Dubai dental clinics to begin using 3D scanning and 3D printing technologies within weeks

Jan 31, 2017 | By Tess

Dubai is undoubtedly earning a powerful hard work to not only combine 3D printing technologies into many sides of its financial system and modern society, but to do so in a timely way also. Final October, the Dubai Overall health Authority (DHA) declared that as soon as 2017, 3D printing would be adopted by hospitals and dental clinics all over the city, and guaranteed more than enough, the DHA has now noted that it is completely ready to launch additive manufacturing at eleven DHA-operated well being facilities within just a issue of weeks.

The announcement was created at the Arab Overall health Congress 2017, which opened on January thirty and goes on until February 2. In accordance to the DHA, its Dental Services department will be the 1st to roll out the new technologies, as it starts utilizing 3D scanning and 3D printing technologies to make additional time-productive and significantly less invasive impressions of a patient’s enamel.

That is, relatively that make the individual sit uncomfortably when a bodily mould is taken of their mouth, Dubai dentists will soon be capable to use uncomplicated intra-oral scanners, which can be moved close to the patient’s mouth to seize a digital impression. From there, the digital scan is transformed into a 3D printable design (through a DHA intranet) and despatched right to a 3D printer.

As Dr. Hamda Mesmar, the director of the Dental Services Division at the DHA, points out: “The 3D impression helps us with exact organizing and precision especially for difficult dental procedures and surgical procedures. People will enormously benefit from the use of this engineering as it helps in greater individual outcomes as well as significantly lessens ready time and expense of treatment.”

Inside weeks, a number of dental clinics working in the Major Overall health Care Facilities will obtain and start out utilizing the new and innovative intra-oral scanners. The new devices are expected to lessen processing, manufacturing, and total ready occasions appreciably. Customarily, it can choose a number of hours to make a individual-certain dental mould utilizing impressions and stone molds. With 3D printers in tow, dental clinics could feasibly create 18 resin molds within just just six hours.

In addition to the time edge, the DHA has also noted that utilizing the intra-oral scanners and 3D printing approach could result in additional exact impressions and pose significantly less of a chance in conditions of infections. Also, since the digital impression of the patient’s mouth is saved, 3D types can be re-inspected and re-printed with ease.

It is really not only the dental sector that will be benefitting from 3D printing technologies, nonetheless, as Dubai is also organizing to introduce a new light-weight 3D printed prosthetic leg to its hospitals. Created in Germany, the 3D printed prosthetic leg can be created within just a day, and is significantly additional reasonably priced than common prosthetics. Even though the 1st of Dubai’s 3D printed implants may well be imported, the DHA is hopeful it will get started manufacturing its own innovative prosthetics within just the upcoming 10 years.

Humaid Al Qatami, Director standard of the DHA, commented: “Using 3D engineering for surgical procedures and other professional medical uses is the long run. We are at the moment doing the job on establishing regulations for 3D printing for individuals and the professional medical sector in Dubai. We are also wanting at training medical practitioners and well being treatment pros on the use of this engineering.”

Test out additional of Dubai’s 3D printing endeavours:

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Reports suggest Ferrari 2017 Formula 1 car will use 3D printed piston heads

Feb 1, 2017 | By Benedict

Scuderia Ferrari, the racing division of Ferrari, is looking to improve its 2017 Formula 1 engine by using 3D printing technology to fabricate new and innovative steel alloy piston heads. The 2017 Ferrari, codenamed 668, is set to be unveiled on February 24.

The 2017 Ferrari Formula 1 car may contain 3D printed piston heads

3D printing in the automotive sector is nothing new—just take a look at the ever-growing number of 3D printed cars for proof. Rarely, however, has additive manufacturing been put to the test on a racing stage as grand as Formula 1. So when reports emerged this week that Ferrari is considering putting 3D printed pistons in their 668 Formula 1 engine, many observers in the racing and 3D printing worlds took notice. Could 3D printing really improve Ferrari’s fortunes on the track?

According to a number of sources, Ferrari has decided to incorporate additive manufacturing into their engine production in order to completely remodel their ignition chamber. By 3D printing the steel alloy piston heads for the 668, Ferrari reportedly thinks it can achieve perfect combustion, with the 3D printed pieces able to withstand 400 bar of pressure. The design is being carried out by Magneti Marelli, an Italian developer and manufacturer of high-end automotive components.

