A multifunctional TiN/Ni electrode for wearable supercapacitor and sensor with an insight into charge storage mechanism

“…They achieved this by depositing a TiN-Ni thin film under specific conditions: a power of 150 W and a pressure of 10 mTorr, carried out for 30 minutes. 84 The generated porous TiN thin films have a consistent thickness of 103 nm. A thin layer of Ni improved the TiN-Ni electrode's electrical performance, resulting in a specific capacitance of 10.21 mF g À1 and decent energy and power densities in the constructed device (see Fig.…”

Titanium nitride (TiN) as a promising alternative to plasmonic metals: a comprehensive review of synthesis and applications

“…They achieved this by depositing a TiN-Ni thin film under specific conditions: a power of 150 W and a pressure of 10 mTorr, carried out for 30 minutes. 84 The generated porous TiN thin films have a consistent thickness of 103 nm. A thin layer of Ni improved the TiN-Ni electrode's electrical performance, resulting in a specific capacitance of 10.21 mF g À1 and decent energy and power densities in the constructed device (see Fig.…”

Titanium nitride (TiN) as a promising alternative to plasmonic metals: a comprehensive review of synthesis and applications

“…The burgeoning eld of exible and wearable electronics is rewriting the rules of human-machine interaction, healthcare, and so robots. [1][2][3][4][5][6][7][8] As we move from rigid to conformable electronic systems that adhere to the human form, the longevity of these devices is crucial. Mechanical damage from daily usecreases, cracks, and bendscan swily degrade their performance, raising the demand for self-healing materials that mimic the regenerative qualities of human skin.…”

Autonomous self-healing and highly stretchable polymer maltose polyborosiloxane for improving soft electronics and soft robots

“…10e). Recently, Seo et al 96 developed a wearable supercapacitor using the TiN/Ni heterostructure by the RF sputtering technique. Wearable symmetric supercapacitors are designed by TiN/Ni electrodes.…”

Syntheses and electronic structure engineering of transition metal nitrides for supercapacitor applications