Nanoplasmonic Sensing and Capillary Electrophoresis for Fast Screening of Interactions between Phosphatidylcholine Biomembranes and Surfactants

Joanna Witos - Academic Coordinator - Aalto University

Unraveling Interactions between Ionic Liquids and Phospholipid Vesicles Using Nanoplasmonic Sensing

Unraveling Interactions between Ionic Liquids and Phospholipid Vesicles Using Nanoplasmonic Sensing

Exploring Molecular-Biomembrane Interactions with Surface Plasmon Resonance and Dual Polarization Interferometry Technology: Expanding the Spotlight onto Biomembrane Structure

Intact Vesicle Adsorption and Supported Biomembrane Formation from Vesicles in Solution: Influence of Surface Chemistry, Vesicle Size, Temperature, and Osmotic Pressure

PDF) Nanoplasmonic Sensing and Capillary Electrophoresis for Fast Screening of Interactions between Phosphatidylcholine Biomembranes and Surfactants

Geometrically Induced Selectivity and Unidirectional Electroosmosis in Uncharged Nanopores

Spectrum of Membrane Morphological Responses to Antibacterial Fatty Acids and Related Surfactants

PDF) Determination of the Main Phase Transition Temperature of Phospholipids by Nanoplasmonic Sensing

Nano-capillary electrophoresis for environmental analysis

Data-Driven Photoluminescence Tuning in Eu2+-Doped Phosphors

On-chip Paper Electrophoresis for Ultrafast Screening of Infectious Diseases

PDF) Immobilization of natural lipid biomembranes and their interactions with choline carboxylates. A nanoplasmonic sensing study

Analytical techniques and methods for study of drug-lipid membrane interactions