Ferrari and Marelli believe that additive manufacturing will enable them to improve the piston heads by reducing their weight while maintaining a high level of strength. To do this, they will likely use complex internal geometries such as honeycomb patterns, reducing material usage while ensuring density in high-impact areas.

The 2016 Ferrari Formula 1 car

Other changes predicted for the new Ferrari Formula 1 vehicle include a new power unit, designated 062/1, that will reportedly differ significantly from the 2017 model, and a larger diffuser,  increasing from 100 cm to 105 cm in width and 12.5 cm to 17.5 cm in height. Many of the new parts have been tested during free practice sessions since summer 2016.

The 2016 Formula One season was the longest season in the history of the sport, and was an unsuccessful one for Ferrari and its drivers, German Sebastian Vettel and Finn Kimi Räikkönen. Mercedes won all but two Grands Prix, with Red Bull Racing-TAG Heuer scooping the other pair. Ferrari finished third in the World Constructors’ Championship standings, achieving 11 podium finishes over the course of 21 races.

For the 2017 season, Scuderia Ferrari is reportedly targeting power levels exceeding 1000 bhp, around 50 bhp more than Vettel and Räikkönen had available to them last season.

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French students could soon be living in 3D printed housing built by X-Treee

Feb one, 2017 | By Tess

Learners in France could quickly come across by themselves residing in lodging that has been 3D printed. In accordance to a French information resource, the University of Rouen’s Mont-Saint-Aignan campus will quickly be the web-site of 3D printed student housing. The task is currently being recognized by way of a collaboration involving French social landlord firm Habitat seventy six and CROUS (Centre régional des œuvres universitaires et scolaires or the Regional Centre for University and University Works).

In accordance to Sébastien Metayer, director of sustainable improvement at Habitat seventy six, the 3D printed student housing task is the initially of its kind in France, and very maybe a initially in Europe. The task, which has been underway for a calendar year, is searching for to make 3D printed studios a truth on the Mont-Saint-Aignan campus close to Rouen and have them in use by as quickly as 2018.

Not only will the housing’s external composition be 3D printed, but CROUS and Habitat seventy six are also arranging on 3D printing the home furniture, like desks, beds, and even showers. In accordance to Habitat seventy six, the studios they strategy to make could feasibly made in as very little as two days.

Of training course, the developers will not use just any 3D printer to make the houses, as they’ve enlisted the aid of French substantial-scale 3D printing startup X-Treee. The startup has been functioning on acquiring a specific 3D printer robot and a tailor made 3D printable concrete material that can create enough housing constructions.

In September, X-Treee properly demonstrated its novel 3D printing procedure with a three-meter-tall pavilion, and now the startup is aiming to have an complete studio 3D printed by June of this calendar year. The studio is also envisioned to contain other essential residing options, this kind of as drinking water pipes and electrical cables. In depth tests will, of training course, be essential.

Metayer has even suggested that if all goes properly with the 3D printed studio endeavor (which is intended to split ground late 2017/early 2018) there is the probable to create larger sized constructions. He stated, “If we can show that is it possible to establish a studio, we can then create three, four, 5 rooms, maybe even a creating!”

3D printed X-Treee Pavilion

He also additional what appears to be to be a essential disclosure when it will come to automated 3D printing systems: that the equipment will not steal human work opportunities. He suggests, “If the printer does the significant do the job, we will always will need electricians, plumbers, and painters…”

For now, the value of 3D printing a composition out of concrete is nonetheless very costly, not to point out experimental, but Metayer and his workforce are assured that as the technological know-how results in being a lot more conventional and prevalent, the value of 3D printing properties and rooms will drop considerably.

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Nano Dimensions new PCB 3D printing method improves reliability, eliminates soldering

Jan 30, 2017 | By Benedict

Printed circuit board (PCB) 3D printer manufacturer Nano Dimension has introduced a successful proof of thought for a new inkjet PCB 3D printing technique. The technique enhances PCB dependability, eradicates soldering, and supports the development of thinner, better shielded PCBs.

