Anchoring of vanadium telluride (V x Te y) nanoparticles onto the exterior layer of multi-
walled carbon nanotubes (MWCNTs) has been successfully employed at room temperature …

The preparation methods of photocatalyst thin films play a critical role in increasing their
efficiency. Ease of fabrication, the ability to commercialize, production on a large scale …

This work demonstrates the feasibility of sub-micron size metal oxides as a sustainable
charge storage material in supercapacitors fabrication and addressing the cycle instability …

To meet societal and environmental needs in the future, it is vitally necessary to develop
more efficient electricity storage. The need for more effective, efficient energy storage has …

Factual realization of 2‐fold material mutualistic approach has been demonstrated as a state‐
of‐art for the growth of copper phosphate (Cu2P2O7) microflowers on multi‐walled carbon …

Current climate issues can be partially remedied through the inclusion of renewable energy
sources. However, these energy sources suffer from the need for highly efficient energy …

Nanostructured hybrids of Co 9 S 8 and polypyrrole (PPy) were grown on carbon cloth (CC)
for battery-type supercapacitor electrode. Zeolitic imidazolate framework (ZIF-67) was first …

Mixed phase of iron telluride based thin films consisting of nanopebbles has been grown
successfully over conducting stainless steel (SS) substrate through successive ionic layer …

A simple, sustainable, cost-effective, and environmentally benign BiVO 4@ C electrode is
developed via an in-situ bio-mediated green SILAR approach. The optimized synthesis and …

Bi nanoflakes on Ni foam (NF) for supercapacitors (SCs) are prepared by simple one-step
microwave irradiation without further calcination. XRD and XPS results reveal the successful …