Transition metal sulfides meet electrospinning: versatile synthesis, distinct properties and prospective applications

Abstract: We highlight the recent developments in the preparation of electrospun nanomaterials to produce metal sulfides with distinct chemical and physical properties for a broad range of applications.

“…Recently, transition-metal sulfides have emerged as promising electrocatalysts due to their high conductivity and facile fabrication processes . Among these, layered transition-metal chalcogenides (LTMDCs), such as 2H-molybdenum sulfide (MoS 2 ), 2H-WS 2 , etc., have attracted considerable attention as alternatives to noble metal-based electrocatalysts in the field of electrochemical water splitting due to their unique structural and electronic properties. , These findings revealed inferior HER activity of bulk MoS 2 due to its large intrinsic resistance and availability of limited active edge sites .…”

Ru-Doped CuO/MoS₂ Nanostructures as Bifunctional Water-Splitting Electrocatalysts in Alkaline Media

“…Recently, transition-metal sulfides have emerged as promising electrocatalysts due to their high conductivity and facile fabrication processes . Among these, layered transition-metal chalcogenides (LTMDCs), such as 2H-molybdenum sulfide (MoS 2 ), 2H-WS 2 , etc., have attracted considerable attention as alternatives to noble metal-based electrocatalysts in the field of electrochemical water splitting due to their unique structural and electronic properties. , These findings revealed inferior HER activity of bulk MoS 2 due to its large intrinsic resistance and availability of limited active edge sites .…”

Ru-Doped CuO/MoS₂ Nanostructures as Bifunctional Water-Splitting Electrocatalysts in Alkaline Media

“…Metal sulfide nanoparticles are of importance due to their interesting optical, magnetic and electrical properties. [1,2] They are useful in various fields such as energy storage, [3] CO 2 reduction, [4] water splitting, [5] photocatalytic degradation of dyes [6] and catalyst for the synthesis of aromatic aldehydes. [7] The optical, magnetic and electrical properties of metal sulfide nanoparticles can be enhanced by doping and the doped metal sulfide nanoparticles are useful for applications in solar cells, [8] bio-imaging, [9] supercapacitors, [10] hydrogen evolution, [11] photocatalytic reduction [12] and bactericides.…”

“…Metal sulfide nanoparticles are of importance due to their interesting optical, magnetic and electrical properties [1,2] . They are useful in various fields such as energy storage, [3] CO 2 reduction, [4] water splitting, [5] photocatalytic degradation of dyes [6] and catalyst for the synthesis of aromatic aldehydes [7] .…”

Novel Thermal Decomposition Method for the Synthesis of Iron‐doped SnS₂ Nanoparticles and Studies on their Peroxidase‐like Activity

“…In the last decades, nanostructured transition metal suldes (NTMSs) have received considerable attention in different elds because of their unique optical, magnetic and catalytic properties. [1][2][3] The properties of these materials are strongly dependent on the dimension, size, and morphologies of fabricated materials, [4][5][6] making these materials very promising for numerous advanced applications such as adsorbents for dye removal, 7 supercapacitors, 8 rechargeable lithium-ion batteries, 9 hydrodesulfurization catalysts, 10 hydrogen evolution reaction, 4,11,12 and catalysts in the degradation of organic dyes. 13 Metal sulde materials such as zinc sulde, 14 manganese sulde, 15 silver sulde, 16 iron sulde, 17 molybdenum sulde, 18 nickel sulde, 12 and copper suldes, have been reported and studied extensively.…”

A facile chemical synthesis of nanoflake NiS₂layers and their photocatalytic activity