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Journal Abstract Search

107 related items for PubMed ID: 15606087

  • 21. Thermosensitive hydrogels composed of cyclodextrin pseudorotaxanes. Role of [3]pseudorotaxane in the gel formation.
    Taira T, Suzaki Y, Osakada K.
    Chem Commun (Camb); 2009 Dec 07; (45):7027-9. PubMed ID: 19904383
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  • 23. A multi-mode-driven molecular shuttle: photochemically and thermally reactive azobenzene rotaxanes.
    Murakami H, Kawabuchi A, Matsumoto R, Ido T, Nakashima N.
    J Am Chem Soc; 2005 Nov 16; 127(45):15891-9. PubMed ID: 16277532
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  • 24. Preparation of alpha-cyclodextrin-terminated polyrotaxane consisting of beta-cyclodextrins and pluronic as a building block of a biodegradable network.
    Ooya T, Ito A, Yui N.
    Macromol Biosci; 2005 May 23; 5(5):379-83. PubMed ID: 15895475
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  • 25. End-capping of a pseudorotaxane via Diels-Alder reaction for the construction of C60-terminated [2]rotaxanes.
    Sasabe H, Kihara N, Furusho Y, Mizuno K, Ogawa A, Takata T.
    Org Lett; 2004 Oct 28; 6(22):3957-60. PubMed ID: 15496073
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  • 26. Synthesis and characterization of an amphiphilic cyclodextrin, a micelle with two recognition sites.
    Silva OF, Fernández MA, Pennie SL, Gil RR, de Rossi RH.
    Langmuir; 2008 Apr 15; 24(8):3718-26. PubMed ID: 18341360
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  • 27. Triptycene-derived oxacalixarenes as new wheels for the synthesis of [2]rotaxanes: acid-base- and metal-ion-switchable complexation processes.
    Hu SZ, Chen CF.
    Chemistry; 2011 May 02; 17(19):5424-31. PubMed ID: 21465589
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  • 28. Preparation and properties of rotaxanes formed by dimethyl-beta-cyclodextrin and oligo(thiophene)s with beta-cyclodextrin stoppers.
    Sakamoto K, Takashima Y, Yamaguchi H, Harada A.
    J Org Chem; 2007 Jan 19; 72(2):459-65. PubMed ID: 17221962
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  • 29. Complexation in pseudorotaxanes based on alpha-cyclodextrin and different alpha,omega-diaminoalkanes by NMR diffusion measurements.
    Avram L, Cohen Y.
    J Org Chem; 2002 Apr 19; 67(8):2639-44. PubMed ID: 11950310
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  • 30. Orientational dynamics of a charge transfer complex in cyclodextrin cavity as receptor.
    Sahoo D, Chakravorti S.
    Phys Chem Chem Phys; 2008 Oct 14; 10(38):5890-7. PubMed ID: 18818843
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  • 31. Photocontrolled reversible room temperature phosphorescence (RTP) encoding β-cyclodextrin pseudorotaxane.
    Ma X, Cao J, Wang Q, Tian H.
    Chem Commun (Camb); 2011 Mar 28; 47(12):3559-61. PubMed ID: 21321705
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  • 32. Structural, energetic, and dynamical properties of rotaxanes constituted of alpha-cyclodextrins and an azobenzene chain.
    Briquet L, Staelens N, Leherte L, Vercauteren DP.
    J Mol Graph Model; 2007 Jul 28; 26(1):104-16. PubMed ID: 17161967
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  • 33. Sequential O- and N-acylation protocol for high-yield preparation and modification of rotaxanes: synthesis, functionalization, structure, and intercomponent interaction of rotaxanes.
    Tachibana Y, Kawasaki H, Kihara N, Takata T.
    J Org Chem; 2006 Jul 07; 71(14):5093-104. PubMed ID: 16808495
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  • 34. Solvent- and light-controlled unidirectional transit of a nonsymmetric molecular axle through a nonsymmetric molecular wheel.
    Arduini A, Bussolati R, Credi A, Monaco S, Secchi A, Silvi S, Venturi M.
    Chemistry; 2012 Dec 07; 18(50):16203-13. PubMed ID: 23090856
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  • 38. A Pseudorotaxane System Containing γ-Cyclodextrin Formed via Chiral Recognition with an AuI 6 AgI 3 CuII 3 Molecular Cap.
    Kojima T, Takeda H, Kuwamura N, Konno T.
    Chemistry; 2021 Nov 17; 27(64):15981-15985. PubMed ID: 34436804
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  • 40. Cyclodextrin inclusion compounds of vanadium complexes: structural characterization and catalytic sulfoxidation.
    Lippold I, Vlay K, Görls H, Plass W.
    J Inorg Biochem; 2009 Apr 17; 103(4):480-6. PubMed ID: 19201031
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