Stoddart Mechanostereochemistry Group

 

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1055

Sugar and pH dual–responsive mesoporous silica nanocontainers based on competitive binding mechanisms , (M. D. Yilmaz, M. Xue, M. W. Ambrogio, O. Buyukcakir, Y. Wu, M. Frasconi, X. Chen, M. S. Nassar, J. F. Stoddart, J. I. Zink), Nanoscale 2015, 7, 1067—1072.
Full Text: Link

 

1024

A reversible light-operated nanovalve on mesoporous silica nanoparticles, (D. Tarn, D. P. Ferris, J. C. Barnes, M. W. Ambrogio, J. F. Stoddart, J. I. Zink), Nanoscale 2014, 6, 3335—3343.
Full Text: Link

 

1001

Photophysical pore control in an azobenzene–containing metal–organic framework, (J. W. Brown, B. L. Henderson, M. D. Kiesz, A. C. Whalley, W. Morris, S. Grunder, H. Deng, H. Furukawa, J. I. Zink, J. F. Stoddart, O. M. Yaghi), Chem. Sci. 2013, 4, 2858—2864.
Full Text: Link

 

980

Size selective pH-operated megagates on mesoporous silica materials, (M. Xue, D. Cao, J. F. Stoddart, J. I. Zink), Nanoscale 2012, 4, 7569—7574.
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955

Stimulated release of size–selected cargos in succession from mesoporous silica nanoparticles, (C. Wang, Z. Li, D. Cao, Y.–L. Zhao, J. W. Gaines, O. A. Bozdemir, M. W. Ambrogio, M. Frasconi, Y. Y. Botros, J. I. Zink, J. F. Stoddart), Angew. Chem. Int. Ed. 2012, 51, 5460—5465.
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948

Mesoporous silica nanoparticles in biomedical applications, (Z. Li, J. C. Barnes, A. Bosoy, J. F. Stoddart, J. I. Zink), Chem. Soc. Rev. 2012, 41, 2590—2605.
Full Text: Link

 

933

Mechanized silica nanoparticles: a new frontier in theranostic nanomedicine, (M. W. Ambrogio, C. R. Thomas, Y.-L. Zhao, J. I. Zink, J. F. Stoddart), Acc. Chem. Res. 2011, 44, 903—913.
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926

Synthesis of biomolecule–modified mesoporous silica nanoparticles for targeted hydrophobic drug delivery to cancer cells, (D. P. Ferris, J. Lu, C. Gothard, R. Yanes, C. R. Thomas, J.–C. Olsen, J. F. Stoddart, F. Tamanoi, J. I. Zink), Small 2011, 7, 1816—1826.
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904

Excited state distortions in a charge transfer state of a donor–acceptor [2]rotaxane, (R. M. Stephenson, X. Wang, A. Coskun, J. F. Stoddart, J.I. Zink), Phys. Chem. Chem. Phys 2010, 12, 14135—14143.
Full Text: Link

 

897

pH operated nanopistons on the surfaces of mesoporous silica nanoparticles, (Y.–L. Zhao, Z. Li, S. Kagehie, Y. Y. Botros, J. F. Stoddart, J. I. Zink), J. Am. Chem. Soc. 2010, 132, 13016—13025.
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896

Autonomous in vitro anticancer drug release from mesoporous silica nanoparticles by pH–sensitive nanovalves , (H. Meng, M. Xue T. Xia, Y.–L. Zhao, F. Tamanoi, J. F. Stoddart, A. E. Nel, J. I. Zink), J. Am. Chem. Soc. 2010, 132, 12690—12697.
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893

Noninvasive remote–controlled release of drug molecules in vitro using magnetic actuation with silica–encapsulated iron oxide , (C. R. Thomas, D. P. Ferris, J.–H. Lee, E. Choi, M. H. Choo, E. S. Kim, J.–S. Shin, J. F. Stoddart, J. Cheon, J. I. Zink), J. Am. Chem. Soc. 2010, 132, 10623—10625.
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892

Snap–top nanocarriers, (M. W. Ambrogio, T. A. Pecorelli, K. Patel, N. M. Khashab, A. Trabolsi, H. A. Khatib, Y. Y. Botros, J. I. Zink, J. F. Stoddart), Org. Lett. 2010, 12, 3304—3307.
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884

Improving pore exposure in mesoporous silica films for mechanized control of the pores, (Y. Klichko, N. M. Khashab, Y.-W. Yang, S. Angelos, J. F. Stoddart, J. I. Zink), Microporous Mesoporous Mater. 2010, 132, 435—441.
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868

Controlled-access hollow mechanized silica nanocontainers, (L. Du, S. Liao, H. A. Khatib, J. F. Stoddart, J. I. Zink), J. Am. Chem. Soc. 2009, 131, 15136–15142.
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866

Mechanised nanoparticles for drug delivery, (K. K. Cotí, M. E. Belowich, M. L., M. W. Ambrogio, Y. A. Lau, H. A. Khatib, J. I. Zink, N. M. Khashab, J. F. Stoddart), Nanoscale 2009, 1, 16—39.
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864

pH clock-operated mechanized nanoparticles, (S. Angelos, N. M. Khashab, Y.-W. Yang, A.Trabolsi, H. A. Khatib, J. F. Stoddart , J. I. Zink), J. Am. Chem. Soc. 2009, 131, 12912–12914.
Full Text: Link

 

