Autonomous-Strengthening Adhesive Provides Hydrolysis-Resistance and Enhanced Mechanical Properties in Wet Conditions

Autonomous-Strengthening Adhesive Provides Hydrolysis-Resistance and Enhanced Mechanical Properties in Wet Conditions Article

Ezazi, Mohammadamin, Ye, Qiang, Misra, Anil et al. (2022). Autonomous-Strengthening Adhesive Provides Hydrolysis-Resistance and Enhanced Mechanical Properties in Wet Conditions . Molecules, 27(17), 10.3390/molecules27175505

Open Access

cited authors

Ezazi, Mohammadamin; Ye, Qiang; Misra, Anil; Tamerler, Candan; Spencer, Paulette

sustainable development goals

SDG 03: Good Health and Well-being

authors

Misra, Anil

publication date

September 1, 2022

published in

Molecules Journal

keywords

BIODEGRADATION
Biochemistry & Molecular Biology
Chemistry
Chemistry, Multidisciplinary
DEGRADATION
DENTIN ADHESIVE
INTERFACE
Life Sciences & Biomedicine
METHACRYLATE
MONOMER
PHASE-SEPARATION
PHOTOPOLYMERIZATION
Physical Sciences
RESIN
Science & Technology
WATER
dental adhesive
dynamic mechanical analyses
hydrolytic degradation
self-strengthening
sol-gel reaction

Digital Object Identifier (DOI)

https://doi.org/10.3390/molecules27175505

FIU Discovery

Autonomous-Strengthening Adhesive Provides Hydrolysis-Resistance and Enhanced Mechanical Properties in Wet Conditions Article

Overview

cited authors

sustainable development goals

authors

publication date

published in

Research

keywords

Identifiers

Digital Object Identifier (DOI)

Additional Document Info

volume

issue