Source: https://metamat.eu/
Timestamp: 2019-04-24 07:59:56+00:00

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We are developing an arsenal of nanomaterials to adress societal issues while describing their formation.
We are a strong team of researchers specialized in nanosciences to build new materials with enhanced optical and mechanical properties.
Our knowledge span from the synthesis of the nanoproducts and their self-assembly to their structural characterization.
The 2018 doctoral award campaign of the Ministry of Higher Education, Research and Innovation (MESRI in french) is open for ED 2MIB.
4/ Validation and publication of the results by the ED (June 15th).
The candidate will pass an oral examination in front of a Jury (May 18th).
If you are interested, please contact us in advance so we can prepare well the audition which is determinant in the selection process.
We are pleased to share our review article "Colloidal Design of Plasmonic Sensors Based on Surface Enhanced Raman Scattering", published in Journal of Colloid and Interface Science, is now available online and free to download until December 26, 2017. This is a joint work with Luis Liz Marzan (CIC Biomagune, Spain). You can access the article by cliking on the following link: https://authors.elsevier.com/a/1W0BD4-sDFY5b.
Abstract: This feature article focuses on the use of colloid chemistry to engineer metallic nanostructures toward application in surface enhanced Raman scattering (SERS) sensing, in particular for ‘real-life’ applications, where the analyte may be present in complex mixtures. We present a broad summary of the field, including recent advances that have been developed during the past 10â€¯years. Real-life applications require a rational design and we aimed at identifying the key elements involved in it. The discussion is centered around colloidal plasmonic nanoparticles and therefore we start from the library of morphologies that have been reported in the literature. To complete the picture, colloidal self-assembly, surface chemistry and the combination with materials science techniques are highlighted. Considering the progress in the field, SERS may ultimately realize its full potential as an ultrasensitive tool for routine analytical applications.
We use UV/Vis spectrometry and X-ray scattering tecniques (SAXS) to study nanoparticles super-structures. The structural study of the material is the first step before understanding its overall properties and considering applications. SAXS is an experimental technique used to study the structural properties of materials and gives information on the size and orientation of the nanoparticles, their arrangement, the characteristic interdistances and the possible long-range organization. In a scattering experiment, ordered phases give diffraction signals that are called Bragg peaks. Analysis of such signals requires adapting standard methods of crystallography to the nanoscale, as the relevant length scale is much larger than the atomic scale. UV/Vis spectrometry is used complementary to measure the collective optical properties. Both techniques can be used in situ to study self assembly's pathways.
A mesoporous material is a material containing pores with diameters between 2 and 50 nm. We are devising materials containing a mesoporous architecture to enhance size and shape selectivity for guest molecules or to template nanoparticles synthesis.
Construction of nanoscale devices is a crucial step toward the sucess of nanotechnologies in a variety of fields. Although construction by addition of individual building blocks might appear impossible without using nanomachines, it can actually be carried out by simply exploiting the different magnitude of attractive and repulsive interaction forces at the nanoscale. For example, gravity is negligible for nanoparticles, but other forces become dominant and require the nanoparticles to be coated with selected molecules. Thus, one can simply let the solvent evaporate and wait the nanoparticles to organize into ordered structures without any intervention. Such strategy is one of the core of the concept of self-assembly.
Plasmonic nanoparticles (Au and Ag) have been object of fascination since ancient time for the preparation of stained glass. Such elementary building block are extremly robust and their use in monuments stand the test of time. A not too far example from the laboratory is the "Sainte-Chapelle du Palais" at "l'île de la cité" in Paris (see image, wikipédia). This phenomenon, commonly witnessed by everyone, originates from the electromagnetic properties of metallic nanoparticles.
The strong optical properties of nanoparticles (e.g. plasmonic or semiconducting) can be tuned across the visible to the mid infra-red range by modifying their size and shape. When such nanoparticles are organized in ensembles, collective properties are obtained that differ from those of individual particles and the resulting optical properties can be further tuned and even amplified. In particular, plasmon coupling in small gaps (1–10 nm) between plasmonic nanoparticles results in intense electric fields (i.e.,hot-spots) that can be exploited for many purposes, such as sensing, biomaterials, metamaterials design, switching devices, and so forth.
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13. Jana, S.; Davidson, P.; Abécassis, B. Angewandte Chemie International Edition 2016, 55, (32), 9371-9374.
