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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

236 related items for PubMed ID: 30009911

  • 1. Influence of carrageenan molecular structures on electromechanical behaviours of poly(3-hexylthiophene)/carrageenan conductive hydrogels.
    Tanusorn N, Thummarungsan N, Sangwan W, Lerdwijitjarud W, Sirivat A.
    Int J Biol Macromol; 2018 Oct 15; 118(Pt B):2098-2107. PubMed ID: 30009911
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  • 3. Electrically responsive materials based on polycarbazole/sodium alginate hydrogel blend for soft and flexible actuator application.
    Sangwan W, Petcharoen K, Paradee N, Lerdwijitjarud W, Sirivat A.
    Carbohydr Polym; 2016 Oct 20; 151():213-222. PubMed ID: 27474560
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  • 4. κ-Carrageenan/Sodium alginate double-network hydrogel with enhanced mechanical properties, anti-swelling, and adsorption capacity.
    Yu F, Cui T, Yang C, Dai X, Ma J.
    Chemosphere; 2019 Dec 20; 237():124417. PubMed ID: 31356999
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  • 5. Electromechanical response of silk fibroin hydrogel and conductive polycarbazole/silk fibroin hydrogel composites as actuator material.
    Srisawasdi T, Petcharoen K, Sirivat A, Jamieson AM.
    Mater Sci Eng C Mater Biol Appl; 2015 Nov 01; 56():1-8. PubMed ID: 26249559
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  • 6. Conductive nanostructured materials based on poly-(3,4-ethylenedioxythiophene) (PEDOT) and starch/κ-carrageenan for biomedical applications.
    Zamora-Sequeira R, Ardao I, Starbird R, García-González CA.
    Carbohydr Polym; 2018 Jun 01; 189():304-312. PubMed ID: 29580413
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  • 7. Novel gelling systems of kappa-, iota- and lambda-carrageenans and their composite gels with cellulose using ionic liquid.
    Prasad K, Kaneko Y, Kadokawa J.
    Macromol Biosci; 2009 Apr 08; 9(4):376-82. PubMed ID: 19003847
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  • 8. Facile formation of agarose hydrogel and electromechanical responses as electro-responsive hydrogel materials in actuator applications.
    Rotjanasuworapong K, Thummarungsan N, Lerdwijitjarud W, Sirivat A.
    Carbohydr Polym; 2020 Nov 01; 247():116709. PubMed ID: 32829837
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  • 9. The structure of kappa/iota-hybrid carrageenans II. Coil-helix transition as a function of chain composition.
    van de Velde F, Antipova AS, Rollema HS, Burova TV, Grinberg NV, Pereira L, Gilsenan PM, Tromp RH, Rudolph B, Grinberg VY.
    Carbohydr Res; 2005 May 02; 340(6):1113-29. PubMed ID: 15797127
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  • 10. Rheological studies of polysaccharides for skin scaffolds.
    Almeida N, Mueller A, Hirschi S, Rakesh L.
    J Biomed Mater Res A; 2014 May 02; 102(5):1510-7. PubMed ID: 23703897
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  • 13. Effects of magnetite nanoparticles on the thermorheological properties of carrageenan hydrogels.
    Daniel-da-Silva AL, Lóio R, Lopes-da-Silva JA, Trindade T, Goodfellow BJ, Gil AM.
    J Colloid Interface Sci; 2008 Aug 02; 324(1-2):205-11. PubMed ID: 18495143
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  • 15. Ionically cross-linked carrageenan-alginate hydrogel beads.
    Mohamadnia Z, Zohuriaan-Mehr MJ, Kabiri K, Jamshidi A, Mobedi H.
    J Biomater Sci Polym Ed; 2008 Aug 02; 19(1):47-59. PubMed ID: 18177553
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  • 16. Novel synergistic transparent k-Carrageenan/Xanthan gum/Gellan gum hydrogel film: Mechanical, thermal and water barrier properties.
    Balasubramanian R, Kim SS, Lee J.
    Int J Biol Macromol; 2018 Oct 15; 118(Pt A):561-568. PubMed ID: 29949745
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  • 17. Evaluation of kappa carrageenan as potential carrier for floating drug delivery system: Effect of pore forming agents.
    Selvakumaran S, Muhamad II, Abd Razak SI.
    Carbohydr Polym; 2016 Jan 01; 135():207-14. PubMed ID: 26453870
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  • 19. Effect of molecular helical structure on self-growing and damping of single network κ-carrageenan hydrogel.
    Lu S, Ma Z, Qin L, Ding M, Wang Z, Liu J, Zhang R, Zhang Y, Dong G.
    Int J Biol Macromol; 2023 Sep 30; 249():126082. PubMed ID: 37536410
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