Posted on 3 March 2014
Professor John Goodby, FRS, Chair of Materials Chemistry at York, will officially receive the honor and a £50,000 prize during a ceremony being held at the Royal Society of Chemistry in London on March 5.
Having spent almost a decade of his 40-year career at Bell Laboratories in the US – home of seven Nobel Laureates – Professor Goodby is being recognized for the outstanding contributions he has made to materials chemistry in the field of liquid crystals and soft matter.
“I would like to pay tribute to all of my colleagues and students past and present, as well as my fellow academics at the University of York, who have made this scientific journey so exciting, memorable and enjoyable,” he said.
“The relatively short time span between the invention of commercial LCDs in the 1970s and their current market dominance has required a huge effort by scientists and engineers from many disciplines, demonstrating the critical importance of multidisciplinary research.”
Added AkzoNobel’s Chief Scientist, Andrew Burgess: “I am delighted that we can once again recognize the wealth of science talent in the UK through this award. Professor Goodby is a hugely worthy recipient, with his work having made a great contribution to advances in liquid crystals and display technologies that people around the world now take for granted.”
Professor Goodby's achievements are testament to the fact that the UK has many of the world's best scientists. We have led the way developing technology that has transformed the way people live across the globe.
Rt Hon Vince Cable MP, Secretary of State for Business, Innovation and Skills
President of the Royal Society of Chemistry and chair of the prize selection committee, Professor Lesley Yellowlees, commented: “I’m thrilled to be celebrating Professor Goodby’s invaluable contributions to a technology that has a beneficial effect on everyday lives across the world. The field of liquid crystal chemistry is an excellent demonstration of the value of curiosity-driven research and, more than 125 years after they were first discovered by accident, it’s fantastic to be recognizing Professor Goodby’s role in what is now a billion-dollar industry.”
Scientists are constantly looking at how the application of liquid crystals can be expanded, with current research expected to lead to applications in sensors and the medical field. More than 100 clinical trials are in progress worldwide testing the use of liquid crystals as vectors to translate DNA across membrane walls in the human body.