Preparation of Titanium nitride nanomaterials for electrode and application in energy storage

“…42 Besides, the raw materials for metal nitrides are lower in properties indicating that TMN is now a significant field of supercapacitor electrode materials. 44,45 The basic potential of metal nitrides is more significant in action compared to carbon and polymers. TMN supercapacitor was found to establish excellent performance in aqueous electrolytes.…”

“…Other than that, titanium has been one of the favorites among the accessible electrode materials because of the characteristics of the titanium, which are cheap, high reversibility as well as high specific power. 45 Molybdenum nitride was enthusiastically used as supercapacitor electrode material due to its high electrochemical activity and high chemical stability. 56,57 Furthermore, the electrical conductivity is good as well as has strong resistance to electrochemical decomposition in liquid electrolytes.…”

Recent advances in biomass‐derived carbon, mesoporous materials, and transition metal nitrides as new electrode materials for supercapacitor: A short review

“…42 Besides, the raw materials for metal nitrides are lower in properties indicating that TMN is now a significant field of supercapacitor electrode materials. 44,45 The basic potential of metal nitrides is more significant in action compared to carbon and polymers. TMN supercapacitor was found to establish excellent performance in aqueous electrolytes.…”

“…Other than that, titanium has been one of the favorites among the accessible electrode materials because of the characteristics of the titanium, which are cheap, high reversibility as well as high specific power. 45 Molybdenum nitride was enthusiastically used as supercapacitor electrode material due to its high electrochemical activity and high chemical stability. 56,57 Furthermore, the electrical conductivity is good as well as has strong resistance to electrochemical decomposition in liquid electrolytes.…”

Recent advances in biomass‐derived carbon, mesoporous materials, and transition metal nitrides as new electrode materials for supercapacitor: A short review

“…Among these alloys obtained by mechanochemical or melting synthesis, special titanium-based intermetallics were developed recently having improved hydriding behaviour considering several substitution possibilities [4][5][6]. Titanium-based alloys have attracted broad interest during the last years, from biomedical applications to the energetic or sensory materials [7][8][9][10][11][12][13].…”

Synthesis of quaternary nano‐intermetallic LaTi ₂ Ni ₅ Al ₄ with its hydrogen encapsulation and inspection using lithium‐hydride cell

“…Moreover, electronically conductive ceramics, such as porous TiN ceramics in particular, are of interest in other important potential applications. For example, porous TiN ceramics can be used as electrode materials in battery applications and as superconducting materials . In the case of electrode material applications, for example, it must be ensured that the electrolyte can effectively circulate through interconnected pores, and that the increase in the specific surface area contributes to a full contact between electrode and electrolyte, thereby improving current efficiency during the operation of the battery while simultaneously attaining a relatively high electrical energy efficiency .…”

“…For example, porous TiN ceramics can be used as electrode materials in battery applications and as superconducting materials. 9 In the case of electrode material applications, for example, it must be ensured that the electrolyte can effectively circulate through interconnected pores, and that the increase in the specific surface area contributes to a full contact between electrode and electrolyte, thereby improving current efficiency during the operation of the battery while simultaneously attaining a relatively high electrical energy efficiency. 10 Simultaneously, the electrical conductivity of the material will affect the kinetics of the electrochemical reaction and thereby influence the energy efficiency and cost of the entire electrochemical reaction system.…”

Electronically conductive porous TiN ceramics with enhanced strength by aqueous gel‐casting