Ti3O5 nanofilm on carbon nanotubes by pulse laser deposition: Enhanced electrochemical performance

“…In general, the addition of Ti 3 O 5 added enhanced capacitive behavior to the CNTs as noticed by the CV and GCD in Figure 17A‐F. The PLD process is chemical free and proves very effective in the generation of nanoparticles 313 . PLD synthesized thin films have also demonstrated excellent cycle retention due to the binder‐free approach.…”

“…The LP-LPA is neither temperature nor pressure dependent. The methodology 313 (G) A typical setup of PLD is demonstrated in the work of Velmurugan et al, to demonstrate their synthesis of WO 3 and V 2 O 5 . 314 (H) A higher capacitance was demonstrated for the first 500 cycles before degradation occurred by Lacerda et al, 315 (I-K) A cycle retention of more than 300% was possible in the electrode designed by Guerra et al, which was concluded as a direct result of active material activation and an increase in porosity as seen in the SEM.…”

“…(A‐F) The hybrid electrode designed by Sun et al, consisting of Ti 3 O 5 decorated CNTs exhibiting capacitive behavior 313 . (G) A typical setup of PLD is demonstrated in the work of Velmurugan et al, to demonstrate their synthesis of WO 3 and V 2 O 5 314 .…”

“…The PLD process is chemical free and proves very effective in the generation of nanoparticles. 313 PLD synthesized thin films have also demonstrated excellent cycle retention due to the binder-free approach. For instance, Velmurugan et al designed a hybrid supercapacitor consisting of WO 3 and V 2 O 5 both exhibiting excellent cycle retention of 88.8% after 18 000 cycles and 90.2% after 10 k cycles, respectively.…”

A review on the advances in electrochemical capacitive charge storage in transition metal oxide electrodes for pseudocapacitors

“…In general, the addition of Ti 3 O 5 added enhanced capacitive behavior to the CNTs as noticed by the CV and GCD in Figure 17A‐F. The PLD process is chemical free and proves very effective in the generation of nanoparticles 313 . PLD synthesized thin films have also demonstrated excellent cycle retention due to the binder‐free approach.…”

“…The LP-LPA is neither temperature nor pressure dependent. The methodology 313 (G) A typical setup of PLD is demonstrated in the work of Velmurugan et al, to demonstrate their synthesis of WO 3 and V 2 O 5 . 314 (H) A higher capacitance was demonstrated for the first 500 cycles before degradation occurred by Lacerda et al, 315 (I-K) A cycle retention of more than 300% was possible in the electrode designed by Guerra et al, which was concluded as a direct result of active material activation and an increase in porosity as seen in the SEM.…”

“…(A‐F) The hybrid electrode designed by Sun et al, consisting of Ti 3 O 5 decorated CNTs exhibiting capacitive behavior 313 . (G) A typical setup of PLD is demonstrated in the work of Velmurugan et al, to demonstrate their synthesis of WO 3 and V 2 O 5 314 .…”

“…The PLD process is chemical free and proves very effective in the generation of nanoparticles. 313 PLD synthesized thin films have also demonstrated excellent cycle retention due to the binder-free approach. For instance, Velmurugan et al designed a hybrid supercapacitor consisting of WO 3 and V 2 O 5 both exhibiting excellent cycle retention of 88.8% after 18 000 cycles and 90.2% after 10 k cycles, respectively.…”

A review on the advances in electrochemical capacitive charge storage in transition metal oxide electrodes for pseudocapacitors

“…Ti 3 O 5 , as one of the Magnéli-phase titanium oxides, has been explored in previous studies as an attractive material for its properties of structural transformation. Ti 3 O 5 is shown to have excellent photo-reversibility, photocatalysis, oxygen sensitivity, and low resistance temperature coefficient compared to TiO 2 thin film [34][35][36][37]. Nevertheless, limited published work refers to the in-cooperation of Ti 3 O and Ti 3 O 5 phase properties on thin-film photocatalytic and antibacterial activity.…”

A Study on the Characteristic and Antibacterial Activity of Ti3Ox Thin Films

9,10-phenanthrenequinone anchored on nitrogen-doped carbon nanotubes for symmetrical supercapacitors with enhanced performance