The rate of enzymatic degradation of surface‐modified microbial polyesters, poly[(R)‐3‐hydroxybutyrate] and poly[(R)‐3‐hydroxybutyrate‐co‐3‐hydroxyvalerate], was studied. The plasma treatments were carried out in a CF3H or O2 environment. It was found that the CF3H plasma‐treated polyesters exhibited significant retardation of enzymatic erosion because of the surface fluorocarbon groups induced by CF3H plasma. These surface fluorocarbon groups act as retardants on enzymatic degradation due to increased hydrophobicity and of the inactivity of enzymes. However, the increased surface hydrophilicity of polyesters induced by O2 plasma results in no significant acceleration of the enzymatic erosion, which may be due to the thin modified layer.
Weight loss profiles of P(3HB) film exposed to CF3H plasma as a function of plasma exposure time. 相似文献
We discuss the electronic properties of non-polar surfaces of MgN rock-salt and zinc-blende crystals. We studied the (001) surface of the rock-salt and the (110) surface of the zinc-blende MgN with the use of an ab initio full-electron linearized augmented plane wave method within density functional theory. The structural parameters of the two surfaces were optimized by relaxing the position of the atoms in the unit cells in the force directions. The results of the calculations indicate that both rock-salt MgN (001) and ZB MgN (110) demonstrate half-metallic properties. The zinc-blende MgN (110) surface is electronically more stable as a half-metal than the rock-salt MgN (001) surface. The magnetic properties of the two systems are tailored mainly by the spin-polarization of electrons of N atoms. 相似文献
Pain measurement is commonly required in biomedical and other emergency situations, yet there has been no pain biosensor reported in literature. Conventional approaches for pain measurement relies on Wong‐Baker face diagrams, which are grossly inadequate for situations involving children or unconscious people. We report a label‐free immunosensor for monitoring the pain biomarker cylooxygenase‐2 (COX‐2) in blood. The sensor is based on the concept of metal‐enhanced detection (MED). MED relies on the idea that the immobilization of underpotential deposition (upd) metallic films deposited either as a monolayer or electrostatically held onto a solid gold substrate could significantly amplify bimolecular recognition such as involving antigen‐antibody (Ab‐Ag) interactions. The surface bound Ab‐Ag complex insulates the electrode; causing a decrease in concentration‐dependent redox signals. A linear detection range of (3.64–3640.00)×10?4 ng/mL was recorded with a detection limit of 0.25×10?4 ng/mL, which was 4 orders of magnitude lower than that reported for ELISA for the same biomarker. The immunosensor exhibited selectivity of less than 6 % for potential interferents. 相似文献