With the Dragonfly 2020, Israeli 3D printing company Nano Dimension previously has 1 of the most special and marketable equipment in the market: a 3D printer capable of fabricating multi-layer printed circuit boards making use of dedicated nano-inks. However, a new growth indicates that the company’s 3D printing abilities may perhaps before long be even higher. Nano Dimension currently introduced that it has efficiently 3D printed electrical circuits with embedded electrical components making use of a new inkjet printing technique.

This new growth could confirm significant for many reasons. Where the Dragonfly 2020 (as we at the moment know it) is able to 3D print multi-layer circuit boards, the new technique, which makes it possible for the person to embed electrical components (by fitting them in place in the course of the printing approach), permits the development of extra advanced electronic techniques on the 3D printer. Excitingly, the company suggests that this new function will be integrated into long term Nano Dimension 3D printers.

3D printer company Nano Dimension outlined three essential ways in which the new embedded component technique could be advantageous for people. For starters, it would purportedly boost PCB dependability “by protecting the electronic components internally and keeping them from currently being exposed to the exterior ecosystem, although protecting them from mechanical, temperature, and corrosion damages.”

A 2nd edge of the new 3D printing approach issues both of those the top quality of the printed merchandise and the relieve with which it can be designed: due to the fact components can be embedded within just the printed board in the course of printing, no soldering is expected. The connectivity concerning components is supplied by Nano Dimension’s electrically conductive nano-inks.

The final edge presented by the new PCB 3D printing technique is that it “enables printing on electronics components without their total packaging (printing specifically on the dye), and therefore supports the development of thinner, extra shielded PCBs.”

Nano Dimension suggests it has submitted a patent application with the U.S. Patent and Trademark Business for its most current engineering. When it is completely ready for production, the new 3D printing technique could be advantageous for prospects in sectors these as protection, place, client merchandise, telecommunications, and extra.

Nano Dimension has liked a occupied start out to 2017, saying on January 12 that it had efficiently 3D printed curved, bendable circuit boards that could be utilized in IoT merchandise, although also finding the time to exhibit its engineering at SOLIDWORKS Earth 2017 in Los Angeles and IPC APEX EXPO 2017 in San Diego.

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Taiwan-based Ackuretta releases new Ackuray A135 DLP 3D printer and 8 new resins

Jan 31, 2017 | By Tess

Taiwan-based 3D printer manufacturer Ackuretta Technologies recently introduced its latest product: the Ackuray A135 3D printer. In addition to the new DLP 3D printer, the company has also released eight new engineering-grade resin materials, which can be used for a range of applications, such as jewelry making, dentistry, medical, manufacturing, prototyping, etc.

The Ackuray A135 3D printer reportedly integrates Ackuretta’s DLP technology while also showcasing a number of new features and settings that are said to increase the 3D printer’s reliability and the quality of its prints. Among the Ackuray A135’s features are a build envelope of 135 x 76 x 200 mm, an X and Y axis resolution of 70 microns, and a Z resolution of up to 1 µm increments. The Z axis is controlled by a closed-loop brushless servo control. The 3D printer is also made from high-grade reliable materials and consists of few moving parts, which make it easy to operate, says the company.

Ayush Bagla, Managing director of Ackuretta Technologies, commented: “The A135 embodies the innovation and value that Ackuretta has set out to achieve in order to revolutionize the additive manufacturing industry. By incorporating DLP technology in a flexible, high-precision 3D printer, we are set to provide the product manufacturing industry with the speed and accuracy necessary to deploy 3D printing in viable business model.”

As a press release indicates, the new DLP 3D printer operates using Materalise Visualizer software, an easy-to-use platform that offers users precise control and customization for their print settings. As mentioned, in association with their new 3D printer’s launch, Ackuretta has also unveiled eight new 3D printing resins.


The range of new materials is quite versatile, as four of the eight are biocompatible, and others include casting and modeling materials. The new offering includes the following:

    • QuraDENT, a photopolymer resin with an opaque, matte finish that has applications in the field of dentistry. Specifically, it is ideal for 3D printing durable dental models. The resin offers high precision details and accuracy, as well as a smooth surface finish and high dimensional stability.


    • QuraGP, an ABS-like resin that offers reliable temperature resistance and high strength. QuraGP is reportedly useful for 3D printing functional prototypes, as it displays low shrinkage, and good chemical and impact resistance.


