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Luis Antonio Martinez Carrascosa

PROYECTOS MINECO
lmartinez8@us.es

Investiga en

Tipo Año Título Fuente
Artículo2022 Achieving superhydrophobic surfaces with tunable roughness on building materials via nanosecond laser texturing of silane/ siloxane coatings JOURNAL OF BUILDING ENGINEERING
Artículo2022 Alkylsiloxane/alkoxysilane sols as hydrophobic treatments for concrete: A comparative study of bulk vs surface application JOURNAL OF BUILDING ENGINEERING
Artículo2020 A Simple, Long-Lasting Treatment for Concrete by Combining Hydrophobic Performance with a Photoinduced Superhydrophilic Surface for Easy Removal of Oil Pollutants ACS APPLIED MATERIALS & INTERFACES
Artículo2020 Producing C-S-H gel by reaction between silica oligomers and portlandite: A promising approach to repair cementitious materials CEMENT AND CONCRETE RESEARCH
Ponencia2020 Rain simulation device to test durability of building materials Science and digital technology for cultural heritage: Interdisciplinary approach to diagnosis, vulberability, risk assessment and graphic information models. Proceedings of the 4th International Congress Science and Technology for the conservation of cultural heritage, TECHNOHERITAGE 2019
Artículo2019 Modified Ethylsilicates as Efficient Innovative Consolidants for Sedimentary Rock COATINGS
Artículo2018 Long-term effectiveness, under a coastal environment, of a novel conservation nanomaterial applied on sandstone from a Roman archaeological site JOURNAL OF CULTURAL HERITAGE
Artículo2018 Long-Term Effectiveness, under a Mountain Environment, of a Novel Conservation Nanomaterial Applied on Limestone from a Roman Archaeological Site MATERIALS
Artículo2018 New Consolidant-Hydrophobic Treatment by Combining SiO2 Composite and Fluorinated Alkoxysilane: Application on Decayed Biocalcareous Stone from an 18th Century Cathedral COATINGS
Capítulo2018 Preserving cultural heritage stone: Innovative consolidant, superhydrophobic, self-cleaning, and biocidal products Advanced Materials for the Conservation of Stone
Artículo2018 Producing superhydrophobic/oleophobic coatings on Cultural Heritage building materials PURE AND APPLIED CHEMISTRY
Artículo2017 Producing lasting amphiphobic building surfaces with self-cleaning properties NANOTECHNOLOGY
Artículo2016 Producing superhydrophobic roof tiles NANOTECHNOLOGY
Nuevos materiales de construcción ecosostenibles por su acción superhidrofugante (2020)
Dirigida por: María Luisa Almoraima Gil Montero, María Jesús Mosquera Díaz

Este investigador no ha dirigido/tutorizado tesis

Proyectos de Investigación

Fecha de inicio Fecha de fin Rol Denominación Agencia financiadora
01/12/2022 02/01/2024 Contratado Reducción de CO2 a combustibles sintéticos mediante catálisis por inducción magnética: una solución ideal para el almacenamiento de energías intermitentes (TED2021-132087A-I00) Ministerio de Ciencia e Innovación (Nacional)
El investigador no tiene ningún resultado de investigación asociado