Scientists have twisted DNA into programmable nanostructures that form themselves — and could reshape future materials for light, sound, and electronics.

This important study uses data on over 56 million articles to examine the dynamics of interdisciplinarity and international collaborations in research journals. The data analytics used to quantify ...

Many proteins are capable of spontaneously rearranging themselves within cells to form molecular condensates—membraneless ...

The term dementia is used to describe various debilitating neurological disorders characterized by a progressive loss of ...

Achieving high efficiency, long operational lifetime, and excellent color purity is essential for organic light-emitting ...

An AI algorithm could help to predict which patients might develop significant heart problems years in advance, just based on ...

While roboticists have introduced increasingly advanced systems over the past decades, most existing robots are not yet able ...

Innodata has rapidly transformed into a key AI data services provider, driving impressive revenue growth. Click here to read ...

Whole-mount 3D imaging at the cellular scale is a powerful tool for exploring complex processes during morphogenesis. In organoids, it allows examining tissue architecture, cell types, and morphology ...

The rise of AI-driven development, the proliferation of microservices, and the adoption of serverless architectures have redefined the skills and expertise required in the field. FAANG companies, in ...

A new paper from two University of Maine researchers explores the challenges and opportunities for scholars and practitioners when it comes to using AI to study and develop interventions for ...

When you log onto LinkedIn, you're normally presented with suggestions to connect with people you know, either because you ...