Every year, millions of windshields are replaced worldwide, leaving behind a significant amount of waste in the form of the polyvinyl butyral (PVB) interlayer, which keeps shattered glass together. Recycling this material is complex and costly, often resulting in low-quality materials unsuitable for reuse. The sheer volume of PVB waste is substantial — over 175…
Why FDA’s decided to ban red dye No. 3, setting 2027 deadline for food, 2028 for drugs
Over a century after synthetic dyes first hit the scene, the U.S. Food and Drug Administration (FDA) has finally pulled the plug on one of their most notorious members: red dye No. 3. Known for lending a vivid crimson hue to a range of food products, this additive has been under scrutiny for decades—banned in…
The battery that eats itself: Fungal power with a built-in cleanup crew
Batteries have recently come in various configurations: stretchable, as discussed in R&D World’s article “Stretchable batteries and body-conformable electronics poised to advance in 2025,” and batteries using alternative chemistries, including lithium-iron-phosphate (LFP) and sodium-ion (SIBs), among others. One battery material that might not have been on your bingo card is fungi. Researchers at Empa have…
R&D 100 winner of the day: Vero AFM
In atomic force microscopy (AFM), numerous incremental improvements have been made, yet relatively few new products showcase transformative technologies and capabilities. Asylum Research has been a player in the AFM industry since its founding in 1999. By implementing closed-loop scanning, the MFP-3D AFM (2002) achieved significant advancements in the accuracy of AFM imaging metrology. The…
Imec demonstrates long-term outdoor stability of perovskite solar modules
Imec, a partner in EnergyVille, in collaboration with the University of Cyprus, has reported significant progress in the development of perovskite solar modules, demonstrating long-term outdoor stability after two years of real-world testing. Mini-modules measuring 4 cm² retained 78% of their initial power conversion efficiency (PCE) after one year in outdoor conditions in Cyprus. This…
A tale of two STEM futures: Data roles surge while some traditional engineering disciplines face headwinds
As 2025 gets underway, concerns are mounting about the stability of some high-paying STEM and R&D roles in an economy many once believed would remain recession-proof for engineers, software developers, and research scientists. A few bright spots include quickly-growing positions such as data scientists (36% growth, $108,020 median pay, according to BLS in 2024), computer…
R&D 100 winner of the day: Broad PANGUJIE filler wire
The automotive industry faces a challenge in balancing the need for fuel-efficient lightweight materials to improve the range of electric vehicles with solid and safe vehicles to protect passengers. Aluminum-silicon-coated press-hardened steels (PHS) are a promising solution, but these materials pose a unique challenge in laser welding. The presence of the Al-Si coating often leads…
National Lab collaboration advances nuclear reactor inspections with faster, safer techniques
A partnership between the Idaho National Laboratory (INL) and the Oak Ridge National Laboratory (ORNL) is streamlining inspections of nuclear reactor components and materials by using advanced algorithms and advanced imaging technology. Initially focused on additively manufactured nuclear parts, the collaboration has expanded to include inspections of nuclear fuel, enabling quicker and safer evaluations. Key…
Flint secures $2M seed funding to advance sustainable paper battery technology
Flint, a deep-tech startup based in Singapore specializing in cellulose-based paper batteries, has raised $2 million in seed funding to accelerate the commercialization of its sustainable energy storage solutions. The funding round, led by a consortium of international angel investors and AI-driven venture capital firm Hatcher+, will support pilot production, intellectual property development, and expansion…
R&D 100 winner of the day: Tunable knitted stem cell scaffolds
Stem cell therapy shows promise in healing damaged tissues, yet existing scaffolds often do not replicate the natural flexibility of human tissue. This can result in cell detachment, death, and even secondary injury during recovery. Researchers at MIT Lincoln Laboratory, along with co-developers from the MIT Department of Mechanical Engineering, have created a new type…
Stretchable batteries and body-conformable electronics poised to advance in 2025
Stretchable, wearable gadgets took a significant stride in 2024, thanks to a flurry of breakthroughs that could make soft, body-conformable electronics and power sources a reality. Researchers worldwide have unveiled improvements in flexible, high-precision sensors and displays, while engineers in China revealed a self-healing, stretchable lithium-ion battery that could power next-generation wearables. Meanwhile, LG Display…
ISS National Lab publication showcases pioneering physical science research in space
A paper published in Gravitational and Space Research reveals insights from research sponsored by the International Space Station (ISS) National Laboratory on transport phenomena. Transport phenomena are fundamental physical processes involving momentum, energy, and mass transfer. They describe how heat and matter move through their surroundings, such as how heat radiates from a stove or how a…
PPPL leading two CHIPS and Science Act projects
The U.S. Department of Energy (DOE) has awarded two grants to the Princeton Plasma Physics Laboratory (PPPL) as part of a significant effort to advance microelectronics and sensors. Each project will receive $3 million per year for four years, recognizing PPPL’s expertise in plasma processes, which are crucial for the continued development of semiconductor manufacturing…
