研究目的
Investigating the fabrication and near infra-red laser-driven shape recovery actuation behavior of bisphenol A diglycidyl ether-functionalized graphene oxide (DGEBA-f-GO)-based polyurethane (PU)/epoxy nanocomposites.
研究成果
The study successfully demonstrated the fabrication of PU/EP/DGEBA-f-GO nanocomposites with enhanced laser-driven photo-actuation stress, thermal stability, photothermal behavior, and mechanical properties. The crosslinked DGEBA-f-GO networks acted as an efficient near-infrared laser-harvesting framework, facilitating shape recovery upon remote actuation.
研究不足
The study focuses on the specific interaction of photothermal graphene networks with polymer chains and the laser-driven photo-actuation behavior of shape memory polyurethane/epoxy/epoxy-functionalized graphene oxide nanocomposites. The limitations include the scope of materials used and the specific conditions under which the experiments were conducted.
1:Experimental Design and Method Selection:
The study involved the synthesis of DGEBA-f-GO as a photothermal filler and its incorporation into PU/epoxy nanocomposites. The methodology included covalent crosslinking between DGEBA and DGEBA-f-GO in the PU matrix.
2:Sample Selection and Data Sources:
The materials used included graphene oxide, bisphenol A diglycidyl ether (DGEBA), polyurethane, and epoxy.
3:List of Experimental Equipment and Materials:
Instruments such as Fourier-transform infrared spectra (FT-IR), X-ray photoelectron spectroscopy (XPS), Raman microscope, wide angle X-ray scattering (WAXS), field-emission scanning electron microscopy (FE-SEM), and field-emission transmission electron microscopy (FE-TEM) were used.
4:Experimental Procedures and Operational Workflow:
The process involved the functionalization of GO, synthesis of polyurethane, fabrication of PU/EP/DGEBA-f-GO nanocomposites, and characterization of the materials.
5:Data Analysis Methods:
The data were analyzed using various spectroscopic and microscopic techniques to understand the interaction between the photothermal networks and polymer chains.
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