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16. Dudok, T. H.; Savaryn, V. I.; Meyer, C.; Cherpak, V. V.; Fechan, A. V.; Lychkovskyy, E.; Pansu, B.; Nastishin, Y. A. UKRAINIAN JOURNAL OF PHYSICAL OPTICS 2016.
17. Castro, N.; Constantin, D.; Davidson, P.; Ab?cassis, B. Soft Matter 2016, 12, (48), 9666-9673.
18. Briceño-Ahumada, Z.; Maldonado, A.; Impéror, M.; Langevin, D. Soft Matter 2016, 12, (5), 1459-1467.
19. Bodelon, G.; Montes-Garcia, V.; Lopez-Puente, V.; Hill, E. H.; Hamon, C.; Sanz-Ortiz, M. N.; Rodal-Cedeira, S.; Costas, C.; Celiksoy, S.; Perez-Juste, I.; Scarabelli, L.; La Porta, A.; Perez-Juste, J.; Pastoriza-Santos, I.; Liz-Marzan, L. M. Nat Mater 2016, 15, (11), 1203-1211.
20. Riou, O.; Lonetti, B.; Tan, R. P.; Harmel, J.; Soulantica, K.; Davidson, P.; Mingotaud, A.-F.; Respaud, M.; Chaudret, B.; Mauzac, M. Angewandte Chemie International Edition 2015, 54, (37), 10811-10815.
21. Loubat, A.; Lacroix, L.-M.; Robert, A.; Impéror, M.; Poteau, R.; Maron, L.; Arenal, R.; Pansu, B.; Viau, G. The Journal of Physical Chemistry C 2015, 119, (8), 4422-4430.
22. Law-Hine, D.; Sahoo, A. K.; Bailleux, V.; Zeghal, M.; Prevost, S.; Maiti, P. K.; Bressanelli, S.; Constantin, D.; Tresset, G. The Journal of Physical Chemistry Letters 2015, 6, (17), 3471-3476.
23. Kredentser, S.; Eremin, A.; Davidson, P.; Reshetnyak, V.; Stannarius, R.; Reznikov, Y. Photonics Letters of Poland 2015, 7, (4).
24. Jana, S.; Phan, T. N. T.; Bouet, C.; Tessier, M. D.; Davidson, P.; Dubertret, B.; Abécassis, B. Langmuir 2015, 31, (38), 10532-10539.
25. Hamon, C.; Novikov, S. M.; Scarabelli, L.; Solís, D. M.; Altantzis, T.; Bals, S.; Taboada, J. M.; Obelleiro, F.; Liz-Marzán, L. M. ACS Photonics 2015, 2, (10), 1482-1488.
26. Hamon, C.; Martini, C.; Even-Hernandez, P.; Boichard, B.; Voisin, H.; Largeau, L.; Gosse, C.; Coradin, T.; Aime, C.; Marchi, V. Chemical Communications 2015, 51, (89), 16119-16122.
27. Hamon, C.; Liz-Marzán, L. M. Chemistry – A European Journal 2015, 21, (28), 9956-9963.
28. Hajiw, S.; Schmitt, J.; Impéror, M.; Pansu, B. Soft Matter 2015, 11, (19), 3920-3926.
29. Hajiw, S.; Pansu, B.; Sadoc, J.-F. ACS Nano 2015, 9, (8), 8116-8121.
30. Gaillard, T.; Poulard, C.; Voisin, T.; Honorez, C.; Davidson, P.; Drenckhan, W.; Roché, M. ACS Macro Letters 2015, 4, (10), 1144-1148.
31. Dudok, T. H.; Savaryn, V. I.; Krupych, O. M.; Fechan, A. V.; Lychkovskyy, E.; Cherpak, V. V.; Pansu, B.; Nastishin, Y. A. Appl. Opt. 2015, 54, (33), 9644.
32. Constantin, D. The European Physical Journal E 2015, 38, (11).
33. Constantin, D. Journal of Applied Crystallography 2015, 48, (6), 1901-1906.
34. Beaudoin, E.; Abecassis, B.; Constantin, D.; Degrouard, J.; Davidson, P. Chem. Commun. 2015, 51, (19), 4051-4054.
35. Abécassis, B.; Bouet, C.; Garnero, C.; Constantin, D.; Lequeux, N.; Ithurria, S.; Dubertret, B.; Pauw, B. R.; Pontoni, D. Nano Letters 2015, 15, (4), 2620-2626.
