Life sciences Using laser-printed sensors to understand birth malformations Laser-printed mechanical force sensors placed directly in the developing brains and spinal cords of chicken embryos could help understand and prevent birth malformations such as spina bifida. Latest Content Using laser-printed sensors to understand birth malformations From life sciences to industry: Advancements in optical filters Exploring the frontiers of optical filters New technologies Edmund Optics to distribute Chromacity's ultrafast lasers White papers From life sciences to industry: Advancements in optical filters This white paper explores the technical advancements and capabilities of Chroma Technology's filters, highlighting their applications and the company's approach to custom solutions. Webcasts On demand - Innovation Award Shortlist: Biophotonics and medical engineering More content Ultra-sensitive vibrational spectroscopy method advances cancer research Ångström-scale microscopy resolves ‘previously unimaginable’ biology Optical trapping single proteins in real time Optical trapping and observing the smallest proteins 'answers fundamental questions about life' Industry outpacing GDP: Photonics Frontiers 2024 Case study: A flexible approach for fluorescence imaging photonics AI utilised to improve retinal imaging results "Ideal laser illumination for MERFISH, STORM, PALM and PAINT" is readily within reach Navigating the evolution of light-sheet microscopy through time and technology Microprisms advance fluorescence deep brain imaging UK invests £485m to digitise natural history samples and build powerful ultrafast microscope Photoacoustic imaging watch created to monitor blood on the move Pagination Previous page ‹ Previous Page 2 Next page Next ›