Presentation of virtual and augmented reality solutions developped to interact with molecules shown at the 'games, VR and education day' organized by Games4change europe
16. To use this application, be sure to get molecular models to place on a white background. You
will build molecules and then virtualize them using the camera on your mobile device.
19. Molécule d’eau et d’ammoniac
Liaison entre un hydrogène et
un oxygène
Formation de l’ion ammonium
NH4+ en solution
20. Acknowledgements/References
UnityMol
Doutreligne, S., Gageat, C., Cragnolini, T., Taly, A., Pasquali, S., Baaden, M., & Derreumaux, P. (2015). UnityMol:
Simulation et Visualisation Interactive à des fins d’Enseignement et de Recherche. GGMM 2015, 118.
Lv, Z., Tek, A., Da Silva, F., Empereur-Mot, C., Chavent, M., & Baaden, M. (2013). Game on, science-how video game
technology may help biologists tackle visualization challenges. PloS one, 8(3), e57990.
Mazzanti, L., Doutreligne, S., Gageat, C., Derreumaux, P., Taly, A., Baaden, M., & Pasquali, S. (2017). What Can
Human-Guided Simulations Bring to RNA Folding?. Biophysical journal, 113(2), 302-312.
RNA-folding
Liuba Mazzanti, Sébastien Doutreligne, Cedric Gageat, Philippe Derreumaux, Antoine Taly, Marc Baaden, Samuela
Pasqual (Biophysical journal 113 (2), 302-312)
Docmolecules
C. Couzelin, Espace Des Sciences de Rennes
Société Polymorph (Montgermont, 35)
M Baaden, O Delalande, Philippe Derreumaux,,
N Férey, S Pasquali, A Taly
Pangu
Anne Lautrou, Garry Williams, Benjamin Frydman, Judicaëlle Live Lun
S Pasquali, A Taly