Zhijie Sui, und Joseph B Schlenoff. Phase separations in pH-responsive polyelectrolyte multilayers: charge extrusion versus charge expulsion.. Langmuir, (20)14:6026--6031, Juli 2004. [PUMA: Artificial; Atomic Concentration; Electrolytes, Electroosmosis; Force; Hydrogen-Ion Membranes, Microfluidics; Microscopy, Particle Polymers, Properties Sensitivity Size; Solutions, Specificity; Surface and chemistry;]

Marie belle Saab, Elias Estephan, Thierry Cloitre, Ren'e Legros, Frédéric J G Cuisinier, Lászlá Zimányi, und Csilla Gergely. Assembly of purple membranes on polyelectrolyte films.. Langmuir, (25)9:5159--5167, Mai 2009. [PUMA: Adsorption; Atomic Electrolytes, Force; Fourier Halobacterium Infrared; Kinetics; Membrane, Microscopy, Properties Purple Spectroscopy, Surface Transform chemistry/ultrastructure; chemistry; salinarum,]

A. Pascal Ngankam, und Paul R Van Tassel. Continuous polyelectrolyte adsorption under an applied electric potential.. Proceedings of the National Academy of Sciences, (104)4:1140--1145, Januar 2007. [PUMA: Adsorption; Analysis, Atomic Electricity; Electrolytes, Force; Microscopy, Spectrum chemistry; methods]

A. Pascal Ngankam, Guangzhao Mao, und Paul R Van Tassel. Fibronectin adsorption onto polyelectrolyte multilayer films.. Langmuir, (20)8:3362--3370, April 2004. [PUMA: Adsorption; Animals; Antibodies, Atomic Electrolytes, Fibronectins, Force G, Humans; Immunoglobulin Mice; Microscopy, Monoclonal, chemistry/immunology; chemistry; immunology;]

Ioanna Mela, Elodie Aumaitre, Ann-Marie Williamson, und Gleb E. Yakubov. Charge reversal by salt-induced aggregation in aqueous lactoferrin solutions. Colloids and Surfaces B: Biointerfaces, (78)1:53--60, 2010. [PUMA: Atomic Dynamic Electrophoretic Ellipsometry Gastric Iron Janus Lactoferrin Layer-by-layer assembly bioavailability force light microscopy mobility mucin particles polyelectrolyte scattering]

Tatjana Mauser, Christophe Déjugnat, und Gleb B Sukhorukov. Balance of hydrophobic and electrostatic forces in the pH response of weak polyelectrolyte capsules.. Journal of Physical Chemistry B, (110)41:20246--20253, Oktober 2006. [PUMA: Acids, Atomic Biophysics, Capsules, Chemical; Chemistry, Concentration; Confocal; Electricity; Electrolytes; Electron, Force; Hydrogen-Ion Ions; Microscopy, Models, Osmolar Physical, Polymethacrylic Polyvinyls, Properties Scanning; Static Surface chemistry; methods;]

Marie Z Markarian, Maroun D Moussallem, Houssam W Jomaa, und Joseph B Schlenoff. Hydrogen bonding versus ion pairing in polyelectrolyte multilayers with homopolynucleotides.. Biomacromolecules, (8)1:59--64, Januar 2007. [PUMA: Adsorption; Atomic Bonding; Chemistry, Circular Conformation; Dichroism; Dose-Response Drug; Electrolytes; Factors Force; Hydrogen Ions; Microscopy, Molecular Nucleotides, Phenomena; Physical; Physicochemical Polyethyleneimine, Polynucleotides, Properties; Relationship, Salts, Surface Time chemistry;]

Nicolas Laugel, Cosette Betscha, Mathias Winterhalter, Jean-Claude Voegel, Pierre Schaaf, und Vincent Ball. Relationship between the growth regime of polyelectrolyte multilayers and the polyanion/polycation complexation enthalpy.. Journal of Physical Chemistry B, (110)39:19443--19449, Oktober 2006. [PUMA: Acid, Adsorption; Atomic Calorimetry, Chemistry, Electrolytes, Force; Hot Ions; Microscopy, Models, Physical, Polyamines; Polyglutamic Polymers; Statistical; Temperature; Thermodynamics chemistry; methods;]

Araz Jakalian, David B. Jack, und Christopher I. Bayly. Fast, efficient generation of high-quality atomic charges. AM1-BCC model: II. Parameterization and validation. Journal of Computational Chemistry, (23)16:1623--1641, Wiley Subscription Services, Inc., A Wiley Company, 2002. [PUMA: AMBER, atomic charges charges, electrostatic fit force-field molecules, organic potential simulations, small]

Araz Jakalian, Bruce L. Bush, David B. Jack, und Christopher I. Bayly. Fast, efficient generation of high-quality atomic charges. AM1-BCC model: I. Method. Journal of Computational Chemistry, (21)2:132--146, John Wiley & Sons, Inc., 2000. [PUMA: atomic bond charge charges, correction, electrostatic field, force methodology potential,]

Thorsten Hugel, Matthias Rief, Markus Seitz, Hermann E. Gaub, und Roland R. Netz. Highly Stretched Single Polymers: Atomic-Force-Microscope Experiments Versus Ab-Initio Theory. Physical Review Letters, (94)4:048301, APS, 2005. [PUMA: DNA; ab atomic calculations force initio microscopy; polymer proteins; structure;] URL

Aurélie Guyomard, Bernard Nysten, Guy Muller, und Karine Glinel. Loading and release of small hydrophobic molecules in multilayer films based on amphiphilic polysaccharides.. Langmuir, (22)5:2281--2287, Februar 2006. [PUMA: Atomic Dyes; Electrolytes; Fluorescent Force; Glucans, Hydrophobicity; Microscopy, Oxazines; Polyethyleneimine, Polysaccharides, Properties Surface chemistry;]

Per M. Claesson, Evgeni Poptoshev, Eva Blomberg, und Andra Dedinaite. Polyelectrolyte-mediated surface interactions. Advances in Colloid and Interface Science, (114-115):173--187, Juni 2005. [PUMA: AFM Adsorption, Atomic Colloidal Depletion Double-layer Electrosteric Flocculation, MASIF, Non-equilibrium Polyelectrolyte Polyelectrolyte, SFA, Stabilization, Steric Structural Surface apparatus, attraction, brush, force force, forces, interaction, microscope, stability, state,] URL

K. Besteman, M. A. G. Zevenbergen, und S. G. Lemay. Charge inversion by multivalent ions: Dependence on dielectric constant and surface-charge density. Physical Review E, (72)6:061501, APS, 2005. [PUMA: atomic electrolytes; force microscopy permittivity;]

K. Besteman, M. A. G. Zevenbergen, H. A. Heering, und S. G. Lemay. Direct Observation of Charge Inversion by Multivalent Ions as a Universal Electrostatic Phenomenon. Physical Review Letters, (93)17:170802, APS, 2004. [PUMA: atomic binding charging; chemical electrochemistry; electrophoresis energy; force microscopy; potential; surface] URL