A multimodal infrared, Raman and fluorescence submicron imaging microscope. A new multimodal microscope system incorporating infrared, Raman and fluorescence imaging can study the chemical composition

Description

A multimodal infrared, Raman and fluorescence submicron imaging microscope. A new multimodal microscope system incorporating infrared, Raman and fluorescence imaging can study the chemical composition of single bacteria, plants, small organisms along with hard and soft materials at an unprecedented level of detail. This breakthrough technology has various applications in biology, aquatic chemistry, nanochemistry and forensic archaeology. The system will also support sustainable chemistry, material analysis, green energy and battery development, placing Australia at the forefront of multimodal materials characterisation. Overall, this advancement will deepen our understanding of the chemical and biological world and have broad-reaching benefits across multiple disciplines. . Scheme: Linkage Infrastructure, Equipment and Facilities. Field: 3401 - Analytical Chemistry. Lead: Prof Bayden Wood