In capacitance and high frequency operation. Thus DLN

In DLN, two microstructures (hydrogenated carbon and
oxygenated Silicon) are interpenetrating two each other and thus internal
stress is decreased and adhesion property is increased and hence this composite
has improved adhesion to almost all kind of substrate. It
has immense application in the filed of biomedical implants. This can be used
as biomedical sensors as well. DLC coatings can be used as protective wear resistant
coating in joint prostheses. 2 already deposited DLN coatings by
PECVD method over various substrate like SS 316 L, glass, Si(100), ceramic(Al2O3)
ultra high molecular weight polyethylene (UHMWPE), Co–Cr alloy, Ti6Al4V alloy,
etc. Most of these materials have been in use as
load-bearing orthopedic implants, like hip joint, knee joint, etc 72. As its coefficient of friction is very less, DLN
films can be used as wear resistant coating. As it is anticorrosive, this
composite can be used as anti-corossive coating on wrist watches , brass made
show pieces etc to enhance their longibity. Mechanical
properties of DLN material along with the low refractive index and higher
transparency compared with other thin film material makes DLN an attractive
option for choosing DLN as a protective coating 50. In DLN, the
highest physical limits of mechanical, electronic and “sensor” properties can
be combined and thus smart future material can be constructed 1. T.S. Santra
et al reported DLN films have their unique number of structural, mechanical and
tribological properties which are quite similar with MEMS material. Due to
these unique properties of DLN films, these are highly applicable in MEMS/NEMS
devices. The high mechanical properties of DLN films make it applicable for
design of high frequency resonator and comb deriver for sensing and actuating
applications. DLN film is a biocompatible material  So, we can use DLN films for detection of
bio-molecules in biological research and disease diagnosis 17.  Due to its infrared transparency, this can be
used as anti-reflective coating on solar cell, glass etc. Sukhendu Jana et al 73 reported diamond-like nanocomposite film behaves as a dielectric medium. DLN
thin film based MIM capacitor is applicable for high capacitance and high
frequency operation. Thus DLN thin film based
MIM capacitor has great potential for use in electrical/ electronic circuit. It has already been reported that DLC are used for optical
wave guiding sensing systems 74, transistors 75 and high tempeature
sensing upto 600 0C 76. As DLN is a improved version of DLC, So,
there is a possibility to use DLN for the same purpose. Diamond film  grown on p-Si substrates using MWPECVD
technique 77-79 may be used as  antenna
for harsh environment in aviation  application.