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Journal Abstract Search

1281 related items for PubMed ID: 23597055

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  • 3. Self-assembling subnanometer pores with unusual mass-transport properties.
    Zhou X, Liu G, Yamato K, Shen Y, Cheng R, Wei X, Bai W, Gao Y, Li H, Liu Y, Liu F, Czajkowsky DM, Wang J, Dabney MJ, Cai Z, Hu J, Bright FV, He L, Zeng XC, Shao Z, Gong B.
    Nat Commun; 2012 Jul 17; 3():949. PubMed ID: 22805556
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  • 6. Persistent Organic Nanopores Amenable to Structural and Functional Tuning.
    Wei X, Zhang G, Shen Y, Zhong Y, Liu R, Yang N, Al-Mkhaizim FY, Kline MA, He L, Li M, Lu ZL, Shao Z, Gong B.
    J Am Chem Soc; 2016 Mar 02; 138(8):2749-54. PubMed ID: 26877246
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  • 8. Enforced Tubular Assembly of Electronically Different Hexakis(m-Phenylene Ethynylene) Macrocycles: Persistent Columnar Stacking Driven by Multiple Hydrogen-Bonding Interactions.
    Zhong Y, Yang Y, Shen Y, Xu W, Wang Q, Connor AL, Zhou X, He L, Zeng XC, Shao Z, Lu ZL, Gong B.
    J Am Chem Soc; 2017 Nov 08; 139(44):15950-15957. PubMed ID: 29041774
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  • 11. Artificial transmembrane ion channels from self-assembling peptide nanotubes.
    Ghadiri MR, Granja JR, Buehler LK.
    Nature; 1994 May 26; 369(6478):301-4. PubMed ID: 7514275
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  • 12. Tailoring the water structure and transport in nanotubes with tunable interiors.
    Ruiz L, Wu Y, Keten S.
    Nanoscale; 2015 Jan 07; 7(1):121-32. PubMed ID: 25407508
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  • 14. Synthetic ion channels: from pores to biological applications.
    Gokel GW, Negin S.
    Acc Chem Res; 2013 Dec 17; 46(12):2824-33. PubMed ID: 23738778
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  • 17. Theoretical description of the ion transport across nanopores with titratable fixed charges: analogies between ion channels and synthetic pores.
    Ramírez P, Aguilella-Arzo M, Alcaraz A, Cervera J, Aguilella VM.
    Cell Biochem Biophys; 2006 Dec 17; 44(2):287-312. PubMed ID: 16456229
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