Australian Bespoke Biofabrication

From Idea to
Prototype
in 2 Days

Australia's leading provider of custom microfluidic devices, organ-on-chip systems, and bio-scaffolds — designed to your exact specifications.

Request a Quote Services
2 Day Turnaround
|
100% Bespoke
|
Uni Backed
Why BioFabriX?

The Fastest Path from Concept to Device

We combine world-class university research with a professional fabrication service to deliver bespoke biological devices faster than anyone else in Australia.

University-Backed Expertise

Rooted in world-class university research, we bring cutting-edge science directly to your lab bench.

2-Day Prototype Delivery

Receive a fully fabricated, quality-tested device prototype in just two business days from design approval.

Fully Bespoke Solutions

Every device is custom-designed to your exact experimental requirements — no off-the-shelf compromises.

PhD-Qualified Team

Our team holds advanced degrees in bioengineering, ensuring the highest level of scientific rigour in every device.

Innovation

Our Technology

Our fabrication platform combines state-of-the-art microfabrication methods with biological engineering expertise to deliver devices that perform at the cutting edge of biomedical research.

01

Precision Soft Lithography

Our master mould fabrication using high-resolution photolithography achieves channel dimensions down to 5 µm, with programmable depth control and multi-layer capability for complex 3D channel networks.

02

PDMS Microfluidic Chips

Polydimethylsiloxane casting and precision oxygen plasma bonding delivers optically clear, biocompatible devices with gas permeability ideal for long-term cell culture and real-time imaging.

03

Rapid Prototyping Pipeline

Our in-house clean-room facility and parallelised fabrication workflows eliminate the typical weeks-long lead time — delivering functional, tested prototypes within 2 business days of design sign-off.

Detailed Technology Overview

In-depth content — including fabrication protocols, device characterisation data, platform schematics, and technology comparisons — will be added to this section. Contact us directly for technical documentation or collaboration enquiries.

Content coming soon
What We Make

Our Fabrication Services

From simple channel networks to complex multi-layer organ-on-chip devices — we fabricate the tools your research demands.

Microfluidic Devices

Custom PDMS and thermoplastic microfluidic devices manufactured with precision soft lithography, tailored to your channel geometries and flow requirements.

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Organ-on-a-Chip

Physiologically relevant microphysiological systems that replicate human organ function for drug testing, disease modelling, and personalised medicine research.

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Lab-on-Chip Prototyping

Rapid prototyping of integrated lab-on-chip platforms combining microfluidic sensing, mixing, separation, and detection functionalities.

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Bio-Scaffold Fabrication

Custom 3D bio-scaffolds and hydrogel matrices engineered for tissue engineering, cell culture, and regenerative medicine applications.

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Biosensor Integration

Integration of electrochemical and optical biosensors into your microfluidic platform for real-time, in-line measurement of biological analytes.

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Design & Consultation

Expert consultation from concept through to detailed CAD design and simulation, ensuring your device is fully optimised before fabrication begins.

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How It Works

Our 4-Step Process

A streamlined workflow that takes your idea from concept to working prototype in record time.

01

Demand

Share your project requirements. We listen carefully and ask the right questions to understand exactly what you need.

02

Design

Our engineers create detailed CAD designs and run fluid simulations to optimise your device geometry before fabrication.

03

Fabricate

Precision manufacturing using state-of-the-art equipment in our university clean room facility — built to your exact specifications.

04

Deliver

Your quality-tested prototype arrives ready for experiments — typically within 2 business days of design approval.

Our People

Meet the Team

BioFabriX was founded by researchers who understood the frustration of waiting weeks for custom lab devices — so we built a faster, better solution.

Arnold — Founder & Lead Researcher

Arnold

Founder & Lead Researcher

PhD-qualified bioengineering researcher specialising in microfluidics and organ-on-chip systems. Passionate about making advanced biofabrication accessible to every Australian research lab.

Charles — Co-founder & Design Engineer

Charles

Co-founder & Design Engineer

Expert in precision CAD design and biofabrication processes with deep experience in soft lithography and microfluidic device engineering. Ensures every device is built right, first time.

Research

Publications

Our work is disseminated through peer-reviewed journals and conferences. This list will be updated as new work is accepted and published.

2024 Journal

[Publication title — to be updated]

Author A., Author B., Author C. et al.

Journal Name, Vol. X, No. X, pp. XXX–XXX, 2024.

Organ-on-Chip Microfluidics
DOI
2023 Journal

[Publication title — to be updated]

Author A., Author B. et al.

Journal Name, Vol. X, No. X, pp. XXX–XXX, 2023.

Blood Vessel-on-Chip PDMS
DOI
2023 Conference

[Publication title — to be updated]

Author A., Author B. et al.

Conference Name, City, Year.

Biofabrication Rapid Prototyping
View

Full publication list being compiled. Contact us for a complete list of research outputs and preprints.

Downloads

Resources & Documents

Download our technical specifications, application notes, device catalogues, and design templates to help plan your next project.

PDF Jan 2025

Technical Specifications

Device dimensions, channel tolerances, material properties, bonding methods, and performance specifications for all standard configurations.

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PDF Mar 2025

Device Catalogue 2025

Full catalogue of available microfluidic devices, organ-on-chip platforms, and bio-scaffold products with pricing and ordering information.

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PDF Jan 2025

Order Form

Standard order and project brief form. Complete and submit to initiate a custom fabrication order or design consultation request.

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PDF Feb 2025

App Note: Vessel-on-Chip

Step-by-step protocol for setting up a blood vessel-on-chip assay with shear flow, endothelial cell seeding, and permeability measurements.

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PDF Feb 2025

App Note: Drug Permeability

Protocol for drug transport and permeability assays using our dual-channel microfluidic device with integrated porous membrane and optical detection.

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DXF Jan 2025

CAD Design Template

AutoCAD DXF template file with standard layer structure, design rules, and example geometries to help you submit a custom channel design.

Download DXF

Can't find what you need? Contact us for custom documentation or to request an application note for your specific assay.

Get In Touch

Ready to Build Your Device?

Tell us about your project and we'll respond within 24 hours with a quote and timeline. No obligation, no minimum order.

Location University of Sydney, Sydney NSW, Australia
Email info@biofabrix.com.au
Response Time Within 24 hours
University of Sydney affiliated research facility

* Required fields. We respond within 24 hours.