Tag Archives: National Graphene Institute

Little black graphene dress

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Graphene Dress. Courtesy: intu

I don’t think there are many women who can carry off this garment. Of course that’s not the point as the dress is designed to show off its technical capabilities. A Jan. 31, 2017 news item on Nanowerk announces the little black graphene dress (lbgd?),

Science and fashion have been brought together to create the world’s most technically advanced dress, the intu Little Black Graphene Dress.

The new prototype garment showcases the future uses of the revolutionary, Nobel Prize winning material graphene and incorporating it into fashion for the first time, in the ultimate wearable tech statement garment.

A Jan. 25, 2017 National Graphene Institute at University of Manchester press release, which originated the news item, expands on the theme,

The project between intu Trafford Centre, renowned wearable tech company Cute Circuit which has made dresses for the likes of Katy Perry and Nicole Scherzinger and the National Graphene Institute at The University of Manchester, uses graphene in a number of innovative ways to create the world’s most high tech LBD – highlighting the material’s incredible properties.

The dress is complete with a graphene sensor which captures the rate in which the wearer is breathing via a contracting graphene band around the models waist, the micro LED which is featured across the bust on translucent conductive graphene responds to the sensor making the LED flash and changing colour depending on breathing rate. It marks a major step in the future uses of graphene in fashion where it is hoped the highly conductive transparent material could be used to create designs which act as screens showcasing digital imagery which could be programmed to change and updated by the wearer meaning one garment could be in any colour hue or design.

The 3D printed graphene filament shows the intricate structural detail of graphene in raised diamond shaped patterns and showcases graphene’s unrivalled conductivity with flashing LED lights.

The high tech LBD can be controlled by The Q app created by Cute Circuit to change the way the garment illuminates.

The dress was created by the Manchester shopping centre to celebrate Manchester’s crown as the European City of Science. The dress will then be on display at intu Trafford Centre, it will then be available for museums and galleries to loan for fashion displays.

Richard Paxton, general manager at intu Trafford Centre said: “We have a real passion for fashion and fashion firsts, this dress is a celebration of Manchester, its amazing love for innovation and textiles, showcasing this new wonder material in a truly unique and exciting way. It really is the world’s most high-tech dress featuring the most advanced super-material and something intu is very proud to have created in collaboration with Cute Circuit and the National Graphene Institute. Hopefully this project inspires more people to experiment with graphene and its wide range of uses.”

Francesca Rosella, Chief Creative Director for Cute Circuit said: “This was such an exciting project for us to get involved in, graphene has never been used in the fashion industry and being the first to use it was a real honour allowing us to have a lot of fun creating the stunning intu Little Black Graphene Dress, and showcasing graphene’s amazing properties.”

Dr Paul Wiper, Research Associate, National Graphene Institute said: “This is a fantastic project, graphene is still very much at its infancy for real-world applications and showcasing its amazing properties through the forum of fashion is very exciting. The dress is truly a one of a kind and shows what creativity, imagination and a desire to innovate can create using graphene and related two-dimensional materials.”

The dress is modelled by Britain’s Next Top Model finalist Bethan Sowerby who is from Manchester and used to work at intu Trafford Centre’s Top Shop.

Probably not coming soon to a store near you.

Bringing the Nanoworld Together Workshop in Beijing, China, Sept. 24 – 25, 2014

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The speakers currently confirmed for the ‘Bringing the Nanoworld Together Workshop organized by Oxford Instruments are from the UK, China, Canada, the US, and the Netherlands as per a July 2, 2014 news item on Nanowerk (Note: A link has been removed),

‘Bringing the Nanoworld Together’ is an event organised by Oxford Instruments to share the expertise of scientists in the field of Nanotechnology. It will be hosted at the IOS-CAS [Institute of Semiconductors-Chinese Academy of Sciences] Beijing.

Starting with half day plenary sessions on 2D materials with guest plenary speaker Dr Aravind Vijayaraghavan from the National Graphene Institute in Manchester, UK, and on Quantum Information Processing with guest plenary speaker Prof David Cory from the Institute for Quantum Computing, University of Waterloo, Canada, Oxford Instruments’ seminar at the IOP in Beijing from 24-25th September [2014] promises to discuss cutting edge nanotechnology solutions for multiple applications.

A July 1, 2014 Oxford Instruments press release, which originated the news item, describes the sessions and provides more details about the speakers,

Two parallel sessions will focus on thin film processing, & materials characterisation, surface science and cryogenic environments and a wide range of topics will be covered within each technical area. These sessions will include guest international and Chinese speakers from renowned research institutions, speakers from the host institute, and technical experts from Oxford Instruments. This will also present an excellent opportunity for networking between all participants.

Confirmed speakers include the following, but more will be announced soon:

Dr. Aravind Vijayaraghavan, National Graphene Institute, Manchester, UK
Prof David Cory, Institute for Quantum Computing, University of Waterloo, Canada
Prof Guoxing Miao, Institute for Quantum Computing, University of Waterloo, Canada
Prof. HE Ke, Tsinghua University, Institute of Physics, CAS, China
Dr. WANG Xiaodong, Institute of Semiconductors, CAS, China
Prof Erwin Kessels, Tue Eindhoven, Netherlands
Prof. ZENG Yi, Institute of Semiconductor, CAS, China
Prof Robert Klie, University of Illinois Chicago, USA
Prof. Xinran WANG, Nanjing University, China
Prof. Zhihai CHENG, National Centre for Nanoscience and Technology, China
Prof. Yeliang WANG, Institute of Physics, CAS, China

The thin film processing sessions will review latest etch and deposition technological advances, including: ALD, Magnetron Sputtering, ICP PECVD, Nanoscale Etch, MEMS, MBE and more.

