Nano-Dip Coating Services
DCN Corp® technology enables it to control & reproduce SERS/SPR nanomaterial mass manufacturing through its proprietary 9‑Combination dipping recipe
Nano-Dip coating USPs
DCN Corp®’s USP is its rare ability to manage and control the spontaneity of a nano-scale surface reaction called Surface-enhanced Raman Scattering (SERS) and the reactions by-product of Surface Plasmon resonances (SPR).
Because of this controllability DCN Corp® can then repeatedly reproduce the SERS / SPR phenomena to previously unseen surface signal feedback ranges. This has been possible via simple dip coating experiments at Standard Room Temperature and Pressure (STP) conditions.
The Proof-of-Principle dip coating experiments have revealed a unique 9 Combination (9c) protocol, which effectively constitutes dip coating at three different dipping rates, and three different ageing times within a colloidal solution of Gold nanoparticles.
Such simplicity means DCN Corp® has the distinct possibility to mass manufacture its nanomaterial solutions by adapting small-scale nano-fabrications gradually into medium-large scale coatings. Finally, despite various academic journals exalting the theory of isolation and mass reproduction of the spontaneous SERS / SPR reaction; DCN Corp® is one of few to master such a technique.
Understanding Nanotechnology
Nanotechnology is the manipulation of matter on an atomic and molecular scale. Generally, nanotechnology works with materials, devices, and other structures with at least one dimension sized from 1 to 100 nanometres (nm). Widely identified as a key technology for the future, nanotechnology has risen to prominence over recent years as governments and the private sector continue to invest billions of dollars in research and development.
The USA has so far invested $3.7 billion alone through its National Nanotechnology Initiative (NNI), compared to the EU’s $1.2 billion and Japan’s $750 million investments.
The field is diverse, ranging from extensions of conventional devise physics to completely new approaches, from developing new materials with dimensions on the nano-scale, to direct control of matter on the atomic scale.
Nanotechnology entails the application of fields of science as diverse as surface science, organic chemistry, molecular biology, semiconductor physics, and micro-fabrication. Nanotechnology has the potential to create many new materials and devices with a vast range of applications, and DCN Corp® is committed to being at the very forefront of advanced nanotechnology development. Although still in its early stages, the company has already identified potential advanced applications for its solutions in the healthcare and electronic sectors.
How can Nano-Dip coating be used?
Nano-scale computer transistors
Contribute to achieving a truly nano-scale computer chip transistor, which could revolutionise the global semi-conductor industry. The 9c dipping process technology could complement or compete with traditional fabrication methods like CMOS, CVD and PVD.
DNA Diagnostics
DNA diagnostics bio-kit for the earlier diagnosis of, say, cancers, as well as other cardiovascular conditions. Unfortunately, since Covid-19 there has been surge in demand for rapid and accurate diagnostics in the home and remotely.
DCN Corp®’s Missionary aim is to positively and equitably contribute to this emerging market, which we believe should be dubbed Diagnostics 3.0.
Simple Lab-on-a-chip solution
A nano-scale surface enhancing sensor, which only requires a nominal amount of bio-analyte translating into a simple Lab-on-a-chip solution.
Curing encapsulation chamber technology
Our proprietary curing encapsulation chamber technology we hope spreads the benefits of Nano-tech in both laboratories, and schools, colleges and universities worldwide.
Large-scale mass manufacturing applications
DCN Corp®‘s Proof-of-Principle (PoP) process technology if competently controlled can also translate into large-scale applications within the automotive and aerospace industries.
The Future of Nano-Dip Coating
DCN Corp® has developed a nano-fabrication dip coating process technology. This has the potential to bring about the following nano-tech solutions.
Ultra‑Sensitive Nano Bio‑Sensor
A trace-amount surface enhancing nano bio-sensor, which could be used as a simple lab-on-a-chip solution. Other potential solutions could be a highly accurate, quicker, reproducible and more efficient application within DNA separation sciences, laser inducement instrumental analysis, on-site chemical/biological warfare detection, and negligible bio-analytical detection of food toxins among others.
Pathway to Nano‑Scale Transistors
As well as the potential science and engineering applications – DCN Corp®’s nanotechnology solutions could also contribute to achieving a nano-scale computer chip transistor, which if followed to its fullest extent, could revolutionise the global semi-conductor industry.
Global Nanotech Adoption Potential
The potential mass adoption of DCN Corp®’s encapsulation chamber nanotechnology within laboratories, as well as promoting it among new nano-technologists within schools, colleges and universities worldwide.
Scalable Manufacturing Applications
CN Corp’s Proof-of-Principle (PoP) nanotechnology could also translate into large-scale mass manufacturing applications to be employed within the automotive and aerospace industries.
Future DNA Nano‑Diagnostics
A long-term Missionary Aim is the creation of a DNA diagnostics nano-particulate bio-kit for the earlier diagnosis of Breast cancer, as well as potentially other cancerous tumors, diseases and/or cardiovascular conditions.
Let’s talk
Ketan K Patel, founder and CEO of DCN Corp® is keen to talk to potential R&D collaborators, like-minded innovators and ongoing, future commercial partners. So, please do get in touch.