Rosa Maria Espinosa-Marzal
Rosa Maria Espinosa-Marzal
További nevekRosa M. Espinosa Marzal, Rosa Maria Espinosa
E-mail megerősítve itt: illinois.edu - Kezdőlap
Hivatkozott rá
Hivatkozott rá
Advances in understanding damage by salt crystallization
RM Espinosa-Marzal, GW Scherer
Accounts of chemical research 43 (6), 897-905, 2010
Influence of the age and drying process on pore structure and sorption isotherms of hardened cement paste
RM Espinosa, L Franke
Cement and concrete research 36 (10), 1969-1984, 2006
Phase changes of salts in porous materials: Crystallization, hydration and deliquescence
RM Espinosa, L Franke, G Deckelmann
Construction and Building Materials 22 (8), 1758-1773, 2008
Crystallization of sodium sulfate salts in limestone
RM Espinosa Marzal, GW Scherer
Environmental geology 56, 605-621, 2008
Microslips to “avalanches” in confined, molecular layers of ionic liquids
RM Espinosa-Marzal, A Arcifa, A Rossi, ND Spencer
The journal of physical chemistry letters 5 (1), 179-184, 2014
Model for the mechanical stress due to the salt crystallization in porous materials
RM Espinosa, L Franke, G Deckelmann
Construction and Building Materials 22 (7), 1350-1367, 2008
Ionic liquids confined in hydrophilic nanocontacts: Structure and lubricity in the presence of water
RM Espinosa-Marzal, A Arcifa, A Rossi, ND Spencer
The Journal of Physical Chemistry C 118 (12), 6491-6503, 2014
Inkbottle pore-method: prediction of hygroscopic water content in hardened cement paste at variable climatic conditions
RM Espinosa, L Franke
Cement and concrete research 36 (10), 1954-1968, 2006
Hydrated-ion ordering in electrical double layers
RM Espinosa-Marzal, T Drobek, T Balmer, MP Heuberger
Physical Chemistry Chemical Physics 14 (17), 6085-6093, 2012
Mechanisms of damage by salt
RM Espinosa-Marzal, GW Scherer
Geological Society, London, Special Publications 331 (1), 61-77, 2010
Mitigation of ASR by the use of LiNO3—Characterization of the reaction products
A Leemann, L Lörtscher, L Bernard, G Le Saout, B Lothenbach, ...
Cement and Concrete Research 59, 73-86, 2014
Insight into the electrical double layer of an ionic liquid on graphene
LA Jurado, RM Espinosa-Marzal
Scientific reports 7 (1), 1-12, 2017
Irreversible structural change of a dry ionic liquid under nanoconfinement
LA Jurado, H Kim, A Arcifa, A Rossi, C Leal, ND Spencer, ...
Physical Chemistry Chemical Physics 17 (20), 13613-13624, 2015
Predicting salt damage in practice: a theoretical insight into laboratory tests
RJ Flatt, N Aly Mohamed, F Caruso, H Derluyn, J Desarnaud, B Lubelli, ...
RILEM Technical Letters 2, 108-118, 2017
Impact of in-pore salt crystallization on transport properties
RM Espinosa-Marzal, GW Scherer
Environmental earth sciences 69, 2657-2669, 2013
Response of simulated drinking water biofilm mechanical and structural properties to long-term disinfectant exposure
Y Shen, C Huang, GL Monroy, D Janjaroen, N Derlon, J Lin, ...
Environmental science & technology 50 (4), 1779-1787, 2016
Can drying and re-wetting of magnesium sulfate salts lead to damage of stone?
E Balboni, RM Espinosa-Marzal, E Doehne, GW Scherer
Environmental Earth Sciences 63, 1463-1473, 2011
Effect of the environmental humidity on the bulk, interfacial and nanoconfined properties of an ionic liquid
LA Jurado, H Kim, A Rossi, A Arcifa, JK Schuh, ND Spencer, C Leal, ...
Physical Chemistry Chemical Physics 18 (32), 22719-22730, 2016
Layering of ionic liquids on rough surfaces
A Sheehan, LA Jurado, SN Ramakrishna, A Arcifa, A Rossi, ND Spencer, ...
Nanoscale 8 (7), 4094-4106, 2016
Polymer brushes under shear: Molecular dynamics simulations compared to experiments
MK Singh, P Ilg, RM Espinosa-Marzal, M Kröger, ND Spencer
Langmuir 31 (16), 4798-4805, 2015
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