News & Highlights

June 2026

Clarivate Live Webinar, June 18th, 16:00, CET

Data in biomedical research is being generated at an unprecedented scale. However, bringing these massive amounts of data together in a meaningful way can often be time consuming, difficult, and if done incorrectly, make you miss valuable insights. So what is the best way of connecting this ever-growing volume of information to enable intuitive exploration, explainable insights and scalable analytics that accelerate target discovery?
 
In this webinar, a biomedical knowledge graph containing more than 2.4 million nodes and over 10 million edges, will be introduced. You will see how this makes a strong foundation not only for hypothesis generation and exploratory analysis, but also for downstream machine learning, AI driven analytics, and graph based applications.
The webinar will answer the following questions:
  • What are the key advantages of using knowledge graphs for biomedical research?
  • What differentiates Clarivate’s biomedical knowledge graph from other approaches?
  • How can AI and natural language querying be applied to explore complex biomedical data?

Register for the webinar on June 18th at 4 p.m. CET on which it will be explored how a biomedical knowledge graph containing more than 2.4 million nodes and over 10 million edges aggregating proprietary, public and client-generated data transforms disconnected datasets into a single, interpretable network. Along with an AI-powered natural language interface, this allows scientists and non-experts to build a strong foundation for hypothesis generation, exploratory analysis, and more.

 

Register for the webinar

May 2026

Call for Papers: Special Issue on „Quantum Effects in Biological Systems (QuEBS)“

Quantum effects in biological systems have emerged as a rapidly developing research area at the interface of physics, chemistry, and the life sciences. Increasing experimental and theoretical evidence suggests that quantum phenomena such as coherence, tunneling, and spin-dependent processes may play a functional role in biological systems.

This Special Issue aims to showcase cutting-edge developments across this interdisciplinary field. Research topics include:

  • Quantum coherence, tunneling, and spin-dependent processes in biological systems
  • Quantum effects in photosynthesis, photobiology, and bioenergetics
  • Magnetoreception and related quantum sensing mechanisms
  • Theoretical and computational modeling of quantum biological phenomena
  • Quantum sensing and quantum-enabled measurement in biological environments
  • Engineered proteins and bio-inspired platforms for quantum technologies
  • Quantum approaches for health and biomedical applications

Submission deadline: 31 January 2027
Journal: Computational and Structural Biotechnology Journal (CSBJ) — Impact Factor 4.1, CiteScore 9.8
Guest Editor: Gábor Vattay, Eötvös Loránd University, Hungary
Submit: spj.science.org/journal/csbj/qbio

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