Innovative
digital manufacturing solution of 3D printed molecular
models for better education in bio-molecular sciences
(EDUMOL3D), PN-IV-P7-7.1-PED-2024-0343, No. 25PED/2025
- Research
project funded by the Ministry of Research, Innovation
and Digitization, UEFISCDI, project number
PN-IV-P7-7.1-PED-2024-0343, within PNCDI IV;
- Funding
amount: 780.400 lei (156.000 euros) - 750 000 lei
(150.000 euros) from the state budget; 30 400 lei (6000
euros) from private budget;
- Partners:
Coordinator - Alexandru Ioan Cuza University of
Iasi, Romania (628 400 lei, about 126 000 euros)
Partner - PROTECH R&D S.R.L. (152.000,00 lei, about
30000 euros)
- Funding period: 31 months (08/01/2025 – 31/12/2026).
Project summary:
The quality of bio-molecular sciences education influences fundamentally many aspects of society and our everyday life. One key aspect of bio-molecular education is the structure-to-function relationship in molecules. While this is usually taught using 2D models and images, as well as 3D animations and movies, it has been shown that students prefer the usage of physical models of complex macromolecules. Touching and handling models offer them a more complete and immersive learning experience. Several solutions for creating and fabricating physical models of complex macromolecules from different materials have emerged, but none have the flexibility and low cost of 3D printing. The challenge here is converting the available and scientifically correct structural data into 3D printable files. This proposal is using a workflow developed by the PI ( for details please visit modelemoleculare.ro and 10.1002/bmb.21493) and aims to create an automated web service for converting structural data from scientific databases such as RCSB PDB into 3D printable files and printing instructions. Unlike other services available, this tool will focus on printing molecular models on cheap consumer-grade printers and on providing clear printing instructions. The service will be released under the CC BY license as a supplementary measure to ensure the long-term impact of the project - improve the quality of education in all fields related to bio-molecular sciences by providing access for educators and students to scientifically sound and cheap teaching materials.
Project members:
| Alexandru Ioan Cuza University of Iași | ||
|
Biochemistry
and Molecular Biology |
U-1700-038N-4243 |
|
Computer Sciences | U-1700-032N-7210 |
|
Biochemistry and Molecular Biology | U-2400-072L-0293 |
| PROTECH R&D S.R.L. | ||
|
3D Printing specialist | U-1900-063U-8614 |
| News | Project's objectives and activities: | Publications |
- 12.09.2025 - Testing of the 3DP-Jmol output is in
full swing
- 3.09.2025 - 3DP-Jmol provides reliable output for
even more difficult models that must be printed with
soluble support.
- 2.09.2025 - Happy that the output of 3DP-Jmol is
also printable on resin printers.
- 28.08.2025 - New printer available.
- 2.07.2025 - Our poster on 3DP-Jol for the FEBS 2025
conference.
- 30.06.2025 - The 3D printing corner just got a major
makeover
- 25.06.2025 -Getting ready to attend the FEBS meeting
with a poster on 3DP-Jmol.
- 21.06.2025 - Major improvements in the 3D Printing
facilities available.
- 4.06.2025 - A very nice model generated with
3DP-Jmol.
- 23.05.2025 - Full demonstration of our new
multi-material printer
- 20.05.2025 - 3D printer materials and a new 3D
printer just got delivered
- 5.04.2025 - Presentation on the impact of 3D printed molecular models on teaching structural biology given by Marius Mihasan at a reference bioinformatics conference.
- 24.03.2025 -The 3DP-Jmol script is now on Printables.com
- 6.03.2025 - New version ofthe3DP-Jmol tool was released
- 21.02.2025 - Alpha version of 3DP-Jmol tool is launched
- 27.01.2025 - Website launched
Contact
Project manager:
Marius Mihasan, PhD
E-mail: marius.mihasan@uaic.ro
Phone: 40(0)232201102 - 2434
Fax: 40(0)232201472
Further details: here