36. Vasquez, D.; Milusheva, R.; Baumann, P.; Constantin, D.; Chami, M.; Palivan, C. G. Langmuir 2014, 30, (4), 965-975.
37. Slyusarenko, K.; Constantin, D.; Davidson, P. The Journal of Chemical Physics 2014, 140, (10), 104904.
38. Slyusarenko, K.; Constantin, D.; Abécassis, B.; Davidson, P.; Chanéac, C. Journal of Materials Chemistry C 2014, 2, (26), 5087.
39. Slyusarenko, K.; Abécassis, B.; Davidson, P.; Constantin, D. Nanoscale 2014, 6, (22), 13527-13534.
40. Riou, O.; Lonetti, B.; Davidson, P.; Tan, R. P.; Cormary, B.; Mingotaud, A.-F.; Di Cola, E.; Respaud, M.; Chaudret, B.; Soulantica, K.; Mauzac, M. The Journal of Physical Chemistry B 2014, 118, (11), 3218-3225.
41. Perineau, F.; Rosticher, C.; Rozes, L.; Chanéac, C.; Sanchez, C.; Constantin, D.; Dozov, I.; Davidson, P.; Rochas, C. ACS Applied Materials & Interfaces 2014, 6, (3), 1583-1588.
42. Nastase, S.; Bajenaru, L.; Berger, D.; Matei, C.; Moisescu, M. G.; Constantin, D.; Savopol, T. Central European Journal of Chemistry 2014, 12, (8), 813-820.
43. Loubat, A.; Impéror, M.; Pansu, B.; Meneau, F.; Raquet, B.; Viau, G.; Lacroix, L.-M. Langmuir 2014, 30, (14), 4005-4012.
44. Landman, J.; Paineau, E.; Davidson, P.; Bihannic, I.; Michot, L. J.; Philippe, A. M.; Petukhov, A. V.; Lekkerkerker, H. N. W. The Journal of Physical Chemistry B 2014, 118, (18), 4913-4919.
45. Jabbari-Farouji, S.; Weis, J.-J.; Davidson, P.; Levitz, P.; Trizac, E. The Journal of Chemical Physics 2014, 141, (22), 224510.
46. Hamon, C.; Novikov, S.; Scarabelli, L.; Basabe-Desmonts, L.; Liz-Marzán, L. M. ACS Nano 2014, 8, (10), 10694-10703.
47. Hamon, C.; Ciaccafava, A.; Infossi, P.; Puppo, R.; Even-Hernandez, P.; Lojou, E.; Marchi, V. Chemical Communications 2014, 50, (39), 4989-4992.
48. Hamon, C.; Bizien, T.; Artzner, F.; Even-Hernandez, P.; Marchi, V. Journal of Colloid and Interface Science 2014, 424, (0), 90-97.
49. Dudok, T.; Savaryn, V.; Fechan, A.; Cherpak, V.; Pansu, B.; Nastishin, Y. Ukrainian Journal of Physical Optics 2014, 15, (4), 227.
50. Constantin, D.; Davidson, P. ChemPhysChem 2014, 15, (7), 1270-1282.
51. Bouchet, R.; Phan, T. N. T.; Beaudoin, E.; Devaux, D.; Davidson, P.; Bertin, D.; Denoyel, R. Macromolecules 2014, 47, (8), 2659-2665.
52. Bizien, T.; Even-Hernandez, P.; Postic, M.; Mazari, E.; Chevance, S.; Bondon, A.; Hamon, C.; Troadec, D.; Largeau, L.; Dupuis, C.; Gosse, C.; Artzner, F.; Marchi, V. Small 2014, 10, (18), 3707-3716.
53. Abécassis, B.; Tessier, M. D.; Davidson, P.; Dubertret, B. Nano Letters 2014, 14, (2), 710-715.
54. Tse-Ve-Koon, K.; Tremblay, N.; Constantin, D.; Freyssingeas, É. Journal of Colloid and Interface Science 2013, 393, 161-173.
55. Tresset, G.; Le Coeur, C.; Bryche, J.-F.; Tatou, M.; Zeghal, M.; Charpilienne, A.; Poncet, D.; Constantin, D.; Bressanelli, S. Journal of the American Chemical Society 2013, 135, (41), 15373-15381.
56. Rathee, V.; Krishnaswamy, R.; Pal, A.; Raghunathan, V. A.; Imperor-Clerc, M.; Pansu, B.; Sood, A. K. Proceedings of the National Academy of Sciences 2013, 110, (37), 14849-14854.
