Bruno Caillier

Portrait de Bruno Caillier

Présentation

Fonction
Enseignant-Chercheur
Statut
Maître de conférences
Téléphone
+33 5 63 48 64 44
Courriel
bruno.caillier@univ-jfc.fr
Domaine scientifique

Physique des plasmas, analyse de matériaux

Section CNU 1
"63-Génie électrique, électronique, photonique et systèmes"
Unité de recherche

Diagnostics des plasmas hors équilibre (DPHE), CUFR

Activités

Thèmes de recherche

Analyse de luminophores par excitation plasma
Optimisation de lampes planes sans mercure

Publications


Publications dans des revues :

[1]N. Pradal, A. Potdevin, G. Chadeyron, P. Bonville, B. Caillier, and R. Mahiou, “Spectroscopic study and enhanced thermostability of combustion-derived BaMgAl10O17:Eu2+ blue phosphors for solid-state lighting,” Optical Materials, vol. 64, pp. 334–344, février 2017.
[2]B. Caillier, J. M. A. Caiut, C. Muja, J. Demoucron, R. Mauricot, J. Dexpert-Ghys, and P. Guillot, “Decontamination Efficiency of a DBD Lamp Containing an UV-C Emitting Phosphor,” Photochemistry and Photobiology, vol. 91, no. 3, pp. 526–532, May 2015.
[3]L. Chauvet, L. Thérèse, B. Caillier, and P. Guillot, “Characterization of an asymmetric DBD plasma jet source at atmospheric pressure,” J. Anal. At. Spectrom., vol. 29, no. 11, pp. 2050–2057, Oct. 2014.
[4]B. Caillier, T. Beaudette, L. Therese, P. Belenguer, and P. Guillot, “Études et optimisations de lampes planes sans mercure,” European Journal of Electrical Engineering, vol. 16, no. 5–6, pp. 565–582, décembre 2013.
[5]B. Caillier, P. Guillot, J. D’Expert-Ghys, S. Regnier, S. Canac, and S. Sekhri, “Sur le traitement et la revalorisation des luminophores de CRT. Étude de faisabilité,” European Journal of Electrical Engineering, vol. 15, no. 5, pp. 499–509, Oct. 2012.
[6]J. M. A. Caiut, S. Lechevallier, J. Dexpert-Ghys, B. Caillier, and P. Guillot, “UVC emitting phosphors obtained by spray pyrolysis,” Journal of Luminescence, vol. 131, no. 4, pp. 628–632, avril 2011.
[7]J. Dexpert-Ghys, R. Mauricot, B. Caillier, P. Guillot, T. Beaudette, G. Jia, P. A. Tanner, and B.-M. Cheng, “VUV Excitation of YBO3 and (Y,Gd)BO3 Phosphors Doped with Eu3+ or Tb3+: Comparison of Efficiencies and Effect of Site-Selectivity,” J. Phys. Chem. C, vol. 114, no. 14, pp. 6681–6689, avril 2010.
[8]J. Dexpert-Ghys, S. Regnier, S. Canac, T. Beaudette, P. Guillot, B. Caillier, R. Mauricot, J. Navarro, and S. Sekhri, “Re-processing CRT phosphors for mercury-free applications,” Journal of Luminescence, vol. 129, no. 12, pp. 1968–1972, Dec. 2009.
[9]N. Joffin, B. Caillier, A. Garcia, P. Guillot, J. Galy, A. Fernandes, R. Mauricot, and J. Dexpert-Ghys, “Phosphor powders elaborated by spray-pyrolysis: Characterizations and possible applications,” Optical Materials, vol. 28, no. 6–7, pp. 597–601, May 2006.
[10]N. Joffin, B. Caillier, A. Garcia, P. Guillot, J. Galy, A. Fernandes, R. Mauricot, and J. Dexpert-Ghys, “Phosphor powders elaborated by spray-pyrolysis: Characterizations and possible applications,” Optical Materials, vol. 28, no. 6–7, pp. 597–601, May 2006.
[11]A. Potdevin, G. Chadeyron, D. Boyer, B. Caillier, and R. Mahiou, “Sol–gel based YAG : Tb 3+ or Eu 3+ phosphors for application in lighting sources,” J. Phys. D: Appl. Phys., vol. 38, no. 17, pp. 3251–3260, Sep. 2005.
[12]“Potdevin et al. - 2005 - Sol–gel based YAG Tb sup3+sup or Eu .pdf.” .
[13]“Sol–gel based YAG : Tb3+ or Eu3+ phosphors for application in lighting sources.” .
[14]N. Joffin, B. Caillier, J. Dexpert-Ghys, M. Verelst, G. Baret, A. Garcia, P. Guillot, J. Galy, R. Mauricot, and S. Schamm, “Elaboration by spray pyrolysis and characterization in the VUV range of phosphor particles with spherical shape and micronic size,” Journal of Physics D: Applied Physics, vol. 38, p. 3261, 2005.
[15]L. Tessier, A. Lacoste, H. Doyeux, S. Salavin, J. Ouyang, T. Callegari, N. Lebarq, B. Caillier, and J.-P. Boeuf, “Improvement of PDP discharge efficiency based on macro-cell studies,” Journal of the Society for Information Display, vol. 11, no. 3, pp. 551–558, Sep. 2003.
[16]J. T. Ouyang, T. Callegari, B. Caillier, and J.-P. Boeuf, “Large gap plasma display cell with auxiliary electrodes: macro-cell experiments and two-dimensional modelling,” J. Phys. D: Appl. Phys., vol. 36, no. 16, p. 1959, Aug. 2003.
[17]J. Ouyang, T. Callegari, B. Caillier, and J. P. Boeuf, “Large-gap AC coplanar plasma display cells: macro-cell experiments and 3-D simulations,” Plasma Science, IEEE Transactions on, vol. 31, no. 3, pp. 422–428, 2003.

