Microscopy projects

We aim to accelerate our phenotyping of plant-nematode infection by prototyping new hardware for automated imaging.

A 3D imaging platform to capture root and shoot structural data to complement an aeroponics system.

A low-cost multi-purpose 3D digital photography phenotyping station

A multipurpose fungal morphology phenotyper

In-situ 3D visualization using X-ray CT during mechanical testing of natural cellular materials- like honeycombs and bones

A raspberry pi based cereal phenotyping device.

This is a Raspberry Pi Zero-based time-lapse photo / video camera to monitor plant-pollinator interactions in the field.

A low-cost SLM driver board would drastically increase the proliferation of advanced microscopy and holographic displays.

Learn how to build an incubator, grow your own dinoflagellates and build a multi-computer 3D imaging system.

Let's build an affordable and open-source dynamic light scattering device for nanoparticles sizing!

We aim to develop and characterize low-cost DIY microscopes that brewers can use to count yeast and check its viability for production.

This simple agarose device allows live imaging of the embryo models (gastruloids) self-organised in vitro.

A second camera for fluorescence imaging from two directions; automated illumination between acquisitions and 3D-printed sample holders.

Camera module built using uCube framework.

Light source module built using uCube framework.