New material could transform carbon capture at much lower cost
In collaboration with the University of Edinburgh, researchers at Teesside University are developing a novel material called CalyChar that could significantly reduce atmospheric carbon dioxide at a fraction of the cost of current technologies. This material can potentially capture 3.5–5 million tons of CO2 annually in the U.K. and nearly 30 million tons globally by…
Ames National Lab researchers tackle material challenges to commercialize fusion power
Researchers from Ames National Laboratory and Iowa State University, funded through ARPA-E’s CHADWICK program, are developing materials for the “first wall” in fusion reactors. This wall faces extreme temperatures, radiation, and magnetic environments and must efficiently transfer heat for electricity production. Two layers are required: a tungsten-based refractory material facing the plasma and a structural…
R&D Market Pulse: US tax policy could spur R&D investment, more than one-third of manufacturers using AI
As 2024 nears its end, global R&D-driven industries are navigating a mix of policy shifts, strategic realignments, and accelerating innovation. A proposed policy change could transform how U.S. companies expense their R&D investments, while manufacturing floors are seeing surging AI integration with over a third of companies successfully deploying the technology. In automotive, GM is…
Study explores solid-phase manufacturing to upcycle metal scrap into high-value alloys
A new study by researchers at the Department of Energy’s Pacific Northwest National Laboratory (PNNL) demonstrates that scrap aluminum from industrial waste can be directly transformed into high-performance alloys without conventional melting processes. Published in Nature Communications, the study outlines a method called solid phase alloying, which provides a cost-effective and environmentally sustainable pathway for…
Behind the scenes with R&D 100’s top technician of 2024
A senior scientific engineering associate at Berkeley Lab, Howdy Goudey was named the R&D 100 Technician of the Year Award winner for his pioneering work in building energy efficiency and window technologies. During his thirty years at Lawrence Berkeley National Laboratory, Goudey’s work has proven instrumental in developing sustainable building technologies, such as vacuum-insulated windows…
Researchers explore synthetic production of snail mucus protein for biomedical applications
Two Johns Hopkins University researchers have initiated preliminary work on synthesizing epiphragmin, a key protein found in snail mucus, with potential biomedical applications. The project aims to develop laboratory-based protein synthesis protocols as an alternative to traditional snail mucus extraction methods, as a press release noted. Marie Wei, studying molecular and cellular biology and classics,…
Researchers explore sunlight-based recycling for black plastic waste
A new method for recycling black polystyrene plastics, such as coffee lids and food containers, could help divert these materials from landfills. The approach, reported in ACS Central Science, uses sunlight or white LED light to transform black and colored polystyrene waste into reusable chemical components. Black plastics are notoriously difficult to recycle due to…
Researchers report enhanced seawater evaporation using modified clay-hydrogel system
Researchers from the University of South Australia, in collaboration with Chinese colleagues, have documented an 18.8% increase in seawater evaporation rates compared to pure water through the integration of mineral materials into photothermal hydrogel evaporators. The study, published in Advanced Materials, demonstrates a new approach to interfacial solar-powered desalination that addresses both surface salt accumulation…
Johns Hopkins APL demonstrates temperature-responsive antenna using 3D-printed shape memory alloys
Researchers at Johns Hopkins Applied Physics Laboratory have documented the successful fabrication of a shape-morphing antenna using additive manufacturing of modified nitinol, demonstrating temperature-controlled transformation between flat spiral and conical configurations. The researchers describe the work, published in ACS Applied Engineering Materials, as an empirical validation of shape memory alloy (SMA) application in reconfigurable RF…
Korean researchers report development of magnetic 3D printing process for motor manufacturing
Researchers at the Korea Institute of Machinery & Materials (KIMM) say they have developed a magnetic 3D printing system for motor fabrication that eliminates the need for traditional molds. While the team claims successful performance validation, the results to date are only shared in a press release, which notes the development of an “all-encompassing technological…
Idemitsu expands partnership with Enthought to accelerate battery material innovation
Integrated energy company Idemitsu Kosan Co. (Idemitsu) has expanded its partnership with Enthought, a specialist in digital transformation for science-driven companies. This move supports Idemitsu’s ambition to scale the development and production of innovative battery materials. The expanded partnership will include new technical consulting and implementation services and continued participation in Enthought’s Materials Informatics (MI)…
The emerging materials shaping next-generation semiconductor electronics
The relentless demand for faster, smaller and more efficient electronic devices is finally pushing existing silicon technology to its physical limits. Decades of phenomenal innovation have largely delivered the prophesy of Moore’s Law, which predicts that the number of transistors that can be crammed onto a silicon chip should double every two years, but there…