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conference

series

.com

July 27-29, 2017 Vancouver, Canada

10

th

International Conference on

Emerging Materials and Nanotechnology

RRJOMS | Volume 5 | Issue 4 | July, 2017

Scalable functional nanocoatings

T

he worldwide market for functional surfaces exceeds $100 billion per annum (US Department of Energy). A key driver

is the added value that can be imparted to commercial products through the molecular engineering of their surface

properties. For example, the cleanliness of optical lenses, the feel of fabrics, the resistance of biomedical devices to bacteria, the

speed of computer hard disks, and even the wear of car brake pads is governed by their surface properties. The fabrication of

such surfaces requires the incorporation of specific functional groups; for which there exists no shortage of potential methods

including: self-assembled monolayers (SAMs), Langmuir-Blodgett films, dip-coating, grafting, chemical vapour deposition,

to name just a few. However, such techniques suffer from drawbacks including substrate-specificity (cannot be easily adapted

to different materials or geometries) and environmental concerns associated with the utilization of solvents, strong acid/base

media, or heat. A range of innovative solutions will be described for the molecular tailoring of solid surfaces. Applications

will include: super-repellency, non-fouling, anti-fogging, thermoresponsive, rewritable bioarrays, opto-chiral, antibacterial,

electrical barrier, water harvesting, capture and release, oil-water separation, and nano-actuation. This research has led to 41

patent families and the establishment of 3 successful start-up companies: Surface Innovations Ltd., Dow Corning Plasma Ltd.,

and P2i Ltd. (2015 International Business Award for 'Most Innovative Company in Europe’).

Biography

Jas Pal Badyal FRS has completed his BA/MA and PhD degrees from Cambridge University; where he subsequently held King’s College and Oppenheimer fellowships.

He is the primary author/inventor of 175 peer reviewed journal publications/41 patent families. He has received the Royal Society of Chemistry Harrison Medal; the British

Vacuum Council Burch Prize; the International Association of Advanced Materials Medal. In 2016, he was elected as a Fellow of the Royal Society (FRS)-UK and Com-

monwealth National Academy of Sciences. His research has led to 3 successful start-up companies: Surface Innovations Ltd.; Dow Corning Plasma Ltd.; and P2i Ltd.

j.p.badyal@durham.ac.uk

Jas Pal Badyal

Durham University, UK

Jas Pal Badyal, Res. Rev. J Mat. Sci. 2017

DOI: 10.4172/2321-6212-C1-001