Zentek has completed the sale of its property that houses its corporate office and laboratory space.
Under the terms of the agreement, the Buyer paid Zentek an aggregate purchase price of $2.5 million. The Company will lease back the Property from the Buyer until January 31, 2026, allowing for a transition period and uninterrupted operations.
PC maker Acer has released multiple announcements about new and upcoming AI-powered laptops, desktops, earbuds, and smart rings. Among these, the Company unveiled a slim Predator Triton 14 AI gaming laptop which Acer called 'the industry's first laptop with graphene thermal interface materials (TIM) in the CPU to help keep it cool'. A similarly appointed laptop, the Predator Helios Neo 14 AI will also be available, along with a Predator Orion 3000 gaming desktop that houses a INtel Core Ultra 7 processor and the same GPU as the two laptops.
The Predator Triton 14 AI is aimed at creators, professionals, and gamers who need substantial power in a lightweight build. What is known about the graphene thermal interface material on the CPU is that it is said to deliver 14.5% better heat dissipation compared to standard thermal grease. Dual 6th Gen AeroBlade metal fans and a vapor chamber further improve cooling.
Zinc-ion batteries based on water-based electrolytes are inherently safe, environmentally friendly, and economically viable. They also mitigate fire risks and thermal runaway issues associated with their lithium-based counterparts, which makes them lucrative for grid-scale energy storage. Furthermore, zinc has high capacity, low cost, ample abundance, and low toxicity. Unfortunately, current collectors utilized in zinc-ion batteries, such as graphite foil, are difficult to scale up and suffer from relatively poor mechanical properties, limiting their industrial use.
Image credit: Dongguk University, Republic of Korea
In a new study, a team of researchers from the Republic of Korea, led by Associate Professor Geon-Hyoung An at the Department of Energy and Materials Engineering at Dongguk University, has proposed graphene-coated stainless steel foil as a novel alternative current collector.
NanoXplore has reported its financial results for the three-month and nine-month periods ended March 31, 2025. Key financial highlights for Q3-2025 include total revenues of CAD$30,446,165 (around USD$21,770,000) compared to CAD$33,867,747 (about USD$24,200,000) last year, representing a 10% decrease; Loss of CAD$1,747,714 (around USD$1,250,000) compared to CAD$3,089,430 (around USD$2,209,000) last year.
In addition, the total long-term debt stands at CAD$4,940,740 (about USD$3.533.000) as of March 31, 2025, down by CAD$1,405,763 (USD$1,005,000) compared to June 30, 2024.
Archer Materials, a semiconductor company advancing the quantum technology and medical diagnostics industries, has extended its relationship with Queen Mary University of London (QMUL) to build on critical milestone work for qubit demonstration, as part of Archer’s quantum technology program. The cost of the six month extension is estimated at around A$279,000 or £136,000.
Work already completed with QMUL has reportedly been a key part of Archer’s development program. The work being done with QMUL, combined with
Archer’s demonstration of coupling of spins to superconducting resonator micro-devices, provides the first building blocks for both readout and control of the electron spins in a qubit. Archer has introduced the CQ chip and in working with QMUL, it is improving the functionality of this project by using graphene to make electrical contact with the carbon nanosphere spin material.
Argo Living Soils has announce that, following its May 5, 2025 news release regarding the research and development ("R&D") agreement with Graphene Leaders Canada Inc. ("GLC"), Argo is now in discussions to expand its R&D agreement to include the development of graphene-infused asphalt solutions.
The expanded agreement will leverage GLC's advanced graphene nanoplatelet ("GNP") dispersion capabilities alongside Argo's expertise in sustainable technology to explore the potential of graphene-infused asphalt for infrastructure applications. The focus will be on research and development to design and test graphene GNP formulations for asphalt, with independent testing planned to assess performance.
Interest in graphene has been on the increase over the past few years, and graphene is expanding into new applications, in a wide range of areas, from electronics and energy storage to automotive, aerospace, thermal management, composites, and construction.
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