Drug and Gene Delivery

  • The Implications of Stochastic Synthesis for the Conjugation of Functional Groups to Nanoparticles Bioconjugate Chemistry 2008 19 1748-1752.
    See: Kelly, ChristopherMcNerny, DanMullen, Douglas
  • Nanoparticle Interaction with Biological Membranes:  Does Nanotechnology Present a Janus Face? Accounts of Chemical Research 2007 40 335-342
    See: Hong, SeungpyoLeroueil, PascaleMecke, Almut
  • Nanoparticle-Membrane Interaction: Mechanism for Enhanced Permeability 2007
    See: Hong, SeungpyoLeroueil, PascaleMecke, Almut
  • Nanoparticle Interactions with Biological Membranes: A Proposed Physical Mechanism 2007
  • HPLC analysis of functionalized poly(amidoamine) dendrimers and the interaction between a folate-dendrimer conjugate and folate binding protein. The Analyst 2006 131 842-848.
    See: Hong, Seungpyo
  • Interaction of Polycationic Polymers with Supported Lipid Bilayers and Cells: Nanoscale Hole Formation and Enhanced Membrane Permeability. Bioconjugate Chemistry 2006 17 728-734.
    See: Hong, SeungpyoKober, MaggieLeroueil, Pascale
  • Physical Interactions of Nanoparticles with Biological Membranes:The Observation of Nanoscale Hole Formation. Chemical Health and Safety 2006 13 16-20.
    See: Hessler, JessicaHong, SeungpyoLeroueil, PascaleMecke, Almut
  • Membrane thinning due to antimicrobial peptide binding — An AFM study of MSI-78 in DMPC bilayers. Biophysical Journal 2005 89 4043-4045.
    See: Mecke, Almut
  • Lipid Bilayer Disruption by Polyamidoamine Dendrimers: The Role of Generation and Capping Group. Langmuir 2005 21 10348-10354.
    See: Mecke, Almut
  • Atomic Force Microscopy Study of Early Morphological Changes During Apoptosis. Langmuir 2005 21 9280-9286.
    See: Budor, AndrewHessler, JessicaMecke, AlmutRieger, Daniel
  • Synthetic and natural polycationic polymers interact selectively with fluid phase domains of DMPC lipid bilayers. Langmuir 2005 21 8588-8590.
    See: Mecke, Almut
  • Direct Observation of Lipid Bilayer Disruption by Poly(amidoamine) Dendrimers. Chemistry and Physics of Lipids 2004 132 3-14.
    See: Mecke, Almut
  • The Interaction of Polyamidoamine (PAMAM) Dendrimers with Supported Lipid Bilayers and Cells: Hole Formation and the Relation to Transport. Bioconjugate Chemistry 2004 15 774-782.
    See: Hong, SeungpyoMecke, Almut
  • Deformability of Poly(amidoamine) Dendrimers. European Physical Journal E -- Soft Matter 2004 14 7-16.
    See: Mecke, Almut
  • A Novel MEA/AFM Platform for the Measurement of Real-time, Nanometric Morphological Alterations of Electrically Stimulated Neuralblastoma Cells. IEEE Transactions on Nanobioscience 2004 3 111-117.
    See: Hessler, JessicaShenai, Mahesh
  • Nanoscale Probing of the Enamel Nanorod Surface Using Polyamidoamine Dendrimers. Langmuir 2004 20 4168-4171.
    See: Chen, HaifengChen, Yunqing
  • DNA-directed Synthesis of Generation 7 and 5 PAMAM Dendrimer Nanoclusters. Nanoletters 2004 4 391-397.
    See: Mecke, Almut
  • Nanotexturing Gold Surface with Dendrimers for Selective Cell Adhesion, M. Proc. IEEE EMBC 2003 1 1232-1235.
    See: Khan, DamianShenai, Mahesh
  • Interaction of Dendrimers (Artificial Proteins) with Hydroxyapatite Crystals. J. Dent. Res 2003 82 443-448.
    See: Chen, Haifeng
  • Tapping Mode Atomic Force Microscopy Investigation of Poly(amidoamine) Core-Shell Tecto(Dendrimers) using Carbon-Nanoprobes. Langmuir 2002 18 3127-3133.
    See: Betley, TedHessler, JessicaMecke, Almut