Materials characterisation, Surface Science and Cryogenic Environment sessions will cover multiple topics and technologies including: Ultra high vacuum SPM, Cryo free low temperature solutions, XPS/ESCA, an introduction to atomic force microscopy (AFM) and applications such as nanomechanics, In-situ heating and tensile characterisation using EBSD, Measuring Layer thicknesses and compositions using EDS, Nanomanipulation and fabrication within the SEM / FIB.

The host of last year’s Nanotechnology Tools seminar in India, Prof. Rudra Pratap, Chairperson at the Centre for Nano Science and Engineering, Indian Institute of Science, IISC Bangalore commented, “This seminar has been extremely well organised with competent speakers covering a variety of processes and tools for nanofabrication. It is great to have practitioners of the art give talks and provide tips and solutions based on their experience, something that cannot be found in text books.”

“This workshop is a great opportunity for a wide range of scientists in research and manufacturing to discover practical aspects of many new and established processes, technologies and applications, directly from renowned scientists and a leading manufacturer with over 50 years in the industry”, comments Mark Sefton, Sector Head of Oxford Instruments NanoSolutions, “Delegates appreciate the informal workshop atmosphere of these events, encouraging delegates to participate through open discussion and sharing their questions and experiences.”

This seminar is free of charge but prior booking is essential.

You can register on the Oxford Instruments website’s Bringing the Nanoworld Together Workshop webpage,

Of graphene cities and Manchester (UK)

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I have expressed great admiration for the graphene publicity effort (mentioned in this Feb. 21, 2012 posting and elsewhere) put on by the UK during the run up to its European Commission award of a 1B Euro research prize in January 2013 (mentioned in my Jan. 28, 2013 posting). Officially, the award was given to the Graphene FET (future and emerging technologies) flagship project consortium headed by Chalmers University (Sweden).

The University of Manchester, a member of the consortium, has been active in graphene research and commercialization in the UK, from my Feb. 19, 2013 posting,

The University of Manchester (UK) has a particular interest in graphene as the material was isolated by future Nobel Prize winners, Andre Gheim and Kostya (Konstantin) Novoselov in the university’s laboratories. There’s a Feb. 18, 2013 news item on Nanowerk highlighting the university’s past and future role in the development of graphene on the heels of the recent research bonanza,

The European Commission has announced that it is providing 1bn euros over 10 years for research and development into graphene – the ‘wonder material’ isolated at The University of Manchester by Nobel Prize winners Professors Andre Geim and Kostya Novoselov.

The University is very active in technology transfer and has an excellent track-record of spinning out technology, but some think that the University has taken a different view when it comes to patenting and commercialising graphene. Others have expressed a broader concern about British Industry lagging behind in the graphene ‘race’, based upon international ‘league tables’ of numbers of graphene patents.

Manchester is the site for one of two graphene institutions in the UK as per my Jan. 14, 2013 posting titled, National Graphene Institute at the UK’s University of Manchester. The other is in Cambridge as per my Jan. 24, 2013 posting titled, Another day, another graphene centre in the UK as the Graphene flagship consortium’s countdown begins.

The latest item ‘graphene & UK’ (Manchester) item I’m featuring here is a May 12, 2014 news item on Azonano titled, ‘Graphene City’ Can be a Model for Commercialising Scientific Discoveries (Note: A link has been removed),

This is a blog [posting] by James Baker, Business Director for Graphene@Manchester. As the government announces further support for the UK’s emerging graphene industry, James Baker from the National Graphene Institute says the emerging concept of a ‘graphene city’ can be a UK model for commercialising new scientific discoveries.

After a few fits and starts, I traced the news item to a May 7, 2014 posting on the University of Manchester’s [Manchester] Policy Blogs: Science and Technology blog,

Announcing new investments into graphene commercialisation in March’s [2014] Budget, Chancellor George Osborne described the material as a “great British discovery that we should break the habit of a lifetime with and commercially develop in Britain”.

As the new business director for the National Graphene Institute (NGI), which has its new £61m building opening here at the University next year, I obviously couldn’t agree more.

I first came across graphene in my previous job at defence giant BAE Systems where I was in charge of technology collaboration programmes. We ran a number of ‘futures’ workshops where the aim was to get senior executives to think about how the wider world might look in 20 years time.

In defence there has been much debate about the need for a coherent defence industrial strategy to ensure we have the necessary skills and industrial capabilities for the future, and it was through these sessions that a wider dialogue around technologies such as graphene as a potential ‘disruptive’ capability started to emerge.

Whether it’s helping develop new lightweight components for aircraft or battery packs for soldiers, or developing flexible touch screens for the specialist gadget market, graphene has a vast array of potential uses.

My role is to sign up potential industrial partners who want to collaborate with The University of Manchester and take the graphene science to a higher maturity and onto commercialisation. We are looking for partners across a range of sectors who want to operate in this environment in an open, shared and collaborative way.

The vision of creating a ‘graphene city’ in the 21st century can be compared with Manchester in the 19th century when economic activity and innovation developed largely in the absence of the state.

If you are interested in graphene commercialization in the UK, this posting offers some insight into how at least one person involved in this process views the possibilities.