Imagine a Pt-Ni nanoparticle that can split water into hydrogen and oxygen with remarkable efficiency, or a perovskite quantum dot that emits bright light with minimal energy loss. For such ...

A University of Birmingham researcher developed a new high-throughput device that uses mechanochemical synthesis to create libraries of nanomaterials faster and more sustainably. Dr. Jason Stafford of ...

Announcing a new publication for Acta Materia Medica journal. The 3C-like protease (3CL pro) is a crucial target in anti-Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) drug design. The ...

A lab-on-a-disc system enables 90 precise and reproducible nanoparticle syntheses in minutes by automatically controlling reagent concentrations across parallel reactions with minimal manual input.

For decades, antibodies have been one of the crown jewels of modern medicine—powerful molecules that can neutralize viruses, tame autoimmune diseases, and revolutionize cancer care. Yet despite their ...

- The next frontier in oligonucleotide synthesis is the direct synthesis of gene-length sequences. - Ansa synthesized a 1005 base long oligonucleotide with industry-leading accuracy. - Ansa will be ...

Join us on 24 March to discover how retrosynthesis software, paired with application programming interfaces, can accelerate route design, virtual screening and practical synthesis decisions ...

The demand for renewable and bio-based polymer materials is increasing, and in order to address this need, rapid development cycles are required. Bio-based polyester have an incredibly large and ...

Biological targets represent a considerable test of our knowledge of the fundamental principles of molecular recognition. Effective modulation of biological events requires the generation of molecules ...