Conférences avec actes:

[1]C. Muja, B. Caillier, J. M. A. Caiut, J. Dexpert-Ghys, and P. Guillot, “Bacterial surface decontamination of different types of materials using an UV-C dielectric barrier discharge flat lamp,” presented at the 5th International Conference on Plasma Medicine (ICPM5), 2014.
[2]J. Lo, C. Muja, L. Therese, B. Caillier, L. Latrasse, and P. Guillot, “Experimental characterization of a coaxial microwave plasma source and efficiency on microbial surface decontamination,” presented at the 5th International Conference on Plasma Medicine (ICPM5), Nara, Japan, 2014.
[3]C. Laurent, J. Lo, B. Caillier, L. Therese, and P. Guillot, “Comparison of plasma sources for surface treatment applications: radiofrequency inductively coupled and surface-wave microwave plasma sources,” presented at the 2014 IEEE 41st International Conference on Plasma Sciences (ICOPS), 2014.
[4]C. Laurent, J. Lo, B. Caillier, L. Therese, and P. Guillot, “The influence of the Electron Energy Distribution Function (EEDF) on the line-ratio method,” presented at the 22nd Europhysics Conference on Atomic and Molecular Physics of Ionized Gases (ESCAMPIG), Greifswald, Germany, 2014.
[5]C. Laurent, J. Lo, B. Caillier, L. Therese, and P. Guillot, “Spatial characterization of a Capacitively Coupled Plasma in argon at low pressure with double Langmuir probe and Optical Emission Spectroscopy diagnostics,” presented at the 20th international conference on gas discharges and their applications (GD2014), Orleans, France, 2014 [Online]. Available: http://gd2014.sciencesconf.org/conference/gd2014/pages/GD2014_Preliminar...
[6]C. Laurent, J. Lo, B. Caillier, L. Therese, and P. Guillot, “Caractérisation expérimentale d’un procédé plasma basse pression pour des applications de décontamination,” presented at the Congrès SFP - Division Plasmas - 2014, Toulouse, France, 2014, p. 73 [Online]. Available: http://sfp2014.sciencesconf.org/conference/sfp2014/program/poster_mercre...
[7]L. Chauvet, L. Therese, B. Caillier, and P. Guillot, “Optical emission spectroscopy characterization of a DBD atmospheric pressure plasma source for mass spectrometry analysis,” presented at the 2nd International Glow Discharge Spectroscopy Symposium, Prague - Csech Republic, 2014, vol. 024.
[8]L. Chauvet, B. Caillier, L. Therese, and P. Guillot, “Spatiotemporal characterization of a DBD atmospheric pressure plasma source,” in 7th International GD Day, Reims, France, 2014.
[9]L. Chauvet, B. Caillier, L. Therese, and P. Guillot, “DBD atmospheric pressure plasma source coupled to an optical emission spectrometer and a mass spectrometer,” presented at the 7th International GD Day, 2014.
[10]L. Chauvet, B. Caillier, L. Therese, and P. Guillot, “Characterization of an atmospheric dbd plasma jet with optical emission and mass spectrometers,” presented at the 20th International Conference on Gas Discharges and their Applications (GD2014)), Orleans, France, 2014.
[11]B. Caillier, “Sources UV pour la décontamination, cas d’une lampe DBD,” presented at the Colloque UV-X sur les sources cohérentes et incohérentes UV, VUV,X, Saint Étienne, 2014.
[12]B. Caillier, C. Muja, A. S. Koné, P. Guillot, J. Dexpert-Ghys, and J. M. A. Caiut, “Dielectric barrier discharge lamp for decontamination purpose,” presented at the 2014 IEEE 41st International Conference on Plasma Sciences (ICOPS), Washington, DC, USA, 2014.
[13]D. Mihailova, G. Hagelaar, P. Belenguer, C. Laurent, J. Lo, B. Caillier, L. Therese, and P. Guillot, “Modeling of capacitively and inductively coupled plasma for molecular decontamination,” in Bulletin of the American Physical Society, 2013, vol. Volume 58, Number 8 [Online]. Available: http://meetings.aps.org/Meeting/GEC13/Event/198651. [Accessed: 17-Sep-2013]
[14]C. Laurent, J. Lo, B. Caillier, L. Therese, and P. Guillot, “Spatial characterization of an inductively coupled plasma in argon with optical emission spectroscopy and Langmuir probe diagnostics for surface treatment purpose,” presented at the 31st International Conference on Phenomenon in Ionized Gases, Granada, Spain, 2013 [Online]. Available: http://www.icpig2013.net/papers/260_1.pdf. [Accessed: 04-Sep-2013]