    • QuraCLEAR, a transparent photopolymer resin which is useful for printing surgical guides, flow models, or prototypes that necessitate internal visualization.


    • QuraWAX, a resin with high wax content that offers makers an ideal material for casting. Ackuretta suggests QuraWAX for makers working with jewelry and dental castings.


    • DETAX Freeprint Mould, a biocompatible and Bisphenol A free “clear light curing resin” that has applications in generative manufacturing of earmolds and hearing protections.


    • DETAL Freeprint Shell, a black biocompatible and Bisphenol A free light curing resin. Used for 3D printing hard ITE shells for hearing aids.


    • DETAX Freeprint Cast 2.0, a green-transparent, light curing resin ideal for 3D printing molds for silicone earmolds. Also, biocompatible and Bisphenol A free.


    • DETAX Freeprint Splint, a clear, Bisphenol A free, light curing resin for making biocompatible drilling templates for occlusal splints.


The Ackuray A135 3D printer is retailing for $18,900, while the resins range in price from $140 to $550.

QuraCLEAR and QuraGP

DETAX resin


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3D scanning helps UK researchers uncover secret priest hole in Gunpowder Plot house

Jan 31, 2017 | By Benedict

Researchers from the University of Nottingham have utilized 3D scanning technological know-how to uncover a top secret home concealed inside a making utilized by conspirators in the Gunpowder Plot of 1605. The hiding gap was utilized by Catholic priests escaping persecution in the seventeenth century.

Coughton Court docket, 3D scanned and photographed

Following the English Reformation of the sixteenth century, in which the Church of England broke absent from Catholicism, numerous Catholics who preferred to continue practicing their religion experienced to do so in extraordinary secrecy—or else facial area execution as traitors. Consequently, numerous entrepreneurs of large state residences devised clever methods of hiding Catholic clergymen, generally by developing so-termed “priest holes” in the a variety of nooks and crannies of their attributes.

Just one these house made up of a priest gap is Coughton Court docket in Warwickshire, a area so loaded with secrecy that it was also utilized by Sir Everard Digby, 1 of the primary conspirators in the 1605 Gunpowder Plot, in which a group of males sought to blow up the Residence of Lords and kill King James I. The priest gap, nevertheless, was built to help practicers of the Catholic religion to disguise in just a turret, involving two ground ranges.

Following its preliminary use, the priest gap went undiscovered until eventually the 1850s, when it was found with a rope ladder, moveable change, and some bedding continue to in area. But although the Coughton Court docket priest gap has been public expertise for about 150 decades, several have experienced a opportunity to see it, or adequately visualize how it is laid out. As these, scientists from the University of Nottingham began 3D scanning the priest gap in 2015 in buy to create a digital 3D model of the uncommon cavity.

The priest gap was found in just the in the vicinity of suitable turret of the tallest segment of the house

A several weeks back, courtesy of a grant from the Nationwide Have faith in, the exact group of scientists returned to Coughton Court docket to accomplish a more thorough 3D scan, taking into account the full making, which supplies greater context for the priest gap. And with the data collected from the 3D scanning procedure, the scientists have been capable to assemble a digital 3D model of the making that people today will be capable to access on-line.

“At Coughton, the priest gap is concealed absent out of sight and the 3D model will truly assistance site visitors to comprehend exactly where it matches inside the making,” explained Dr Chris King, an archaeologist at the University of Nottingham. “Many site visitors can’t access the tower home exactly where the top secret space is situated, so this digital model allows them to practical experience the making and its story in a whole new way.”

To gather the visual data about the house and its priest gap, the Nottingham scientists utilized a technological know-how termed terrestrial laser scanning, a procedure which will involve rapidly acquiring 3D stage clouds using laser rangefinding. The procedure is regularly utilized in the surveying of architecture and landscapes.

The 3D scanned priest gap from a variety of angles (proven in white)

“Terrestrial laser scanning is an essential new technological know-how for recording historic monuments as [it can capture] a substantial amount of money of data pretty immediately,” stated Dr Lukasz Bonenberg of the Nottingham Geospatial Institute. “This is the first time that TLS has been utilized for the intent of visualizing concealed areas inside Tudor residences.”

The scientists are now wanting to safe funding to continue their exploration in other places, as they try to find priest holes in other historic areas throughout England.

