3dmade
3dmade

3D Printed Miniaturised Analytical Device

press to zoom
3dmade
3dmade

3D Printed Miniaturised Analytical Devices

press to zoom
3D MADe
3D MADe

Assembled 3D MADe with QC Reports

press to zoom
3dmade
3dmade

3D Printed Miniaturised Analytical Device

press to zoom
1/5

3D MADe (3D Printed Miniaturised Analytical Devices) is an initiative to bridge the gap between project requirements and the commercially available analytical devices. It is supported by the University of Tasmania, the Australian Centre for Research on Separation Science, and the ARC Centre of Excellence for Electromaterials Science. We offer an ever-growing library of components and are always excited to hear your project requirements to customise or build new components for you.

Our aim is to empower researchers to personalise their analytical devices.

3D MADe

Radial Flow-cell

Radial Flow-cell

Radial flow-cell design from 3dMADe has proved to provide more than 90% increase in the chemiluminescence signal (peak area) compared to the commonly used spiral design, enabling high sensitivity chemiluminescence detection.

In-Situ Mixer Flow-Cell

In-Situ Mixer Flow-Cell

Obtain rapid mixing of the analyte and the chemiluminescence reagent within the detection region to minimise the signal loss and increase your chemiluminescence assay’s sensitivity.

Detector Interface

Detector Interface

This device from 3dMADe helps to quickly align all your required components to construct an on-capillary UV-Vis detector, such as an LED, a photodiode, an on-capillary flow-cell, etc. Moreover, this interface also allows you to obtain active liquid-based cooling of your LED to maximise the detector's performance.

Mixer

Mixer

Avail novel microfluidic T-mixers that allow rapid mixing of two streams by splitting and recombining them in complex three-dimensionally oriented micro-channels.

Pre-Concentrator

Pre-Concentrator

Avail pre-concentrators that are designed based on fluid dynamics to enhance sample pre-concentration by providing uniform flow distribution through the packed bed.

Flow-Cells

LC Column Bodies