[15]C. Laurent, J. Lo, B. Caillier, L. Therese, P. Guillot, D. Mihailova, G. Hagelaar, and P. Belenguer, “Experimental and numerical characterization of an argon RF inductively coupled plasma for surface treatment,” in 2013 Abstracts IEEE International Conference on Plasma Science (ICOPS), 2013, pp. 1–1.
[16]C. Laurent, J. Lo, B. Caillier, L. Therese, P. Belenguer, and P. Guillot, “Spatial distribution of electronic temperature, density and plasma emission in argon inductively coupled plasma for surface treatment,” presented at the 19th International Vacuum Congress (IVC-19), Paris, France, 2013.
[17]L. Chauvet, C. Muja, B. Caillier, L. Therese, and P. Guillot, “Characterization of a soft atmospheric DBD plasma jet for surface analysis.,” presented at the 19th International Vacuum Congress (IVC-19), Paris, France, 2013.
[18]L. Chauvet, C. Muja, B. Caillier, L. therese, and P. Guillot, “Spectral and spatio-temporal characterizations of an atmospheric DBD plasma jet,” presented at the European winter conference on plasma spectrochemistry, Krakow, Poland, 2013.
[19]L. Chauvet, C. Muja, B. Caillier, L. therese, and P. Guillot, “Spectral and temporal characterization of an atmospheric pressure plasma jet source,” presented at the 31st ICPIG, Granada, Spain, 2013.
[20]B. Caillier, C. Muja, B. Colin, P. Guillot, J. Dexpert-Ghys, and J. M. A. Caiut, “Decontamination of metallic surfaces inocculated with bacillus atrophaeus spores using an UV-C neon-xenon dielectric barrier discharge lamp,” in 2013 Abstracts IEEE International Conference on Plasma Science (ICOPS), 2013, pp. 1–1.
[21]D. Mihailova, G. Hagelaar, P. Belenguer, P. Guillot, L. Therese, and B. Caillier, “Modeling of low temperature plasma for FOUP cleaning,” in Bulletin of the American Physical Society, 2012, vol. Volume 57, Number 8 [Online]. Available: http://meetings.aps.org/link/BAPS.2012.GEC.PR1.24. [Accessed: 16-Jan-2013]
[22]B. Caillier, N. Lahoud, J. Demoucron, P. Guillot, J. Dexpert-Ghys, R. Mauricot, and J. M. A. Caiut, “UV-C Emitting Phosphors under Plasma Excitations: A Biocidal Effect?,” presented at the ICPM4, 4th International Conference on plasma medecine, Orleans, France, 2012 [Online]. Available: http://icpm4.sciencesconf.org/4872
[23]B. Caillier, J. Demoucron, P. Guillot, J. Dexpert-Ghys, R. Mauricot, and J. M. A. Caiut, “Preliminary studies on biocidal activities of UV-C emitting phosphors under plasma excitations,” in 2012 Abstracts IEEE International Conference on Plasma Science (ICOPS), 2012, p. 2P–133.
[24]B. Caillier, L. Therese, P. Guillot, T. Beaudette, and P. Belenguer, “Improving Efficacy of Dielectric Barrier Discharge Flat Lamp,” presented at the 30th International Conference on Phenomena in Ionized Gases, ICPIG 2011, Belfast, Ireland,, 2011.
[25]J. M. A. Caiut, J. Dexpert-Ghys, B. Caillier, and P. Guillot, “UV-C emitting phosphors,” in International Symposium on the Science and Technology of Light Sources - International Conference on White LEDs and Solid State Lighting, Eindhoven, 2010.
[26]B. Caillier, P. Guillot, L. Thérèse, and P. Belenguer, “Improve the luminous efficacy of dielectric barrier discharge xenon lamp,” in IEEE International Conference on Plasma Science (ICOPS), Norfolk, VA, USA, 2010, vol. 2P-68.
[27]B. Caillier, P. Guillot, L. Therese, and P. Belenguer, “Luminous efficacy and uniformity studies of flat free mercury lamp,” in International Symposium on the Science and Technology of Light Sources - International Conference on White LEDs and Solid State Lighting, Eindhoven, 2010.
[28]B. Caillier, P. Guillot, J. Dexpert-Ghys, S. Regnier, S. Canac, and S. Sekhri, “Sur le traitement et la re-valorisation des luminophores de CRT,” in 1ère Conférence Francophone sur l’Eco-conception en Génie Electrique, Toulouse, 2010.
[29]B. Caillier, P. Guillot, L. Therese, T. Beaudette, and P. Belenguer, “Spatial emission behaviour of dielectric barrier discharge lamp driven by sinusoidal or pulsed voltage excitation,” in IEEE 35th International Conference on Plasma Science, ICOPS 2008., 2008, p. 1.
[30]B. Caillier, T. Beaudette, P. Guillot, P. Belenguer, and L. Therese, “Spatial emission of a dielectric barrier discharge lamp driven by sinusoidal or square voltage excitation,” in ESCAMPIG, Granada, Spain, 2008.
