All Stories

  1. Preface to Special Issue “Fluorine in Soft Matter Science”
  2. Overcoming inactivation of the lung surfactant by serum proteins: a potential role for fluorocarbons?
  3. pH-Controlled Microbubble Shell Formation and Stabilization
  4. Hollow magnetic microspheres obtained by nanoparticle adsorption on surfactant stabilized microbubbles
  5. Counteracting the inhibitory effect of proteins towards lung surfactant substitutes: a fluorocarbon gas helps displace albumin at the air/water interface
  6. Probing different perfluorocarbons forin vivoinflammation imaging by19F MRI: image reconstruction, biological half-lives and sensitivity
  7. Behavior of an Adsorbed Phospholipid Monolayer Submitted to Prolonged Periodical Surface Density Variations
  8. Behavior of an Adsorbed Phospholipid Monolayer Submitted to Prolonged Periodical Surface Density Variations
  9. Thermal Behavior and High- and Low-Temperature Phase Structures of Gemini Fluorocarbon/Hydrocarbon Diblocks
  10. Reversing the course of the competitive adsorption between a phospholipid and albumin at an air–water interface
  11. Compressible multi-scale magnetic constructs: decorating the outer surface of self-assembled microbubbles with iron oxide nanoparticles
  12. Stacking of Self‐Assembled Surface Micelles in Ultrathin Films
  13. Strasbourg's SOFFT team—Soft functional systems self-assembled from perfluoroalkylated molecular components
  14. Effects of Perfluorocarbon Gases on the Size and Stability Characteristics of Phospholipid-Coated Microbubbles: Osmotic Effect versus Interfacial Film Stabilization
  15. Controlling phospholipid self-assembly and film properties using highly fluorinated components – Fluorinated monolayers, vesicles, emulsions and microbubbles
  16. Large Organized Surface Domains Self-Assembled from Nonpolar Amphiphiles
  17. Fluorous materials in microbubble engineering science and technology—Design and development of new bubble preparation and sizing technologies
  18. Long-Range Nanometer-Scale Organization of Semifluorinated Alkane Monolayers at the Air/Water Interface
  19. A Nonpolar, Nonamphiphilic Molecule Can Accelerate Adsorption of Phospholipids and Lower Their Surface Tension at the Air/Water Interface
  20. Dynamical and Rheological Properties of Fluorinated Surfactant Films Adsorbed at the Pressurized CO2–H2O Interface
  21. Interaction of a partially fluorinated alcohol (F8H11OH) with biomembrane constituents in two-component monolayers
  22. Fluorocarbon-Hybrid Pulmonary Surfactants for Replacement Therapy - A Langmuir Monolayer Study
  23. Nonpolar Gemini Amphiphiles Self‐Assemble into Stacked Layers of Nano‐Objects
  24. Compression of Self-Assembled Nano-Objects: 2D/3D Transitions in Films of (Perfluoroalkyl)Alkanes-Persistence of an Organized Array of Surface Micelles
  25. Influence Of Magnetic Iron Oxide Nanoparticles And Perfluoroalkylated Amphiphilic Phosphates On Red Blood Cells And Caco-2 Cells
  26. Phospholipid-Coated Gas Bubble Engineering: Key Parameters for Size and Stability Control, as Determined by an Acoustical Method
  27. Langmuir monolayer miscibility of single-chain partially fluorinated amphiphiles with tetradecanoic acid
  28. ChemInform Abstract: Chemistry, Physical Chemistry, and Uses of Molecular Fluorocarbon—Hydrocarbon Diblocks, Triblocks, and Related Compounds — Unique “Apolar” Components for Self‐Assembled Colloid and Interface Engineering
  29. Chemistry, Physical Chemistry, and Uses of Molecular Fluorocarbon−Hydrocarbon Diblocks, Triblocks, and Related Compounds—Unique “Apolar” Components for Self-Assembled Colloid and Interface Engineering
  30. Impact of perfluorooctylethane on the formation of a semi-crystalline liquid-condensed phase in a phospholipid monolayer and of perfluorooctyl bromide on the adsorption of albumin on such a monolayer
  31. Small Phospholipid‐Coated Gas Bubbles Can Last Longer than Larger Ones
  32. Perfluorochemical‐Based Oxygen Therapeutics, Contrast Agents, and Beyond
  33. Synthesis of triphilic, Y-shaped molecular surfactants
  34. Two-Component Langmuir Monolayers of Single-Chain Partially Fluorinated Amphiphiles with Dipalmitoylphosphatidylcholine (DPPC)
  35. Long Lived Microbubbles for Oxygen Delivery
  36. Experimental evidence for a surface concentration-dependent mechanism of formation of hemimicelles in Langmuir monolayers of semi-fluorinated alkanes
  37. Chapter 7 Highly Fluorinated Langmuir, Langmuir–Blodgett and Gibbs Monolayers
  38. Isolated Fluid Polyhedral Vesicles
  39. Potential Use of Fluorocarbons in Lung Surfactant Therapy
  40. Perfluorocarbons: Life sciences and biomedical usesDedicated to the memory of Professor Guy Ourisson, a true RENAISSANCE man.
