Lead glazes in antiquity—methods of production and reasons for use MS Tite, I Freestone, R Mason, J Molera, M Vendrell‐Saz, N Wood Archaeometry 40 (2), 241-260, 1998 | 385 | 1998 |
Luster pottery from the thirteenth century to the sixteenth century: a nanostructured thin metallic film J Pérez‐Arantegui, J Molera, A Larrea, T Pradell, M Vendrell‐Saz, ... Journal of the American Ceramic Society 84 (2), 442-46, 2001 | 220 | 2001 |
The colours of Ca-rich ceramic pastes: origin and characterization J Molera, T Pradell, M Vendrell-Saz Applied clay science 13 (3), 187-202, 1998 | 185 | 1998 |
Interactions between clay bodies and lead glazes J Molera, T Pradell, N Salvadó, M Vendrell‐Saz Journal of the American Ceramic Society 84 (5), 1120-1128, 2001 | 175 | 2001 |
Evidence of tin oxide recrystallization in opacified lead glazes J Molera, T Pradell, N Salvadó, M Vendrell‐Saz Journal of the American Ceramic Society 82 (10), 2871-2875, 1999 | 138 | 1999 |
Chemical and textural characterization of tin glazes in Islamic ceramics from Eastern Spain J Molera, M Vendrell-Saz, J Pérez-Arantegui Journal of Archaeological Science 28 (3), 331-340, 2001 | 125 | 2001 |
Interaction of rock and atmosphere: patinas on Mediterranean monuments M Garcia-Vallès, M Vendrell-Saz, J Molera, F Blazquez Environmental Geology 36 (1), 137-149, 1998 | 102 | 1998 |
Identification of copper-based green pigments in Jaume Huguet's Gothic altarpieces by Fourier transform infrared microspectroscopy and synchrotron radiation X-ray diffraction N Salvadó, T Pradell, E Pantos, MZ Papiz, J Molera, M Seco, ... Journal of Synchrotron Radiation 9 (4), 215-222, 2002 | 100 | 2002 |
Ceramic technology. How to characterise ceramic glazes T Pradell, J Molera Archaeological and Anthropological Sciences 12 (8), 189, 2020 | 88 | 2020 |
Ionic‐exchange mechanism in the formation of medieval luster decorations T Pradell, J Molera, J Roque, M Vendrell‐Saz, AD Smith, E Pantos, ... Journal of the American Ceramic Society 88 (5), 1281-1289, 2005 | 84 | 2005 |
Technology and colour development of Hispano‐Moresque lead‐glazed pottery J Molera, M Vendrell-Saz, M Garcia‐Vallés, T Pradell Archaeometry 39 (1), 23-39, 1997 | 79 | 1997 |
The invention of lustre: Iraq 9th and 10th centuries AD T Pradell, J Molera, AD Smith, MS Tite Journal of Archaeological Science 35 (5), 1201-1215, 2008 | 68 | 2008 |
Copper and silver nanocrystals in lustre lead glazes: Development and optical properties J Roqué, J Molera, P Sciau, E Pantos, M Vendrell-Saz Journal of the European Ceramic Society 26 (16), 3813-3824, 2006 | 65 | 2006 |
Lustre recipes from a medieval workshop in Paterna J Molera, M Mesquida, J Pérez‐Arantegui, T Pradell, M Vendrell Archaeometry 43 (4), 455-460, 2001 | 64 | 2001 |
Crystal size distributions of induced calcium carbonate crystals in polyaspartic acid and Mytilus edulis acidic organic proteins aqueous solutions J Roque, J Molera, M Vendrell-Saz, N Salvadó Journal of crystal growth 262 (1-4), 543-553, 2004 | 61 | 2004 |
Optical properties of tin‐opacified glazes M Vendrell, J Molera, MS Tite Archaeometry 42 (2), 325-340, 2000 | 60 | 2000 |
Synchrotron radiation micro-XRD in the study of glaze technology T Pradell, J Molera, N Salvadó, A Labrador Applied Physics A 99, 407-417, 2010 | 56 | 2010 |
The growth of sanidine crystals in the lead of glazes of Hispano-Moresque pottery J Molera, T Pradell, S Martinez-Manent, M Vendrell-Saz Applied clay science 7 (6), 483-491, 1993 | 56 | 1993 |
Manganese brown decorations in 10th to 18th century Spanish tin glazed ceramics J Molera, J Coll, A Labrador, T Pradell Applied clay science 82, 86-90, 2013 | 55 | 2013 |
Evidence of nucleation and growth of metal Cu and Ag nanoparticles in lustre: AFM surface characterization J Roqué, T Pradell, J Molera, M Vendrell-Saz Journal of Non-Crystalline Solids 351 (6-7), 568-575, 2005 | 54 | 2005 |