CAS Insights^TM

As a new Ebola outbreak emerges, research into this devastating disease continues to accelerate. Discover how scientists are developing vaccines and therapeutics while confronting the challenge of sustaining innovation between crises.

Three experts from CAS, the University of Messina, and the Coriell Institute break down how epigenetics has evolved from a niche research area into a clinical force, with 13 FDA-approved drugs, 2,200+ active trials, and a fast-growing diagnostic toolkit reshaping how we detect and treat cancer.

For high-performance technologies in power electronics, energy storage, and optoelectronics, semiconductors need to offer performance beyond standard silicon. Wide bandgap semiconductors can handle the high‑voltage, high‑temperature, and high‑frequency conditions of these emerging applications.

Hantavirus, a rodent-borne RNA virus with case fatality rates up to 40%, is reshaping zoonotic disease risk amid environmental change and global mobility.

Quantum computing includes many methods and types of qubits, and certain materials are key for developing these computing capabilities.

Cyclic peptides are improving treatments for cancer, inflammatory and infectious diseases, and more as oral delivery methods are improved.

Scientific R&D teams face real barriers to AI adoption. Learn how structured data, expert collaboration, and the Triangle of Success framework drive meaningful AI maturity.

Vector-borne diseases are spreading to new regions as climate change intensifies, and public health systems need more treatment options to limit the impacts.

Spiro[2.3]hexanes are an example of promising yet challenging scaffold structures for new drug compounds. By using AI-powered predictive analytics with CAS BioFinder, researchers more efficiently identified candidates for validation.

Point-of-care testing goes beyond pandemic-era viral infection tests to bring faster diagnostics for infectious diseases, chronic conditions, cancer, and more.

Reducing or removing solvents results in greener chemistry and less waste. Mechanochemistry uses forces like milling and grinding to drive chemical reactions, and it’s becoming a key approach to environmentally friendly catalysis, biomedicine, and more.

Summary of our recent webinar, featuring experts from CAS, the National Institute of Standards and Technology (NIST), and the University of Manchester, discussing the research landscape of microelectronics research and breakthroughs.

Biomass is currently just a fraction of our energy sources, but with more sustainable feedstocks and conversion processes, biomass-based chemicals and fuels could become common replacements for fossil fuel-based materials.

CAS hosted Life Sciences Summits across three regions in 2025, exploring practical AI integration in drug discovery. Learn about data governance, implementation barriers, and modality-specific challenges.

New Nipah cases in India have renewed focus on a high‑fatality zoonotic threat shaped by complex spillover dynamics, severe neurological disease, and limited medical countermeasures. Meanwhile, global efforts in diagonistcs, therapeutics, and vaccines are accelerating.

이중특이적 T 세포 인게이저는 생산 공정의 단순성과 새로운 안전성 진전을 바탕으로 핵심 면역치료제로 자리 잡을 가능성이 높습니다.

마이크로전자와 같이 방대한 분야에서 연구자들은 어떻게 새로운 트렌드를 포착할 수 있을까요? 본 분석은 소재, 소자, 응용 분야, 제조 공정 전반에서 나타나는 주요 돌파구를 보여줍니다.

후성유전학은 DNA 염기서열의 변화 없이 유전자 발현이 달라지는 과정을 연구하는 분야입니다. 이러한 메커니즘에 대한 이해는 보다 개인화된 의료와 혁신적인 치료법 개발로 이어지고 있습니다.

전고체 배터리는 더 높은 에너지 밀도, 더 긴 수명, 향상된 안전성을 통해 리튬이온 기술을 한 단계 끌어올립니다.

최근 특허 급증은 탄소 포집 기술이 산업 탈탄소화 노력을 뒷받침할 준비가 되었음을 보여줍니다.

AI 기반 컴퓨터 비전은 시각 데이터 세트를 분석함으로써 이미지가 활용되는 모든 분야에서 더 빠른 혁신을 가능하게 합니다. 이는 오늘날 거의 모든 과학 분야에 해당합니다.

다공성, 안정성, 조절 가능한 물성을 갖춘 COF는 촉매, 바이오센서 등 다양한 응용 분야에서 노벨상 수상 기술인 MOF와 유사하게 활용될 수 있으며, 동시에 더 지속 가능한 대안을 제시합니다.

2026년 과학 분야에서 가장 큰 동향은 무엇인가요? 가장 큰 영향을 미칠 지속가능성, 신약 개발, 재료 과학 분야의 혁신에 대해 알아보세요.

이 CAS Insights 웨비나에서는 AI 기반 솔루션부터 기계 화학에 이르기까지 주목해야 할 최신 그린 케미스트리 동향을 살펴봅니다.

영화 추천의 기반이 되는 AI 기술인 앙상블 모델이 과학 연구와 선행 기술 검색을 어떻게 혁신하고 있는지 알아보세요.