862

pH-Responsive mechanised nanoparticles gated by semirotaxanes, (N. M. Khashab, M. E. Belowich, A. Trabolsi, D. C. Friedman, C. Valente, Y. Lau, H.A. Khatib, J. I. Zink, J. F. Stoddart), Chem. Commun. 2009, 5371-5373.
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861

Mesostructured multifunctional nanoparticles for imaging and drug delivery, (M. Liong, S. Angelos, E. Choi, K. Patel, J. F. Stoddart, J. I. Zink), J. Mater. Chem. 2009, 19, 6251–6257.
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859

Dual-controlled nanoparticles exhibiting and logic, (S. Angelos, Y.-W. Yang, N. M. Khashab, J. F. Stoddart, J. I. Zink), J. Am. Chem. Soc. 2009, 131, 11344–11346.
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853

Redox- and pH-controlled mechanized nanoparticles, (N. M. Khashab, A. Trabolsi, Y. A. Lau, M. W. Ambrogio, D. C. Friedman, H. A. Khatib, J. I. Zink, J. F. Stoddart), Eur. J. Org. Chem. 2009, 1669-1673.
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840

Alternate state variables for emerging nanoelectronic devices, (K. Galatsis, A. Khitun, R. Ostroumov, K. L. Wang, W. R. Dichtel, E. Plummer, J. F. Stoddart, J. I. Zink, J. Y. Lee, Y.-H. Xie, K. W. Kim), IEEE Transactions on Nanotechnology 2009, 8, 66-75.
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836

Light-operated mechanized nanoparticles, (D. Ferris, Y.-L. Zhao, N. M. Khashab, H. A. Khatib, J. F. Stoddart, J. I. Zink), J. Am. Chem. Soc. 2009, 131, 1686–1688.
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832

Mesostructured silica for optical functionality, nanomachines, and drug delivery, (Y. Klichko, M. Liong, E. Choi, S. Angelos, A. E. Nel, J. F. Stoddart, F. Tamaoi, J. I. Zink), J. Am. Ceram. Soc. 2009, 92, [S1] S2–S10.
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809

Enzyme-responsive snap-top covered silica nanocontainers, (K. Patel, S. Angelos, W. R. Dichtel, A. Coskun, Y.-W. Yang, J. I. Zink, J. F. Stoddart), J. Am. Chem. Soc. 2008, 130, 2382-2383.
Full Text: Link

 

808

pH-Responsive supramolecular nanovalves based on cucurbit[6]uril pseudorotaxanes, (S. Angelos, Y.-W. Yang, K. Patel, J. F. Stoddart, J. F. Zink), Angew. Chem. Int. Ed. 2008, 47, 2222-2226.
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797

Mesostructured silica supports for functional materials and molecular machines, (S. Angelos, E. Johansson, J. F. Stoddart, J. I. Zink), Adv. Funct. Mater. 2007, 17, 2261-2271.
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795

Versatile supramolecular nanovalves reconfigured for light activation, (T. D. Nguyen, K. C-F. Leung, M. Liong, Y. Liu, J. F. Stoddart, J. I. Zink), Adv. Funct. Mater. 2007, 17, 2101-2110.
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782

Nanovalves, (S. Saha, K. C. -F. Leung, T. D. Nguyen, J. F. Stoddart, J. I. Zink), Adv. Funct. Mater. 2007, 14, 685-693.
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776

Design and optimization of molecular nanovalves based on redox-switchable rotaxanes, (T. D. Nguyen, I. LIu, S. Saha, K. C-F. Leung, J. F. Stoddart, J. I. Zink), J. Am. Chem. Soc. 2007, 129, 626-634.
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768

Supramolecular nanovalves controlled by proton abstraction and competitive building, (K. C-F. Leung, T. D. Nguyen, J. F. Stoddart, J. I. Zink), Chem. Mater. 2006, 18, 5919-5928.
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758

Construction of a pH-driven supramolecular nanovalve, (T. D. Nguyen, K. C. -F. Leung, M. Long, C. D. Pentecost, J. F. Stoddart, J. I. Zink), Org. Lett. 2006, 8, 3363-3366.
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724

A photoactive molecular triad as a nanoscale power supply for a supramolecular machine, (S. Saha, E. Johansson, A. H. Flood, H. -R. Tseng, J. I. Zink, J. F. Stoddart), Chem. Eur. J. 2005, 11, 6846-6858.
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720

A reversible molecular valve, (T. Nguyen, H. -R. Tseng, P. C. Celestre, A. H. Flood, Y. Liu, J. I. Zink, J. F. Stoddart), Proc. Natl. Acad. Sci. USA 2005, 102, 10029–10034.
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705

Powering a supramolecular machine with a photoactive molecular triad, (S. Saha, L. E. Johansson, A. H. Flood, H. -R. Tseng, J. I. Zink, J. F. Stoddart), Small 2005, 1, 87–90.
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675

An operational supramolecular nanovalve, (R. Hernandez, H. -R. Tseng, J. W. Wong, J. F. Stoddart, J. I. Zink), J. Am. Chem. Soc. 2004, 126, 3370-3371.
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610

Working supramolecular machines trapped in glass and mounted on a film surface, (S. Chia, J. Cao, J. F. Stoddart, and J. I. Zink), Angew. Chem. Int. Ed. 2001, 40, 2447-2451.
Full Text: 3.0.CO;2-P>Link

 
 

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