Cuttable Display Sheets Developed
July 28, 2016 | NIMSEstimated reading time: 2 minutes
NIMS developed new display sheets that can be cut into any shape with scissors.
A research group led by Masayoshi Higuchi, the leader of the Electronic Functional Macromolecules Group, Research Center for Functional Materials, NIMS, developed new display sheets that can be cut into any shape with scissors. As you can cut this display into any shape you like, and attach it on the surfaces of things that has complex shapes such as clothing and buildings, the display is expected to meet diverse display needs, which cannot be achieved by conventional display technologies.
Common displays (including LCD and OEL) that are capable of showing letters and images are equipped in most of the electronic devices we use in our everyday life. Also, there are increase in demand for displays that can present information in a variety of forms, such as digital signage and wearable devices. However, it is impossible to cut these conventional displays into various shapes because it is necessary to seal the contents of both LCDs and OELs, for example, as the LCDs contain liquid and OELs are susceptible to water, oxygen and other impurities. Moreover, since these displays require continuous power supply to maintain their functions, they must be connected with a power source or a drive. Due to these requirements, it had been difficult to develop cuttable displays using existing technologies.
The research group developed display sheets that can be cut into any shape with scissors, using a polymer with electrochromic properties (organic/metal hybrid polymer). This polymer can be sprayed onto a flexible substrate to form a coating layer stable against moisture and oxygen. In addition, the new display requires only a few seconds of electrical input to switch visual information, and the display will last even after power supply is discontinued. Accordingly, we successfully developed a sheet type display device capable of functioning while being detached from a power source and after being cut into a shape.
In future studies, we aim to increase the display area and make it capable of showing multicolor. We also intend to propose a concept called “new life style in which people can enjoy changeable colors in everything.” In this proposal, we envision the application of the new technology in society whereby people can freely change the colors of various objects/items, e.g. windows, the interior or exterior of motor vehicles and buildings, umbrellas and sunglasses, and can display letters and symbols as appropriate.
This study was conducted under the project “Ultrafast, ultralow-power, ultralarge-area electrochromism” (Masayoshi Higuchi, Research Director) in the research area “Innovative nano-electronics through interdisciplinary collaboration among material, device and system layers” (Takayasu Sakurai, Research Supervisor) as part of the Strategic Basic Research Programs (specifically the CREST program) sponsored by the JST.
Suggested Items
Physicists Create Optical Component for 6G
05/20/2024 | SkoltechA joint team of physicists from Skoltech, MIPT, and ITMO developed an optical component that helps manage the properties of a terahertz beam and split it into several channels.
It’s Only Common Sense: More Great Business Ideas from ‘Breaking Bad’
05/20/2024 | Dan Beaulieu -- Column: It's Only Common SenseI was cruising around YouTube the other day and came across a 10-year reunion of the cast of “Breaking Bad.” What a great show. So, I searched through my streaming channels, landed on the series, and started rewatching it. Then I remembered I had written a column about business ideas from the show. Once I re-read my column, I realized I had not even touched the surface of all the great advice in both business and life that one could get from that great series.
Indium Experts to Present on High-Temperature, Lead-Free Solder Paste and High Reliability Liquid Metal Alloys Poster at ECTC
05/16/2024 | Indium CorporationIndium Corporation Research Associate Kyle Aserian will deliver a presentation at the 74th Electronic Components and Technology Conference (ECTC) on May 31, in Denver, Colorado.
Altair Acquires Research in Flight, Forging a New Path for Aerodynamic Analysis
05/07/2024 | AltairAltair a global leader in computational intelligence, announced it has acquired Research in Flight, maker of FlightStream®, which provides computational fluid dynamics (CFD) software with a large footprint in the aerospace and defense sector and a growing presence in marine, energy, turbomachinery, and automotive applications.
Altair Acquires Research in Flight, Forging a New Path for Aerodynamic Analysis
05/03/2024 | AltairAltair a global leader in computational intelligence, announced it has acquired Research in Flight, maker of FlightStream®, which provides computational fluid dynamics (CFD) software with a large footprint in the aerospace and defense sector and a growing presence in marine, energy, turbomachinery, and automotive applications.