57. Paineau, E.-N.; Philippe, A. M.; Antonova, K.; Bihannic, I.; Davidson, P.; Dozov, I.; Gabriel, J. C. P.; Impéror, M.; Levitz, P.; Meneau, F.; Michot, L. J. Liquid Crystals Reviews 2013, 1, (2), 110-126.
58. Moulin, R.; Schmitt, J.; Lecchi, A.; Degrouard, J.; Impéror, M. Soft Matter 2013, 9, (46), 11085.
59. Michot, L. J.; Paineau, E.; Bihannic, I.; Maddi, S.; Duval, J. F. L.; Baravian, C.; Davidson, P.; Levitz, P. Clay Minerals 2013, 48, (5), 663-685.
60. Lewandowski, W.; Constantin, D.; Walicka, K.; Pociecha, D.; Mieczkowski, J.; Górecka, E. Chemical Communications 2013, 49, (71), 7845.
61. Kredentser, S.; Buluy, O.; Davidson, P.; Dozov, I.; Malynych, S.; Reshetnyak, V.; Slyusarenko, K.; Reznikov, Y. Soft Matter 2013, 9, (20), 5061.
62. Kjellman, T.; Asahina, S.; Schmitt, J.; Impéror, M.; Terasaki, O.; Alfredsson, V. Chemistry of Materials 2013, 25, (20), 4105-4112.
63. Jabbari-Farouji, S.; Weis, J.-J.; Davidson, P.; Levitz, P.; Trizac, E. Scientific Reports 2013, 3.
64. Ciaccafava, A.; Hamon, C.; Infossi, P.; Marchi, V.; Giudici-Orticoni, M.-T.; Lojou, E. Physical Chemistry Chemical Physics 2013, 15, (39), 16463-16467.
65. Boltoeva, M. Y.; Dozov, I.; Davidson, P.; Antonova, K.; Cardoso, L.; Alonso, B.; Belamie, E. Langmuir 2013, 29, (26), 8208-8212.
66. Beaudoin, E.; Phan, T. N. T.; Robinet, M.; Denoyel, R.; Davidson, P.; Bertin, D.; Bouchet, R. Langmuir 2013, 29, (34), 10874-10880.
67. Amara, M.-S.; Paineau, E.; Bacia-Verloop, M.; Krapf, M.-E. M.; Davidson, P.; Belloni, L.; Levard, C.; Rose, J.; Launois, P.; Thill, A. Chemical Communications 2013, 49, (96), 11284.
68. Poulos, A. S.; Constantin, D.; Davidson, P.; Impéror, M.; Pansu, B.; Rouzière, S. Europhys. Lett. 2012, 100, 18002.
69. Paineau, E.; Dozov, I.; Philippe, A. M.; Bihannic, I.; Meneau, F.; Baravian, C.; Michot, L. J.; Davidson, P. J. Phys. Chem. B 2012, 116, 13516-13524.
70. Paineau, E.; Dozov, I.; Bihannic, I.; Baravian, C.; Krapf, M. E. M.; Philippe, A. M.; Rouzière, S.; Michot, L. J.; Davidson, P. ACS Appl. Mater. Interfaces 2012, 4, 4296-4301.
71. Michaux, F.; Baccile, N.; Impéror, M.; Malfatti, L.; Folliet, N.; Gervais, C.; Manet, S.; Meneau, F.; Pedersen, J. S.; Babonneau, F. Langmuir 2012, 28, 17477-17493.
72. Michaux, F.; Baccile, N.; Impéror, M.; Malfatti, L.; Folliet, N.; Gervais, C.; Manet, S.; Meneau, F.; Pedersen, J. S.; Babonneau, F. Langmuir 2012, 28, (50), 17477-17493.
73. Impéror, M. In Self-assembly of mesoporous materials, ESRF users meeting, 2012, 2012; 2012.
74. Impéror, M. Interface Focus 2012, 2, 589-601.
75. Hamon, C.; Postic, M.; Mazari, E.; Bizien, T.; Dupuis, C.; Even-Hernandez, P.; Jimenez, A.; Courbin, L.; Gosse, C.; Artzner, F.; Marchi-Artzner, V. ACS Nano 2012, 6, (5), 4137-4146.
76. Bitbol, A. F.; Constantin, D.; Fournier, J. B. PLoS ONE 2012, 7, e48306.
77. Antonova, K.; Dozov, I.; Davidson, P.; Paineau, E.; Baravian, C.; Bihannic, I.; Michot, L. J. Bulg. J. Phys. 2012, 39, 072.
