In this study,the casting process is used to fabricate modified polyvinyl alcohol(PVA),starch(S),and carboxymethyl cellulose(CMC)polymer blend films(PVA/S/CMC)loaded with various concentrations of irondoped carbon qua...In this study,the casting process is used to fabricate modified polyvinyl alcohol(PVA),starch(S),and carboxymethyl cellulose(CMC)polymer blend films(PVA/S/CMC)loaded with various concentrations of irondoped carbon quantum dots(Fe-CQDs)and denoted as(PVA/S/CMC@Fe-CQDs).A one-step microwave strategy was employed as a facile method to prepare Fe-CQDs.Through a series of characterization techniques,fourier-transform infrared(FTIR)spectroscopy,x-ray diffraction(XRD)analysis,and scanning electron microscopy(SEM)have been used to show the successful integration of Fe-CQDs into the PVA/S/CMCmatrix.Loading the synthesized Fe-CQDs to the polymeric matrix significantly enhanced the mechanical properties of the films represented in the tensile strength,Young’s modulus,and hardness.However,the elongation decreased noticeably upon increasing the iron-doped carbon dots.The surface wettability was also studied by measuring the contact angle of the prepared films.The findings showed a noticeable elevation in these measurements by increasing the Fe-CQDs content,declaring the role of a hydrophobic character in these nanoparticles when introduced into a hydrophilic polymeric system.The dielectric characteristics of the reinforced polymer composite films were evaluated.These results revealed that the ac-conductivity of the investigated films was boosted with increasing Fe-CQDs’ratio and frequency.The PVA/S/CMC@Fe-CQDs films possess substantial potential for efficient energy storage applications.展开更多
文摘In this study,the casting process is used to fabricate modified polyvinyl alcohol(PVA),starch(S),and carboxymethyl cellulose(CMC)polymer blend films(PVA/S/CMC)loaded with various concentrations of irondoped carbon quantum dots(Fe-CQDs)and denoted as(PVA/S/CMC@Fe-CQDs).A one-step microwave strategy was employed as a facile method to prepare Fe-CQDs.Through a series of characterization techniques,fourier-transform infrared(FTIR)spectroscopy,x-ray diffraction(XRD)analysis,and scanning electron microscopy(SEM)have been used to show the successful integration of Fe-CQDs into the PVA/S/CMCmatrix.Loading the synthesized Fe-CQDs to the polymeric matrix significantly enhanced the mechanical properties of the films represented in the tensile strength,Young’s modulus,and hardness.However,the elongation decreased noticeably upon increasing the iron-doped carbon dots.The surface wettability was also studied by measuring the contact angle of the prepared films.The findings showed a noticeable elevation in these measurements by increasing the Fe-CQDs content,declaring the role of a hydrophobic character in these nanoparticles when introduced into a hydrophilic polymeric system.The dielectric characteristics of the reinforced polymer composite films were evaluated.These results revealed that the ac-conductivity of the investigated films was boosted with increasing Fe-CQDs’ratio and frequency.The PVA/S/CMC@Fe-CQDs films possess substantial potential for efficient energy storage applications.
