheng Q, Cai Z, Ma Z, Gong S.
    ACS Appl Mater Interfaces; 2015 Feb 11; 7(5):3263-71. PubMed ID: 25625769
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  • 60. Facile Construction of Flame-Resistant and Thermal-Insulating Sodium Alginate Aerogel Incorporating N- and P-Elements.
    Liu J, Zhan H, Song J, Wang C, Zhao T, Fu B.
    Polymers (Basel); 2024 Oct 04; 16(19):. PubMed ID: 39408524
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