Ann-Sofie Cans

Formation of geometrically complex lipid nanotube-vesicle networks of higher-order topologies.

Artificial cells: unique insights into exocytosis using liposomes and lipid nanotubes.

Steady-state electrochemical determination of lipidic nanotube diameter utilizing an artificial cell model.

Mechanics of lipid bilayer junctions affecting the size of a connecting lipid nanotube.

Carbon-ring microelectrode arrays for electrochemical imaging of single cell exocytosis: fabrication and characterization.

Analytical tools to monitor exocytosis: a focus on new fluorescent probes and methods.

A functioning artificial secretory cell.

The real catecholamine content of secretory vesicles in the CNS revealed by electrochemical cytometry.

Composition based strategies for controlling radii in lipid nanotubes.

Two modes of exocytosis in an artificial cell.

Coimmobilization of acetylcholinesterase and choline oxidase on gold nanoparticles: stoichiometry, activity, and reaction efficiency.

Amperometric detection of single vesicle acetylcholine release events from an artificial cell.

Characterizing the catecholamine content of single mammalian vesicles by collision-adsorption events at an electrode.

Lithographic Microfabrication of a 16-Electrode Array on a Probe Tip for High Spatial Resolution Electrochemical Localization of Exocytosis.

Cholesterol Alters the Dynamics of Release in Protein Independent Cell Models for Exocytosis.

Excited Fluorophores Enhance the Opening of Vesicles at Electrode Surfaces in Vesicle Electrochemical Cytometry.

Extracellular Osmotic Stress Reduces the Vesicle Size while Keeping a Constant Neurotransmitter Concentration.

Amperometry methods for monitoring vesicular quantal size and regulation of exocytosis release.

Counting the number of enzymes immobilized onto a nanoparticle-coated electrode.