78. Abecassis, B.; Bouquet, F.; Kachbi, S.; Monteil, M.; Davidson, P. J. Phys. Chem. B 2012, 116, 7590-7595.
79. Van Den Pol, E.; Verhoeff, A. A.; Lupascu, A.; Diaconeasa, M. A.; Davidson, P.; Dozov, I.; Kuipers, B. M. W.; Thies-Weesie, D. M. E.; Vroege, G. J. J. Phys. Condens. Matter 2011, 23, 194108.
80. Saliba, S.; Davidson, P.; Impéror, M.; Mingotaud, C.; Kahn, M. L.; Marty, J. D. J. Mater. Chem. 2011, 21, 18191-18194.
81. Saliba, S.; Coppel, Y.; Davidson, P.; Mingotaud, C.; Chaudret, B.; Kahn, M. L.; Marty, J. D. J. Mater. Chem. 2011, 21, 6821-6823.
82. Philippe, A. M.; Baravian, C.; Impéror, M.; De Silva, J. M.; Paineau, E.; Bihannic, I.; Davidson, P.; Meneau, F.; Levitz, P.; Michot, L. J. J. Phys. Condens. Matter 2011, 23, 194112.
83. Perochon, R.; Davidson, P.; Rouzière, S.; Camerel, F.; Piekara-Sady, L.; Guizouarm, T.; Fourmigué, M. J. Mater. Chem. 2011, 21, 1416-1422.
84. Pansu, B.; Lecchi, A.; Constantin, D.; Impéror, M.; Veber, M.; Dozov, I. J. Phys. Chem. C 2011, 115, 17682-17687.
85. Paineau, E.; Dozov, I.; Antonova, K.; Davidson, P.; Impéror, M.; Meneau, F.; Bihannic, I.; Baravian, C.; Philippe, A. M.; Levitz, P.; Michot, L. J. IOP Conf. Series: Materials Science and Engineering 2011, 18, 0622005.
86. Paineau, E.; Bihannic, I.; Baravian, C.; Philippe, A. M.; Davidson, P.; Levitz, P.; Funari, S. S.; Rochas, C.; Michot, L. J. Langmuir 2011, 27, 5562-5573.
87. Manet, S.; Schmitt, V.; Impéror, M.; Zholobenko, V. L.; Durand, D.; Oliveira, C. L. P.; Pedersen, J. S.; Gervais, C.; Baccile, N.; Babonneau, D.; Grillo, I.; Rochas, C. J. Phys. Chem. B 2011, 115, 11330-11344.
88. Manet, S.; Lecchi, A.; Impéror, M.; Zholobenko, V. L.; Durand, D.; Oliveira, C. L. P.; Pedersen, J. S.; Grillo, I.; Meneau, F.; Rochas, C. J. Phys. Chem. B 2011, 115, 11318-11329.
89. Lin, J.; Lévy, D.; Durand, D.; Impéror, M.; Cao, A.; Li, M. H. Soft Matter 2011, 7, 7395-7403.
90. Impéror, M. In 3D-periodic Complex Structures in Soft Matter, International conference ‘Geometry of Interfaces, 2011, 2011; 2011.
91. Grande, D.; Penelle, J.; Davidson, P.; Beurroies, I.; Denoyel, R. Microporous Mesoporous Mater. 2011, 140, 34-39.
92. Dozov, I.; Paineau, E.; Davidson, P.; Antonova, K.; Baravian, C.; Bihannic, I.; Michot, L. J. J. Phys. Chem. B 2011, 115 (24), 7751-7765.
93. De Silva, J. P.; Poulos, A. S.; Pansu, B.; Davidson, P.; Kasmi, B.; Petermann, D.; Asnacios, S.; Meneau, F.; Impéror, M. Eur. Phys. J. E 2011, 34, 4.
94. Davidson, P. In XPCS studies of nematic and lamellar phases of colloidal suspensions, Nancy-Paris-Utrecht Meeting 2011, 2011, 2011; 2011.
95. Constantin, D. Phases lamellaires dopées. 2011.
96. Babonneau, F.; Baccile, N.; Grosso, D.; Impéror, M. Actualités chimiques 2011, -, 356-357.
97. Abidi, W.; Pansu, B.; Krishnaswamy, R.; Beaunier, P.; Remita, H.; Impéror, M. RSC Advances 2011, 1, 434-439.
98. Poulos, A. S.; Constantin, D.; Davidson, P.; Pansu, B.; Freyssingeas, E.; Madsen, A.; Chaneac, C. Highlights ESRF 2010 2010.
