Projection-based Multi-material 3D Bio printer

Projection based 3D bioprinting technology has the characteristics of high resolution, fast speed, and the ability to achieve fine printing of complex structures. It has significant advantages in high-precision batch manufacturing of hydrogel soft materials, and meets the requirements for batch repeatability in clinical animal experiments.

Platform Tank Combination

· Full-Size Tank Configurations: 1+1, 1+2

· Half-Size (Plate) Tank Configurations: 2+2, 2+4

· Tank Platform Temperature: RT-50°C

· Tank Capacity: Half-Size: 5.5 ml; Full-Size: 10 ml

· Optional Features: Continuous printing tank and uniform bottom heating tankavailable

Positive Pressure Clean Bench

· Dimensions:

Standard: 1600 × 900 × 1800 mm (excluding monitor movable stand)

With Accessories: 2300 × 1600 × 2000 mm (including monitor and glass lift)

· Cleanliness Level: Class 100

· Airflow Speed: 3-level adjustable

· Additional Features: LED illumination, UV sterilization, Water bath temperature-controlled cleaning solution

Control Computer

· Monitor: 24-inch IPS display

· Software: Pre-installed with PotatoP printer control software

Product advantages:

· Self cleaning system

Dual channel temperature controlled fluid automatic cleaning

· Flexible and non-destructive stripping

Customized for printing of soft materials

· Limiting laser calibration

High precision, high stability

· Immersive printing

Full process visualization and monitoring

Application:

· Organoids

Constructing models of liver globule, islets, and other micro structural organoids can be used for early personalized drug screening and in vitro liver histopathology research

· Drug controlled release model

Build personalized structures with multiple layers of packaging for encapsulating drugs of different types, or use personalized material combinations to control drug release processes

· Tumor co-culture model

Constructing a tumor co-culture model can be used to predict patient survival

Research on tumor evasiveness and drug resistance

· Multi-functional flexible electronic devices

Building 3D structures of hybrid materials can realize 3D bonding between hydrogels and other polymers, providing a new means for manufacturing multi-functional flexible electronic devices and related equipments

· Complex biomimetic structures

Constructing biomimetic tissues such as trachea, cornea, and skin can improve tissue functional response and has great potential value in tissue engineering and clinical application scenarios

Specification

▪ Platform and ink tanks combination: 1-6 materials

▪ Positive pressure ultra clean bench: Class 100 cleanliness; lighting; UV sterilization.

▪ Capacity of ink tank: 5.5ml; 10ml

▪ Temperature of ink tank and platform: RT-50°C

▪ control software: EFL-PotatoOSP printing operating system

▪ Types of printable materials: flexible materials (GelMA, HAMA, SilMA, etc.); Rigid materials (Photosensitive resin, etc.)

▪ Functional information: Layered multi-material printing, same layered multi-material printing, real-time monitoring, stripping force detection and recording, etc.