Quantum Server Networks
07/11/2025
Researchers from Kanazawa University and their international collaborators have developed a new low-cost laser deposition method for producing high-entropy alloy (HEA) films, eliminating the need for expensive pre-alloyed targets traditionally used in thin-film manufacturing.
By using a rotating multicomponent target composed of pure metal segments, the team achieved uniform, durable HEA coatings with exceptional mechanical strength, thermal stability, and corrosion resistance — opening a pathway toward scalable applications in aerospace, energy, and industrial manufacturing.
This breakthrough demonstrates how laser materials engineering and surface science can enable sustainable, high-performance coatings that combine reduced costs with enhanced functionality.
Read the full review on Quantum Server Networks:
🔗 https://quantum-server-materials.blogspot.com/2025/11/a-simpler-low-cost-route-to-high.html
A Simpler, Low-Cost Route to High-Entropy Alloy Films: Kanazawa University’s Laser Deposition Breakthrough Please find under this blog the latest updates on exciting news happening every day in the world of Materials Science and Materials Chemistry research and development (with a special emphasis on the Computational aspects of these research fields), via our diverse selection of news articles! Many tha...
07/11/2025
Researchers at Tohoku University have discovered that the promising catalyst RhRu₃Oₓ changes its reaction mechanism depending on temperature — offering key insights into how to design more efficient and durable materials for water-splitting and hydrogen production.
The study reveals a temperature-triggered switch between two pathways — the adsorbate evolution mechanism (AEM) and the lattice oxygen mechanism (LOM) — allowing scientists to fine-tune performance for specific electrochemical systems.
This breakthrough provides a new way to engineer next-generation catalysts for green hydrogen technologies, helping accelerate the transition toward sustainable energy.
Read the full review on Quantum Server Networks:
🔗 https://quantum-server-materials.blogspot.com/2025/11/temperature-driven-mechanism-shift-in.html
Temperature-Driven Mechanism Shift in RhRu₃Oₓ Catalysts Could Boost Water-Splitting Efficiency Please find under this blog the latest updates on exciting news happening every day in the world of Materials Science and Materials Chemistry research and development (with a special emphasis on the Computational aspects of these research fields), via our diverse selection of news articles! Many tha...
07/11/2025
A research team led by Yale University has unveiled a revolutionary way to create nanomaterials using an electrified atomic v***r system that operates at atmospheric pressure — making the process faster, cheaper, and more sustainable than traditional vacuum-based methods.
Known as Electrified V***r Deposition (EVD), this breakthrough enables the synthesis of highly pure and uniform nanomaterials for use in electronics, energy storage, semiconductors, and aerospace coatings — all without the need for complex plasma or laser systems.
This advancement, published in Nature Synthesis, could transform how industries design and manufacture nanostructured materials on a large scale.
Read the full review on Quantum Server Networks:
🔗 https://quantum-server-materials.blogspot.com/2025/11/electrified-atomic-v***r-deposition.html
***rDeposition ***rPhaseSynthesis
Electrified Atomic V***r Deposition Unlocks a New Frontier for Nanomaterial Synthesis Please find under this blog the latest updates on exciting news happening every day in the world of Materials Science and Materials Chemistry research and development (with a special emphasis on the Computational aspects of these research fields), via our diverse selection of news articles! Many tha...
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