High energy storage density titanium nitride-pentaerythritol solid–solid composite phase change materials for light-thermal-electric conversion. Rongrong Luo,

2 Nb-Based Materials The research of Nb-based materials in energy storage has been made much progress, including niobium oxide, niobium sulfide, niobium carbon/nitride and its polyoxides. 2.1 Niobium Oxide Niobium has a series of distinct valence states (Nb 2+, Nb 3+, Nb 4+, and Nb 5+) corresponding to a variety of niobium oxide (NbO x), involving

several energy storage systems, electrochemical energy storage (EES) is the most popular and efficient method for storing renewable energy, such as solar and wind

Titanium nitride (TiN) with localized surface plasmon resonance is used as light absorber and thermal conductive filler. The results show that phase transition

The quest for combining different materials for energy storage has gained key interest in the globe. In this study, titanium nitride (TiN) were synthesized by

DOI: 10.1039/c4nr00101j Corpus ID: 16467019 Porous titanium oxynitride sheets as electrochemical electrodes for energy storage. @article{Chen2014PorousTO, title={Porous titanium oxynitride sheets as electrochemical electrodes for energy storage.}, author={Ting-ting Chen and Hsiao-Ping Liu and Yen Wei and I-Chun Chang

The versatile chemistry of MXenes allows the tuning of properties for applications including energy storage, electromagnetic

Electrochemical supercapacitors as an energy storage device have become trademark in current electronic, medical and industrial applications, as they are sources of impressive power output. Supercapacitors supply fast power output, suitable to cover the energy demand of future electronic devices. El

The Titanium nitride was made by the precursors in the ratio of 3:1 with high crystallinity. • Chronopotentiometry tests showed high coulombic efficiency and

The search for new electrode materials for sodium-ion batteries (SIBs), especially for enhancing the specific capacity and cycling stability of anodes, is of great

Energy Storage Materials, Volume 26, 2020, pp. 138-146 Hualei Qi, , Avi Bendavid Rational construction of ternary ZnNiP arrayed structures derived from 2D MOFs for advanced hybrid supercapacitors and Zn batteries

In recent years the thermal energy storage applications with phase change materials have attracted wide interest. This has motivated a number of R&D efforts to develop novel materials and design new applications based on PCM. The efficient design of the new applications majorly depends on the quality of PCM employed.

TMNs in energy storage [32–34]. In this series, the explored TMNs are vanadium nitrides, molybdenum nitrides, titanium nitrides, and niobium nitrides [35]. Although all of these metal nitrides possess unique behavior for energy storage, Titanium nitride has been a

Although all of these metal nitrides possess unique behavior for energy storage, Titanium nitride has been a pressing topic of research for SC electrodes [36,37].

Titanium nitride is a well-known conductive ceramic material that has recently experienced resumed attention because of its plasmonic properties comparable to metallic gold and silver. Thus, TiN is an attractive alternative for modern and future photonic applications that require compatibility with the Complementary Metal-Oxide

The as-prepared CrN/0.08% NCNTs nanostructures offered a discharge capacity of 1172 mA h g −1 and the coulombic efficiency reached ~ 100% after 200 cycles. The electrochemical tests showed that the electrode offered a reversible capacity of 1042.9 mA h g −1 at a current rate of 20 C with 99.5% coulombic efficiency.

On treating metallic tin with ammonia, the formation energy of Sn 3 N 4 obtained was found to be −13.762 eV, which also states the strength of the nitride material [95]. Understanding the process of nitridation and nitrogen diffusion in 2D MNs is important as it will change the physical structure that will ultimately affect the mechanical and

DOI: 10.1016/j.cej.2023.145603 Corpus ID: 261153027 Energy storage performance of in-situ grown titanium nitride current collector/titanium oxynitride laminated thin film electrodes @article{Sun2023EnergySP, title={Energy storage performance of in