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Zinc oxide and copper nanoparticles addition in universal adhesive systems improve interface stability on caries-affected dentin
Fecha de emisión
2019
Autor(es)
Gutiérrez M.F.
Bermudez J.
Dávila-Sánchez A.
Alegría-Acevedo L.F.
Méndez-Bauer L.
Hernández M.
Astorga J.
Reis A.
Loguercio A.D.
Farago P.V.
Fernández E.
DOI
10.1016/j.jmbbm.2019.07.024
Temas
Copper
Microtensile bond str...
Nanoleakage
Nanoparticles
Universal adhesive sy...
Zinc oxide
Bond strength (materi...
Copper
II-VI semiconductors
Metal nanoparticles
Microorganisms
Nanoparticles
Resins
Tensile strength
Zinc oxide
Anti-microbial activi...
Degree of conversion
Interface stabilities...
Micro-tensile bond st...
Nanoleakages
Streptococcus mutans
Ultimate tensile stre...
Universal adhesives
Adhesives
adhesive agent
copper nanoparticle
zinc oxide nanopartic...
adult
antimicrobial activit...
Article
confocal laser scanni...
controlled study
dental caries
dentin
human
in vitro study
priority journal
Streptococcus mutans
tensile strength
Archivo(s)