Surface interactions of oxidized cellulose with fibrin(ogen) and blood platelets

## Abstract Oxidized cellulose is an effective haemostat that works naturally to aid in blood coagulation. The mechanism of its action is not very well understood. Little effect on blood coagulation, but a pronounce decrease in platelet count has been reported upon the addition of the oxidized cell

## Abstract Copper and silicon are used as biomaterials in various forms. Silicon is a well‐known semiconductor and has two distinct types (__n__‐type and __p__‐type), depending on the dopants used. The oxides (e.g., CuO and Cu~2~O) on the copper surface also behave as semiconductors. The electroch

The nature of the events occurring immediately after exposing foreign surfaces to fresh flowing blood was assessed using a combination of MAIR infrared spectroscopy, ellipsometry, and contact angle measurements. Within the first 5 sec after contact with blood issuing from the jugular veins of lightl

## Abstract Efforts to explain blood compatibility with synthetic and natural surfaces based on a single parameter or a single biological test procedure have either been unsuccessful or led to misleading generalizations. The problem reflects the complex interdependence between material's properties