Bio
マゲーシュ氏は、IITマドラス校で化学のPh.Dを取得し、6年間のポスドク研究経験と出版業界での豊富な専門知識を生かして、シニア科学情報アナリストとして活躍しています。彼は深い科学の知識とデータサイエンスの専門知識を組み合わせて、化学、エネルギー、および材料科学にまたがる洞察に富んだ分析と記事を作成しています。
エマージング・サイエンス
産業用途へと拡大する炭素回収技術
最近の特許の急増は、炭素回収技術が産業の脱炭素化の取り組みを支援する準備ができていることを示しています。
エマージング・サイエンス
Thermal energy storage makes the leap to commercial usage
Thermal energy storage systems leverage specialized materials and processes that absorb, store, and release thermal energy as needed. What role can they plan in helping to make renewable energy more efficient?
エマージング・サイエンス
Could lithium from seawater meet our growing demand for rechargeable batteries?
There are about 200 billion metric tons of lithium in the ocean, and researchers are exploring new ways to extract this element from seawater more efficiently.
材料
Materials science breakthroughs 2025: Trends to watch
2025 trends in materials science including breakthroughs in metamaterials, industrial decarbonization, and consumer goods.
エマージング・サイエンス
Five pathways to industrial decarbonization
Five industrial decarbonization strategies can lower emissions even for the sectors with the largest carbon footprints.
材料
Are metal-organic frameworks (MOFs) at a commercial tipping point?
Metal-organic frameworks improve decarbonization technology, biomedicine and more, and AI makes them easier to use
材料
Goldene—advancing new applications on the promise of graphene
The opportunities and challenges facing the development of goldene
持続可能性
How to improve solar panel recycling
As solar panel usage increases, researchers are looking for new methods to tackle PV waste.
材料
Biomedical breakthroughs in self-healing materials
See how self-healing materials that include reversible chemical bonds are reshaping wound care, drug delivery & tissue regeneration in our latest landscape analysis.
持続可能性
Hydrogen needs cleaner production: Photocatalysis is the answer
Learn how photocatalysis can produce clean hydrogen from water and solar energy and why it is crucial for decarbonization.