Deleted Journal, Journal Year: 2025, Volume and Issue: 3(2), P. 2515 - 2515
Published: April 3, 2025
In light of eras scientific endeavors on carbon nanotubes and related nanomaterials, we notice extending applications from high-tech energy/electronic devices to defense, engineering, medical fields. Carbon nanotubes, being one the initial nanocarbon technology breakthroughs, emerged as a frontline competitor for designing advanced energy devices/systems. As per literature so far, render valuably high specific surface area/properties, design adaptabilities, structural synergies, low expenses/density/toxicity, interfacial/percolation effects, desirable storage (charge/electron flow, capacity/capacitance, capacity retention, reversible discharge, cyclic span, etc.) conversion (power efficiencies, energy/power density, photovoltaic durability, parameters devices. Looking at up-to-date demand in high-end systems (batteries, capacitors, photovoltaics), this perspective manuscript is planned unveil actual state-of-the-art advancements field. Despite success date, real-world employment nanotube-derived seems rely upon overcoming challenges integrating these nanomaterials next-generation assemblies. To meet current technological necessities, green-sourced nanotube must be practiced modern future sustainable industries.
Language: Английский