American Made Advocacy: Smart Policies Can Ensure AI Data Centers Are Secure
Beyond the Board: Early Engagement Means Faster Prototyping for Defense Programs
Defense Speak Interpreted: The Autonomous Plane Battle—Skyborg Vs. Loyal Wingman
New Research Shows How Paper-Cutting Can Make Ultra Strong, Stretchable Electronics
April 4, 2018 | University at BuffaloEstimated reading time: 1 minute
Like a yoga novice, electronic components don’t stretch easily. But that’s changing thanks to a variation of origami that involves cutting folded pieces of paper.
In a study published April 2 in the journal Advanced Materials, a University at Buffalo-led research team describes how kirigami has inspired its efforts to build malleable electronic circuits.
Their innovation — creating tiny sheets of strong yet bendable electronic materials made of select polymers and nanowires — could lead to improvements in smart clothing, electronic skin and other applications that require pliable circuitry.
“Traditional electronics, like the printed circuit boards in tablets and other electronic devices, are rigid. That’s not a good match for the human body, which is full of bends and curves, especially when we are moving, says lead author Shenqiang Ren, professor in the Department of Mechanical and Aerospace Engineering.
“We examined the design principles behind kirigami, which is an efficient and beautiful art form, and applied them to our work to develop a much stronger and stretchable conductor of power,” says Ren, also a member of UB’s RENEW Institute, which is dedicated to solving complex environmental problems.
The study, which includes computational modeling contributions from Temple University researchers, employs nanoconfinement engineering and strain engineering (a strategy in semiconductor manufacturing used to boost device performance).
Without kirigami, the polymer—known as PthTFB—can be deformed up to 6% from its original shape without changing its electronic conductivity. With kirigami, the polymer can stretch up to 2,000%. Also, the conductivity of PthTFB with kirigami increases by three orders of magnitude.
The advancement has many potential applications, including electronic skin (thin electronic material that mimics human skin, often used in robotic and health applications), bendable display screens and electronic paper. But its most useful application could be in smart clothing, a market that analysts says could reach $4 billion by 2024.
The research was supported the U.S. Department of Energy.
Share on:
Testimonial
"In a year when every marketing dollar mattered, I chose to keep I-Connect007 in our 2025 plan. Their commitment to high-quality, insightful content aligns with Koh Young’s values and helps readers navigate a changing industry. "
Brent Fischthal - Koh YoungSuggested Items
Aircraft Wire and Cable Market to surpass USD 3.2 Billion by 2034
10/30/2025 | Global Market Insights Inc.The global aircraft wire and cable market was valued at USD 1.8 billion in 2024 and is estimated to grow at a CAGR of 5.9% to reach USD 3.2 billion by 2034, according to recent report by Global Market Insights Inc.
Honeywell Announces Updated Business Segment Structure Ahead Of Aerospace Spin-Off
10/28/2025 | HoneywellHoneywell announced its updated business segment structure ahead of the planned separation of its Aerospace Technologies business, expected in the second half of 2026, and its Solstice Advanced Materials business, expected to be completed on October 30, 2025.
Lockheed Martin Signs Strategic Partnership Framework with Korean Air
10/28/2025 | Lockheed MartinLockheed Martin is collaborating with Korean Air to explore opportunities to support the U.S. government’s (USG) Regional Sustainment Framework (RSF) initiative, as well as expand Maintenance, Repair, Overhaul & Upgrade (MROU) cooperation to third-country markets.
The Republic of Korea Selects L3Harris for Airborne Early Warning and Control Aircraft Program
10/20/2025 | BUSINESS WIREL3Harris Technologies has received a contract to deliver modified Bombardier Global 6500 airborne early warning and control (AEW&C) aircraft to the Republic of Korea Air Force.
Molex Announces Agreement to Acquire Smiths Interconnect
10/17/2025 | MolexMolex, a leading global electronics connectivity innovator, announced that it has signed an agreement to acquire Smiths Interconnect.