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Digital AssetAvailable
Micropocket Mastermold – STL File for 3D Printing
Faculty of Engineering
Chemical Engineering
McGill University
Design your own spheroid and organoid culture system with this downloadable STL file for the Micropocket Mastermold. This 3D-printable mold is engineered to create uniform micropockets in hydrogels (e.g., polyacrylamide, collagen, Matrigel), enabling high-throughput formation of 3D cell aggregates, microtissues, and multicellular spheroids in standard well plates.
Developed and validated for generating hydrogel-based microenvironments to support 3D culture, this mold is ideal for users who want to fabricate their own tools for tissue engineering, organoid development, drug screening, and regenerative medicine.
🛠️ What You Get:
- STL file for the Micropocket Mastermold
- Compatible with most resin 3D printers
🔬 Key Applications:
- Formation of uniform organoids, tumor spheroids, and stem cell aggregates
- Creation of spatially confined 3D microenvironments in hydrogels
- High-throughput 3D culture assays for drug discovery or disease modeling
🧪 Ideal For:
- Biomedical researchers
- Tissue engineers
- Stem cell and cancer biologists
- Labs looking to customize their own micropatterned hydrogel systems
Ideally printed with smallest available layer height (~10um) on high resolution SLA printer.
Note: This file is for personal and academic use only. Commercial reproduction or redistribution without permission is not allowed.
Cellular Microenvironment Design Lab
Faculty of Engineering
Research lab focused on advancing scientific knowledge and innovation.
CL
Chen Li
PhD Candidate
Chemical Engineering
Faculty of Engineering
McGill University
Digital AssetAvailable
Micropocket Mastermold – STL File for 3D Printing
Faculty of Engineering
Chemical Engineering
McGill University
Design your own spheroid and organoid culture system with this downloadable STL file for the Micropocket Mastermold. This 3D-printable mold is engineered to create uniform micropockets in hydrogels (e.g., polyacrylamide, collagen, Matrigel), enabling high-throughput formation of 3D cell aggregates, microtissues, and multicellular spheroids in standard well plates.
Developed and validated for generating hydrogel-based microenvironments to support 3D culture, this mold is ideal for users who want to fabricate their own tools for tissue engineering, organoid development, drug screening, and regenerative medicine.
🛠️ What You Get:
- STL file for the Micropocket Mastermold
- Compatible with most resin 3D printers
🔬 Key Applications:
- Formation of uniform organoids, tumor spheroids, and stem cell aggregates
- Creation of spatially confined 3D microenvironments in hydrogels
- High-throughput 3D culture assays for drug discovery or disease modeling
🧪 Ideal For:
- Biomedical researchers
- Tissue engineers
- Stem cell and cancer biologists
- Labs looking to customize their own micropatterned hydrogel systems
Ideally printed with smallest available layer height (~10um) on high resolution SLA printer.
Note: This file is for personal and academic use only. Commercial reproduction or redistribution without permission is not allowed.
Cellular Microenvironment Design Lab
Faculty of Engineering
Research lab focused on advancing scientific knowledge and innovation.
CL
Chen Li
PhD Candidate
Chemical Engineering
Faculty of Engineering
McGill University
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