99. Poulos, A. S.; Constantin, D.; Davidson, P.; Pansu, B.; Freyssingeas, E.; Madsen, A.; Chaneac, C. J. Chem. Phys. 2010, 132, 091101.
100. Poulos, A. S.; Constantin, D.; Davidson, P.; Impéror, M.; Judeinstein, P.; Pansu, B. J. Phys. Chem. B 2010, 114, 220-227.
101. De Silva, J. M.; Petermann, D.; Kasmi, B.; Impéror, M.; Davidson, P.; Pansu, B.; Meneau, F.; Perez, S.; Paineau, E.; Bihannic, I.; Michot, L. J.; Baravian, C. J. Phys. Conf. Ser. 2010, 247, 012052.
102. Davidson, P. In Giant electric field induced orientational order in isotropic aqueous colloidal suspensions driven by electric double layer polarization, Playing Colloidal Mikado II, 2010, 2010; 2010.
103. Davidson, P. Comptes rendus de l’Académie des Sciences Série I Mathématiques 2010, 13, 142.
104. Constantin, D.; Davidson, P.; Freyssingeas, E.; Madsen, A. J. Chem. Phys. 2010, 133, 224902.
105. Constantin, D.; Davidson, P.; Chaneac, C. Langmuir 2010, 26, 4586-4589.
106. Constantin, D. In Slow relaxation in colloidal masophases, Réunion des utilisateurs esrf (soft matter structures), 2010, 2010; 2010.
107. Constantin, D. J. Chem. Phys. 2010, 133, 144901.
108. Brodie-Linder, N.; Besse, R.; Audonnet, F.; Lecaer, S.; Deschamps, J.; Impéror, M.; Alba-Simionesco, C. Microporous Mesoporous Mater. 2010, 132, 518-525.
109. Bihannic, I.; Baravian, C.; Duval, J. F. L.; Paineau, E.; Meneau, F.; Levitz, P.; De Silva, J. P.; Davidson, P.; Michot, L. J. J. Phys. Chem. B 2010, 114, 16347.
110. Baravian, C.; Michot, L. J.; Paineau, E.; Bihannic, I.; Davidson, P.; Impéror, M.; Belamie, E.; Levitz, P. Europhys. Lett. 2010, 90, 36005.
111. Abidi, W.; Selvakannan, P. R.; Guillet, Y.; Lampre, I.; Beaunier, P.; Pansu, B.; Palpant, B.; Remita, H. J. Phys. Chem. C 2010, 114(35), 14794-14803.
112. Paineau, E.; Antonova, K.; Baravian, C.; Bihannic, I.; Davidson, P.; Dozov, I.; Impéror, M.; Levitz, P.; Madsen, A.; Meneau, F.; Michot, L. J. J. Phys. Chem. B 2009, 113, 15858-15869.
113. Constantin, D. In XPCS: Principle and applications, X-ray coherent diffraction workshop (SOLEIL), 2009, 2009; 2009.
114. Constantin, D. In Interaction entre inclusions membranaires, 14ème colloque francophone des cristaux liquides, 2009, 2009; 2009.
115. Constantin, D. Biochimica Biophysica Acta - Biomembranes 2009, 1788, 1782-1789.
116. Poulos, A. S.; Constantin, D.; Davidson, P.; Impéror, M.; Pansu, B.; Panine, P.; Nicole, L.; Sanchez, C. Langmuir 2008, 24, 6285.
117. Pansu, B. 2008, 118.
118. Mirdamadi-Esfahani, M.; Mostafavi, M.; Keita, B.; Nadjo, L.; Kooyman, P.; Etcheberry, A.; Impéror, M.; Remita, H. Gold Bull. 2008, 41, 98-104.
119. Levitz, P.; Zinsmeister, M.; Davidson, P.; Constantin, D.; Poncelet, O. Phys. Rev. E: Stat. Nonlinear Soft Matter Phys. 2008, 78, 030102.
120. Khodakov, A. Y.; Zholobenko, V. L.; Impéror, M.; Durand, D. Adv. Colloid Interface Sci. 2008, 142, 67-74.
121. Impéror, M.; Manet, S.; Grillo, I.; Durand, D.; Khodakov, A. Y.; Zholobenko, V. L. Studies in surface science and catalysis 2008, 174, 805.
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