  41. Effects of a new perfluorocarbon emulsion on human plasma and whole‐blood viscosity in the presence of albumin, hydroxyethyl starch, or modified fluid gelatin: an in vitro rheologic approach
  42. Prevention of Adhesion and Promotion of Pseudoislets Formation from a β‐Cell Line by Fluorocarbon Emulsions
  43. Resuscitation of severe but brief haemorrhagic shock with PFC in rabbits restores skeletal muscle oxygen delivery and does not alter skeletal muscle metabolism
  44. Highly fluorinated compounds induce phase separation in, and nanostructuration of liquid media. Possible impact on, and use in chemical reactivity control
  45. Fluidization of a Dipalmitoyl Phosphatidylcholine Monolayer by Fluorocarbon Gases: Potential Use in Lung Surfactant Therapy
  46. Fluorocarbon Emulsions as in vivo Oxygen Delivery Systems: Background and Chemistry
  47. Microbubbles with exceptionally long life—synergy between shell and internal phase components
  48. Occurrence, Shape, and Dimensions of Large Surface Hemimicelles Made of Semifluorinated Alkanes. Elongated versus Circular Hemimicelles. Pit- and Tip-Centered Hemimicelles
  49. Preventing Crystallization of Phospholipids in Monolayers: A New Approach to Lung‐Surfactant Therapy
  50. Preventing Crystallization of Phospholipids in Monolayers: A New Approach to Lung‐Surfactant Therapy
  51. Direct Evidence for Highly Organized Networks of Circular Surface Micelles of Surfactant at the Air−Water Interface
  52. Reverse water-in-fluorocarbon emulsions and microemulsions obtained with a fluorinated surfactant
  53. Applications of Fluorous Compounds in Materials Chemistry: 12.1 Basic Principles and Recent Advances in Fluorinated Self‐Assemblies and Colloidal Systems
  54. Cosurfactant Effect of a Semifluorinated Alkane at a Fluorocarbon/Water Interface:  Impact on the Stabilization of Fluorocarbon-in-Water Emulsions
  55. Lateral and Vertical Nanophase Separation in Langmuir−Blodgett Films of Phospholipids and Semifluorinated Alkanes
  56. Surface micelles of semifluorinated alkanes in Langmuir–Blodgett monolayers
  57. Miscibility behavior of dipalmitoylphosphatidylcholine with a single-chain partially fluorinated amphiphile in Langmuir monolayers
  58. Fluorinated Vesicles Made from Combinations of Phospholipids and Semifluorinated Alkanes. Direct Experimental Evidence of the Location of the Semifluorinated Alkane within the Bilayer
  59. Mixed monolayers made from dipalmitoyl phosphatidylcholine and a fluorinated amphiphile
  60. Tubular microstructures made from nonchiral single-chain fluorinated amphiphiles: Impact of the structure of the hydrophobic chain on the rolling-up of bilayer membrane
  61. Monodisperse Surface Micelles of Nonpolar Amphiphiles in Langmuir Monolayers
  62. Incorporation of semi-fluorinated alkanes in the bilayer of small unilamellar vesicles of phosphatidylserine: impact on fusion kinetics
  63. Detection of perfluorocarbons in blood by headspace solid-phase microextraction combined with gas chromatography/mass spectrometry
  64. Detection of perfluorocarbons in blood by headspace solid‐phase microextraction combined with gas chromatography/mass spectrometry
  65. Reversible Stepwise Formation of Mono- and Bilayers of a Fluorocarbon/Hydrocarbon Diblock on Top of a Phospholipid Langmuir Monolayer. A Case of Vertical Phase Separation
  66. Fluorinated Vesicles Allow Intrabilayer Polymerization of a Hydrophobic Monomer, Yielding Polymerized Microcapsules
  67. Les émulsions de fluorocarbures (PFC) : Des transporteurs d'oxygène injectables efficaces et facilement détectables