[31]T. Beaudette, P. Guillot, and B. Caillier, “Influence of heating treatments on phosphor efficacy for a mercury free lamp,” in ESCAMPIG, Granada, Spain, 2008, vol. 2–14 [Online]. Available: http://portfolio.c-design.es/Escampig_2008/Poster-sessions_Session_2.html
[32]T. Beaudette, P. Guillot, B. Caillier, J. Dexpert-Ghys, S. Regnier, S. Canac, and S. Sekhri, “Characterization of reprocessed CRT phosphors.,” in 16th International Colloquium on Plasma Processes, Toulouse, France, 2007.
[33]T. Beaudette, P. Guillot, and B. Caillier, “Influence of heating process on phosphor efficacy for mercury free lamp,” in International Symposia on Science and Technology of Light Sources, Shangai (china), 2007.
[34]N. Joffin, B. Caillier, A. Garcia, P. Guillot, J. Galy, A. Fernandes, R. Mauricot, and J. Dexpert-Ghys, “SYMPOSIUM C Rare earth doped photonic materials,” in EUROPEAN MATERIALS RESEARCH SOCIETY E-MRS 2005 Spring Meeting, Strasbourg, France, 2005, vol. Session VIII : Phosphors I.
[35]T. Beaudette, B. Caillier, P. Guillot, J. Galy, N. Joffin, and J. Dexpert-Ghys, “Experimental Characterization of Phosphors under Plasma Excitation,” in The 25th International Display Research Conference EURODISPLAY 2005, Edinburgh, Scotland, 2005, p. 16.3:
[36]N. Joffin, J. Dexpert-Ghys, A. Garcia, M. Verelst, s. shamm, B. Caillier, and G. Baret, “Elaboration of Phosphor Particles with Spherical Shape and Micronic Size,” in 10th International Symposium on the Science and Technology of Light Sources, Toulouse, France, 2004, p. 165.
[37]B. Caillier, P. Guillot, J. Galy, R. Mauricot, J. Dexpert-Ghys, and N. Joffin, “Experimental Characterization of Phosphors for Plasma Display Panels,” in XV International Conference on Gas Discharges and their Applications GD2004, 2004, vol. D204, p. 493.
[38]B. Caillier, P. Guillot, J. Galy, R. Mauricot, J. Dexpert-Ghys, and N. Joffin, “Experimental Characterization of Phosphors Under Xenon Excitation,” in 10th International Symposium on the Science and Technology of Light Sources, Toulouse, France, 2004, p. 549.
[39]B. Caillier, P. Guillot, J. Galy, L. C. Pitchford, and J. P. Boeuf, “Electrical Diagnostics of a Macroscopic rf Plasma Display Panel Cell,” in International Conference on Phenomena of Ionized Gases (ICPIG), 2003, vol. 4, p. 129 [Online]. Available: http://stinet.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&ident.... [Accessed: 25-Feb-2011]
[40]J. Ouyang, T. Callegari, N. Lebarq, B. Caillier, and J.-P. Boeuf, “Plasma Display Panel Cell Optimization : Modeling and Macro-cell Experiments,” in EURODISPLAY, Nice, 2002, pp. 53–56.
[41]J. Ouyang, B. Caillier, T. Callegari, J. Galy, N. Sadeghi, and J.-P. Boeuf, “Diagnostics of a Positive Column AC Plasma Display Cell,” in ESCAMPIG 16 The Europhysics Conference on Atomic & Molecular Physics of Ionized Gases (ESCAMPIG 16), International Conference on Reactive Plasmas (ICRP 5), Grenoble, France, 2002, vol. 1, pp. 117–118.
[42]T. Callegari, J. Ouyang, B. Caillier, and J.-P. Boeuf, “3D Model of a Plasma Display Panel and Comparisons with Experiments,” in ESCAMPIG 16, ICRP 5, Grenoble, France, 2002, vol. 2, pp. 31–32.
[43]T. Callegari, J. Ouyang, B. Caillier, and J.-P. Boeuf, “3D modeling of a plasma display panel cell,” in EURODISPLAY, Nice, 2002, pp. 735–738.
[44]B. Caillier, D. Autret, N. Lebarq, T. Callegari, P. Guillot, J. Galy, L. C. Pitchford, and J.-P. Boeuf, “Plasma Display Cell Operating in RF Regime,” in ESCAMPIG 16, ICRP 5, Grenoble, France, 2002, vol. 1, pp. 355–356.
[45]T. Callegari, R. Ganter, B. Caillier, J. Ouyang, and P. Guillot, “Influence du mélange gazeux sur la fréquence de coupure dans les écrans à plasma,” presented at the VIIe Congrés SFP, Piriac-sur-mer, 2001, vol. III–c–8.
[46]J.-P. Boeuf, J. Kang, B. Caillier, T. Callegari, R. Ganter, J. Ouyang, L. C. Pitchford, and C. Punset, “Progress in Understanding and optimizing PDP Discharges,” presented at the IMID’01, Daegu, Korea, 2001, p. 113.
[47]R. Ganter, T. Callegari, N. Possémé, B. Caillier, and J. P. Boeuf, “Photoemission in plasma Display panel Discharge Cells,” presented at the IDW’00, 2000, vol. PDP2–6, p. 731.
[48]R. Ganter, T. Callegari, B. Caillier, and J.-P. Boeuf, “Imaging of the Plasma emission in a macroscopic Plasma Display Cell, in Xe-Ne Mixtures, and role of Photoemission,” in ESCAMPIG, Lillafüred, Hungary, 2000, p. 214.