“Digital visualizations of historic properties are critical applications for assisting the public to picture the earlier,” Bonenberg extra.

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Yonoh stunning 3D printed Perpetuum Calendar now available on OTHR

Jan 31, 2017 | By Tess

When most of us are growing progressively dependent on our smartphones—for conversation, up-to-day information, but also for the time and date—one style and design studio has taken it on alone to provide items back again a little bit, to remind us that we can, without a doubt, cope without having our hand-held screens. Spanish style and design studio Yonoh has made the Perpetuum Calendar, a 3D printed analogue calendar that incorporates an architectural aesthetic with tactile conversation.

Aspect of 3D printed homeware brand name OTHR’s slowly growing collection, the 3D printed calendar resembles a sort of 3-tiered ruler, which displays all the months and times of the thirty day period in a linear fashion. Two compact timepieces, which rest in the grooves earlier mentioned the thirty day period and working day sections, are meant to be moved manually each individual working day, conveniently and aesthetically trying to keep track of the day.

Yonoh founders Clara del Portillo and Alex Selma, who have designed all the things from flower pots to children’s parks, say their purpose with the Perpetuum Calendar was to develop some thing that expected human conversation, so drawing the user’s consideration absent from the seemingly ubiquitous display and back again to the actual physical planet, if only for an fast.

Interestingly, for the calendar’s style and design they have been inspired by architecture relationship back again to the twentieth century’s industrial revolution, also known as the Technological Revolution. As the designers condition on their web-site, “Perpetuum’s shape is a nod to the ‘sawbooth’ roofs of factories designed in the twenties and 30s. The calendar’s 3D printed material foundation emulates the era’s go toward the artificial, gracefully guiding an antiquated materials into the 21st century.”

As outlined, the minimalist 3D printed calendar is remaining featured on OTHR, an on line 3D printed homeware brand name that options the function of different designers. Shoppers can invest in the 3D printed calendar for $470 and choose from two distinctive finishes: grey metallic plastic or jet black nylon. Both equally solutions appear with 14K gold-plated timepieces.

OTHR, which very first released very last calendar year, was launched by designers Joe Doucet, Dean Disimone, and Evan Clabots. Alongside one another, they established out to make a brand name that featured functional but still gorgeous home products made utilizing technological production techniques, these kinds of as 3D printing. By partnering with noteworthy designers from all around the planet, OTHR has showcased a quantity of gorgeous 3D printed homeware pieces that are, thanks to their 3D printed nature, only created on an order-by-order basis.

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3D Systems acquires dental 3D printing materials company Vertex-Global Holding

Jan 31, 2017 | By Benedict

3D Programs has announced the acquisition of Vertex-Worldwide Keeping B.V., a dental elements corporation that materials goods underneath the Vertex and NextDent manufacturers. 3D Programs will use its Determine 4 3D printing procedure with NextDent 3D printing elements to create following-gen dental goods.

Named after a spectacularly forward-contemplating diagram in Chuck Hull’s original 1984 Stereolithography patent, 3D Systems’ Determine 4 3D printing technology could before long adjust the way that enterprises throughout a range of industries tactic producing. Determine 4, a expression that applies to the company’s new tactic to 3D printing somewhat than to a certain 3D printer, will encompass a range of modular additive producing units, every single designed to match seamlessly into the creation line and make 3D printing a viable creation tool. Although ideal for use in a range of sectors, 3D Programs (and Determine 4) has just taken a massive action to tackling the dental industry, with the 3D printing large saying the acquisition of dental elements corporation Vertex-Worldwide Keeping B.V.

As just one of the primary world wide companies of photopolymer, thermoplastic, polymer, and monomer elements for dental programs (3D printed and usually), Vertex Dental and NextDent represents an impressive order for 3D Programs, the South Carolina-headquartered 3D printing behemoth whose ProJet 3D printers are some of the world’s bestselling 3D printing devices. NextDent has developed twelve dental 3D printing elements to date, and has obtained regulatory approval for use of these elements in far more than 70 countries globally. The elements can be made use of to swiftly and charge-successfully fabricate trays, types, drilling templates, dentures, orthodontic splints, crowns, and bridges.

