Nanocrystalline diamond films for mechanical applications

## Abstract Nanocrystalline diamond/amorphous carbon (NCD/a‐C) composite films have been deposited by microwave chemical vapour deposition from methane‐rich CH~4~/N~2~ mixtures and characterized carefully by a variety of methods with respect to morphology and structure, composition, crystallinity,

## Abstract A biochemical method to immobilize DNA on synthetic diamond for biosensor applications is developed. Nanocrystalline diamond is grown using microwave plasma‐enhanced chemical vapour deposition. On the hydrogen‐terminated surface 10‐undecenoic acid is tethered photochemically under 254 n

## Abstract The pH‐sensitive properties of hydrogen‐ and oxygen‐terminated nanocrystalline diamond (NCD) films have been investigated using a field‐effect‐based capacitive electrolyte‐diamond‐insulator‐semiconductor (EDIS) structure as transducer. The NCD thin films (100–500 nm) were grown on p‐Si–

## Abstract We report on ultrafast photoluminescence of nanocrystalline diamond membranes and films on silicon and fused silica glass measured by femtosecond upconversion technique. The nanodiamond samples were prepared by microwave plasma enhanced CVD technique. Photoluminescence with very fast no

## Abstract In search for a better way to monitor the hybridization and denaturation of DNA onto a diamond based sensor, precise knowledge about the conditions of the immediate surroundings is very critical. One of the factors that have a great influence on the stability of the measurements is the