Responsabilités scientifiques et administratives

Membre du Conseil d’administration de l’université (2016-2019)
Directeur du département Sciences Technologies et Santé ( 2011 - 2014)
Membre du Conseil Scientifique Pédagogique de l’Université (2011 - )
Membre de la Commission Hygiène Sécurité de l’Université (2009 -2012)

Coopérations industrielles et valorisation

Lampe plane (Saint Gobain) : Optimisation de l'efficacité en fonction de la composition chimique des luminophores (R, V, B), de la provenance (Rhodia, Nichia), détermination de la température limite lors du procédé de fabrication, caractérisation de luminophores nanométriques (transparent) pour une application de fenêtre lumineuse. Influence de la technique de dépôt sur l'efficacité. Détermination de l'épaisseur optimale déposée. Caractérisation/optimisation de luminophores pour applications germicides entre 200 nm-300 nm.

Projet Région Midi-Pyrénées Poudres Luminescentes recyclées : Caractérisation de luminophores issus de CRT recyclés et traités chimiquement en vue d'une application plasma potentielle (recyclage, revalorisation). Optimisation de l'efficacité en fonction du traitement chimique et des résidus (analyse élémentaire) jusqu'à atteindre 20% par rapport à un luminophore commercial.

Activités internationales

Projet Egide Procore Hong Kong : Caractérisation de luminophores, borates, synthétisés au CEMES-Toulouse, traités thermiquement au City-U-Hong Kong, pour applications sans mercure. Spectres d'excitation au synchrotron NSRRC, Hsinchu, à Taiwan.

Activités d’enseignement

Etablissement : INU JFC
Discipline : Physique, plasmas, capteurs, électricité, python
Nature :192 h TD
Niveau : L-M

Historique

Membre depuis
7 an 37 semaines