3D Programs states the acquisition will not have any harmful influence on Vertex and NextDent’s present functions, and plans to protect the whole products portfolio of the dental elements corporation when continuing to offer to its present prospects. There will, nonetheless, be a shakeup at the managerial level of both 3D Programs and Vertex-Worldwide, with Rik Jacobs, previous CEO of NextDent & Vertex Dental, shifting throughout to 3D Programs to direct the company’s globally dental organization. “We think 3D Programs is the ideal match to assist speed up adoption of 3D creation in the dental industry and drive innovation to following era methods,” Jacobs reported on behalf of NextDent & Vertex Dental. “We are delighted to be part of this incredible staff.”

In addition to the transfer of Jacobs to 3D Programs, Connie Peterse-van der Koppel, previously Main Improvement & Regulatory Officer of NextDent & Vertex Dental, will direct 3D Systems’ dental progress and regulatory endeavours. 3D Programs states that these leaders, with their respective teams, “will continue on to supply elements innovation, regulatory compliance, producing efficiency, and vertical methods knowledge to advance 3D Systems’ methods throughout health care and other verticals.”

3D Programs has said that it expects the acquisition to be right away accretive to its non-GAAP earnings for each share and cash era. President and CEO Vyomesh Joshi additional that he expects the acquisition to result in substantial-quality, following-era 3D printed dental goods: “With the combination of our disruptive Determine 4 platform and NextDent’s innovative elements, we have the unique prospect to supply transformative electronic creation methods from the dentist’s chair to the dental lab.”

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World’s first 3D printed graphene ‘little black dress’ unveiled in Manchester

Jan 31, 2017 | By Tess

We’ve long been aware of graphene’s material potentials—its exceptional conductivity, its lightness and strength—but we have to admit, we never thought we’d see it used to make a dress! Now, for the first time ever, wearable tech company CuteCircuit and the National Graphene Institute at the University of Manchester have used the groundbreaking material to construct a stunning little black dress, all with the help of 3D printing.

Graphene, the revolutionary material with strength 200 times greater than steel, unprecedented electrical and heat conductivity, and a unique transparent quality, has been touted as the material of the future, with the potential to impact almost every aspect of our daily lives, apparently even fashion.

The graphene dress was recently unveiled by CuteCircuit at the Trafford Centre in Manchester, the English city where scientists first isolated graphene, opening up the doors for research potential everywhere. If you’re still not totally convinced about graphene’s impact, the scientists who succeeded in isolating the atom-sized carbon form went on to win a Nobel Prize for their research. The material has also presented stunning opportunities within the 3D printing industry, including 3D printed graphene super batteries, and recently, a 3D printing material 10 times stronger and 20 times less dense than steel.

The dress, which is stunning to look at, contains so much more than meets the eye. With graphene sensors integrated into its structure, the dress is capable of doing some really amazing things. For starters, a contracting graphene band that fits around the wearer’s waist can monitor the wearer’s breathing rate, translating the rhythm to micro LEDs on the front of the dress, which changes colors and flashing frequencies according to the breathing patterns.

National Graphene Institute, Manchester

According to the University of Manchester, the 3D printed graphene filament used on the dress “shows the intricate structural detail of graphene in raised diamond shaped patterns and showcases graphene’s unrivalled conductivity with flashing LED lights.”

The amazing features of the dress can be controlled via the “Q” app, which CuteCircuit developed for the graphene garment. Cute Circuit, for those unfamiliar, is the London-based innovative wearable tech company that has gained recognition for its designs for artists the likes of Katy Perry and Nicole Scherzinger, who wore the famous and world’s first Twitter Dress.

The graphene dress, which is currently on display at the Trafford Centre, could be indicative of a future trend in fashion. Within the industry, many are hopeful that graphene, as a highly conductive, flexible, and transparent material, could be used to create wearable screens, so to speak, which could display digital images and be programmed by the wearer. Think of it as an ever-updating clothing item, with changeable colors, patterns, etc.

Francesca Rosella, chief creative director for Cute Circuit, commented on the project, saying, “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.”

Similarly, Dr. Paul Wiper, a research associate at the 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 graphene dress was commissioned by the Trafford Centre in Manchester to celebrate the city’s title as “European City of Science.” Once the dress is done being exhibited there, it will be available to museums and galleries for tech fashion displays.

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