Diversity in solar photovoltaic energy: Implications for innovation and policy, Renewable and Sustainable Energy Reviews, vol.54, pp.331-340, 2016. ,
Defect formation induced by seed-joints during directional solidification of quasi-monocrystalline silicon ingots, Journal of Crystal Growth, vol.405, pp.131-141, 2014. ,
Mangelinck-No? el, In situ investigation of the structural defect generation and evolution during the directional solidification of h110i seeded growth Si, Acta Materialia, vol.115, pp.210-223, 2016. ,
Mangelinck-No? el, Strain building and correlation with grain nucleation during silicon growth, Acta Materialia, vol.177, pp.141-150, 2019. ,
Crystallization of Silicon by a Directional Solidification Method, pp.55-69, 2009. ,
Multicrystalline Silicon Crystal Growth for Photovoltaic Applications, Handbook of Crystal Growth, pp.373-411, 2015. ,
, Proc 14th Europ, pp.774-777, 1997.
Grain orientation and grain boundaries in cast multicrystalline silicon, Material Science and Engineering B, vol.54, pp.202-206, 1998. ,
, EMIS, 1999299308.
Constitutional supercooling surface roughening, Journal of Crystal Growth, vol.264, pp.519-529, 2004. ,
Comprehensive review on grain and twin structures in bulk photovoltaic silicon, Recent Research Development in Crystal Growth, vol.5, pp.61-111, 2010. ,
URL : https://hal.archives-ouvertes.fr/hal-00456228
On the impact of twinning on the formation of the grain structure of multi-crystalline silicon for photovoltaic applications during directional solidification, Journal of Crystal Growth, vol.418, pp.38-44, 2015. ,
Growth of dislocation clusters during directional solidification of multicrystalline silicon ingot, Acta Materialia, vol.59, pp.7703-7710, 2011. ,
Real time observation of the directional solidification of multicrystalline silicon: X-ray imaging characterization, Energy Procedia, vol.27, pp.82-87, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01728627
Twinning occurrence and grain competition in multi-crystalline silicon during solidification, Comptes Rendus Physique, vol.14, pp.141-148, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-02895202
Three-dimensional phase field modeling of silicon thin-film growth during directional solidification: Facet formation and grain competition, Journal of Crystal Growth, vol.401, pp.740-747, 2014. ,
Three-dimensional phase field modelling of twin nucleation during directional solidification of multi-crystalline silicon, Journal of Crystal Growth, vol.520, pp.33-41, 2019. ,
Cant u, Solidification of multycristaline siliconÀsimulation of micro-structures, Journal of Crystal Growth, vol.385, pp.127-133, 2014. ,
Two-dimensional numerical modeling of grain structure in multi-cristalline silicon ingot, Journal of Crystal Growth, vol.385, pp.16-21, 2014. ,
Simulation of silicon casting process for photovoltaic (PV) application, Proceedings of the 2009 TMS Annual Meeting & Exhibition ,
Simulation of grain evolution in solidification on meso-scopic scale, Comput. Mater. Sci, vol.159, pp.432-439, 2019. ,
URL : https://hal.archives-ouvertes.fr/hal-02008484
A coupled finite element-cellular automaton model for the prediction of dendritic grain structures in solidification processses, Acta Metallurgica and Materialia, vol.42, pp.2233-2246, 1994. ,
3D CAFE modeling of grain structures: Application to primary dendritic and secondary eutectic solidification, Modeling and simulation in materials science and engineering, vol.20, p.15010, 2012. ,
EBSD characterisation and modelling of columnar dendritic grains growing in the presence of fluid flow, Acta materialia, vol.48, pp.675-688, 2000. ,
URL : https://hal.archives-ouvertes.fr/hal-01564435
Modeling of macrosegregation and solidification grain structures with a coupled cellular automaton -Finite element model, ISIJ International, vol.46, pp.880-895, 2006. ,
URL : https://hal.archives-ouvertes.fr/hal-00514059
Interaction between single grain solidification and macrosegregation: Application of a cellular automaton-finite element model, Journal of crystal growth, vol.303, pp.58-68, 2007. ,
Simulation of Channel Segregation During Directional Solidification of In-75 wt pct Ga -Qualitative Comparison with, In Situ Observations, Metallurgical and materials transactions A, vol.46, pp.4886-4897, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01159073
Direct Simulation of a Solidification Benchmark Experiment, Metallurgical and materials transactions A, vol.44, pp.873-887, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00747567
Influence of natural convection during upward directional solidification: a comparison between in situ X-ray radiography and direct simulation of the grain structure, Acta materialia, pp.4765-4777, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00831547
Finite element multi-scale modelling of chemical segregation in steel solidification taking into account the transport of equiaxed grains, Metallurgical and materials transactions A, vol.49, pp.1725-1748, 2018. ,
Three-dimensional probabilistic simulation of solidification grain structures: application to superalloy precision castings, Metallurgical transactions 24A, pp.467-479, 1993. ,
3-Dimensional simulation of the grain formation in investment castings, Metallurgical transactions, vol.25, pp.629-635, 1994. ,
A 3D cellular automaton algorithm for the prediction of dendritic grain growth, Acta materialia, vol.45, pp.2187-2195, 1997. ,
3D CAFE modeling for solidification grain structures in GTAW, ISIJ international, vol.54, pp.401-407, 2014. ,
Three-dimensional cellular automaton-finite element modeling of solidification grain structures for arc-welding processes, Acta materialia, vol.115, pp.448-467, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01354148
A parallelized three-dimensional cellular automaton model for grain growth during additive manufacturing, Computational Mechanics, vol.61, pp.543-559, 2018. ,
3D multi-layer grain structure simulation of powder bed fusion additive manufacturing, Acta Materialia, vol.152, pp.119-126, 2018. ,
A cellular automaton finite volume method for microstructure evolution during additive manufacturing, Materials & Design, vol.169, p.107672, 2019. ,
Experimental study of grain boundary orientations in multi-crystalline silicon, Journal of Crystal Growth, vol.401, pp.404-408, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-01071868
Investigation of grain boundary grooves at the solid-liquid interface during directional solidification of multi-crystalline silicon: in-situ characterization by X-ray imaging, Journal of Crystal Growth, vol.377, pp.203-211, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-02895204
In situ observation of grain-boundary development from a facet-facet groove during solidification of silicon, Acta Materialia, vol.153, pp.186-192, 2018. ,
Mangelinck-No? el, {111} facet growth laws and grain competition during silicon crystallization, Journal of Crystal Growth, vol.479, pp.1-8, 2017. ,
, Texture analysis in materials science Butterworth & Co, 1982.
Growth competition between columnar dendritic grains À Cellular automaton versus phase field modeling, Acta Materialia, vol.155, pp.286-301, 2018. ,
URL : https://hal.archives-ouvertes.fr/hal-02377817
Mangelinck-No? el, Growth undercooling in multi-crystalline pure silicon and in silicon containing light impurities (C and O), J. Cryst. Growth, vol.466, pp.64-70, 2017. ,
From constrained to unconstrained growth during directional solidification, Acta Materialia, vol.48, pp.2483-2501, 2000. ,
Prediction of a process window for the investement casting of dendritic single crystals, Materials Science and Engineering A, vol.237, pp.35-42, 1997. ,
A novel pole figure inversion method: Specification of the MTEX algorithm, Journal of Applied Crystallography, vol.41, pp.1024-1037, 2008. ,
Mod elisation 3D de structures de grains par une approche automate cellulaire. Application a la comp etition de croissance dendritique et a la cristallisation du silicium polycristallin, 2019. ,