subject area of
- Adhesion and membrane tension of single vesicles and living cells using a micropipette-based technique Journal Articles
- Comment on “Mobilization and entry of DNAPL pools into finer sand media by cosolvents: two-dimensional chamber studies” by Michael E. Van Valkenburg and Michael D. Annable Journal Articles
- Contact lens physical properties and lipid deposition in a novel characterized artificial tear solution. Journal Articles
- Effect of Fibrinogen Degradation Products and Lung Ground Substance on Surfactant Function Journal Articles
- Effect of bio-surfactant on municipal solid waste composting process. Journal Articles
- In Vitro Analysis of the Physical Properties of Contact Lens Blister Pack Solutions Journal Articles
- In Vitro Contact Angle Analysis and Physical Properties of Blister Pack Solutions of Daily Disposable Contact Lenses Journal Articles
- Laboratory evidence of natural remobilization of multicomponent DNAPL pools due to dissolution Journal Articles
- Natural remobilization of multicomponent DNAPL pools due to dissolution Journal Articles
- On-demand droplet loading for automated organic chemistry on digital microfluidics Journal Articles
- Physical Properties of Soft Contact Lens Solutions Journal Articles
- Pre-tension generates strongly reversible adhesion of a spatula pad on substrate Journal Articles
- Pulmonary surfactant-associated protein A enhances the surface activity of lipid extract surfactant and reverses inhibition by blood proteins in vitro Journal Articles
- Surface nucleation in the crystallisation of polyethylene droplets Journal Articles
- The Impact of Contact Angle on the Biocompatibility of Biomaterials Journal Articles
- The Impact of Intermittent Air Exposure on Lipid Deposition Journal Articles
- The effect of chemical structure and surface properties of synthetic polymers on the coagulation of blood. II. Protein and platelet interaction with polymer surfaces. Journal Articles
- The ex vivo wettability of soft contact lenses Journal Articles
- The interaction of platelets with polymer surfaces. I. Uncharged hydrophobic polymer surfaces. Journal Articles