CAS Insights^TM

Explore some of the most successful recent applications of AI in research with experts from 3M, the Moffitt Cancer Center and Research Institute, and CAS.

Since many catalysts and reagents show sensitivity to moisture, water was often excluded as a potential solvent. Now, it appears that many organic transformations can be achieved either in water or on water without using harmful chemicals or volatile organic compounds as solvents.

Fungal infections represent a growing threat to global health. But while publications and clinical trials have declined recently, renewed interest from researchers and the pharmaceutical industry may lead to new breakthroughs.

MAIT cells are a relatively new discovery compared to other types of unconventional T cells, and researchers are making progress using them as “off-the-shelf” immunotherapies.

Once considered a scientific curiosity, static electricity is an age-old principle being revolutionized by the advent of triboelectric nanogenerators (TENGs).

Breakthroughs in assisted reproductive technology could overcome infertility challenges.

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.

Find out how the evolution of AI-powered technology is opening new possibilities in scientific fields ranging from personalized medicine to petrochemicals.

Watch the recording of our webinar where experts from CAS, AstraZeneca, and The Ohio State University explored the current landscape and future directions of lipid-based drug delivery.

Innovations in aerogel processing are making them potentially useful in applications beyond insulation, such as energy storage, catalysis, drug delivery, and more.

Advances in nanoscale drug delivery systems are addressing current microRNA therapy issues, which may lead to its becoming a more widely leveraged delivery method.

Preview the new CAS report, "Lipid-Based Drug Delivery Systems: Unlock the Future of Drug Delivery," with a snapshot of what we uncovered—the designs of the most commonly cited lipid-based DDS.

COVID-19 was the catalyst for large-scale mRNA vaccine development. Read about how this technology is now on a long-term path of to address a range of challenging diseases.

锂离子电池回收领域近年来涌现诸多创新。了解哪些新技术正在推动这一领域迈向更可持续的未来。

CAS 和德勤中国携手发布《锂离子电池回收》报告，该报告从商业和科学视角全面、深入地对这一快速发展行业进行分析。

OLED technology is advancing visual display capabilities for foldable screens, interactive displays and more

Concept co-occurrence analysis shows the newest ideas in scientific discovery and drives innovation in immuno-oncology.

Metal-organic frameworks improve decarbonization technology, biomedicine and more, and AI makes them easier to use

Why are there no FDA approved TBK1 (TANK-binding kinase) inhibitors on the market, despite the key role it plays in the pathophysiology of many diseases.

Science and wearable tech go hand in hand to provide athletes with precise, personalized information to improve their performance.

通过最近关于猴痘的头条新闻，了解更多关于研究布局、科学概况和目前可用的治疗方法的信息。对科学出版物有更深的理解，才能清晰地洞察这一新兴的新闻报道。

包括药物再利用、细胞疗法和基因疗法在内的联合疗法如何改善罕见病的治疗。

Uncover the latest advancements in understanding and treating neurodegenerative diseases like Alzheimer’s, Parkinson’s, and Huntington’s.

揭示搜索引擎功能，在广度和精确度之间取得平衡，以实现有效的科学研究。

Biomedicine, batteries, and more could be revolutionized by carbon nanotubes. See the full range of their applications.