  68. Stabilizing Colloids with Fluorocarbon-Hydrocarbon Diblocks: Example of Vesicles Made from Single-Chain Fluorinated Surfactants
  69. SEVENTY-TWO HOURS HYPOTHERMIC INTESTINAL PRESERVATION STUDY USING A NEW PERFLUOROCARBON EMULSION
  70. Mixed Langmuir Monolayers Made from Single-Chain Perfluoroalkylated Amphiphiles
  71. Determination of perfluorodecalin and perfluoro-N-methylcyclohexylpiperidine in rat blood by gas chromatography–mass spectrometry
  72. Assay method for the perfluorooctyl bromide (perflubron) in rat blood by gas chromatography–mass spectrometry
  73. Small-Angle Scattering and Electron Microscopy Investigation of Nanotubules Made from a Perfluoroalkylated Glucophospholipid
  74. Reverse water-in-fluorocarbon emulsions as a drug delivery system: an in vitro study
  75. Fluorinated materials for in vivo oxygen transport (blood substitutes), diagnosis and drug delivery
  76. Perfluoroalkylated amphiphiles with a morpholinophosphate or a dimorpholinophosphate polar head group
  77. The preparation of methyl 9-iodo-perfluorononanoate: an access to reverse fluorinated amphiphiles
  78. Advanced Fluorocarbon-Based Systems for Oxygen and Drug Delivery, and Diagnosis
  79. Anionic Glucophospholipids—A New Family of Tubule‐Forming Amphiphiles
  80. Achieving Stable, Reverse Water-in-Fluorocarbon Emulsions
  81. Herstellung stabiler, inverser Wasser‐in‐Fluorkohlenstoff‐Emulsionen
  82. Aerobic Preservation of Organs Using a New Perflubron/Lecithin Emulsion Stabilized by Molecular Dowels
  83. Microtubules from Fluorinated Phosphorylated Amphiphiles in Aqueous/Alcoholic and Non-Aqueous Solvents
  84. Enhanced Proclivity to Self-Aggregation of Phosphorus-Based Amphiphiles when Perfluoroalkylated : The (Perfluoroalkyl)Alkyl Dimorpholinophosphates
  85. Fluorinated phosphocholine-based amphiphiles as components of fluorocarbon emulsions and fluorinated vesicles
  86. Stable Flexible Fibers and Rigid Tubules Made from Single‐Chain Perfluoroalkylated Amphiphiles
  87. Stabile, flexible Fasern und starre Röhren aus einkettigen, perfluoralkylierten Amphiphilen
  88. Stable Highly Concentrated Fluorocarbon Gels
  89. Stabile hochkonzentrierte Fluorkohlenwasserstoffgele
  90. Supramolecular assemblies from single-chain perfluoroalkylated phosphorylated amphiphiles
  91. Can the formation of vesicles from single-chain perfluoroalkylated amphiphiles be predicted?
  92. About the Mechanism of Stabilization of Fluorocarbon Emulsions by Mixed Fluorocarbon/Hydrocarbon Additives
  93. Können einkettige perfluorierte Amphiphile allein Vesikel und andere organisierte supramolekulare Verbände bilden?
  94. Can Single‐Chain Perfluoroalkylated Amphiphiles Alone Form Vesicles and Other Organized Supramolecular Systems?
  95. Impact of the structure of phospholipid dispersions on the stability of fluorocarbon/phospholipid emulsions for biomedical uses
  96. Formation of bilayers and vesicles from dilute dispersions of flexible F-alkylated single-chain phosphocholine amphiphiles
  97. Mixed fluorocarbon/hydrocarbon molecular “dowels” allow improved control over concentrated fluorocarbon emulsion particle sizes and stability
  98. Elaboration of Fluorocarbon Emulsions with Improved Oxygen-Carrying Capabilities
  99. Fluorocarbon/lecithin emulsions: identification of EYP-coated fluorocarbon droplets and fluorocarbon-empty vesicles by freeze-fracture electron microscopy
  100. Detrimental effect of excess lecithin on the stability of fluorocarbon/lecithin emulsions
  101. Highly fluorinated stationary phases for analysis for polyfluorinated solutes by reversed-phase high-performance liquid chromatography
  102. Semifluorinated Alkanes as Stabilizing Agents of Fluorocarbon Emulsions