Characterization of Ni‐Coated WS₂ Nanotubes for Hydrodesulfurization Catalysis

Abstract: A reactivity screening of new nano‐hydrodesulfurization (HDS) catalysts was conducted using an ambient pressure flow reactor as well as ultra‐high vacuum kinetics techniques. Thiophene was used as a probe molecule. Clean multiwall WS2 nanotubes (INT‐WS2) as well as Ni‐ and Co‐coated INT‐WS2 were considered. In addition, undoped MoS2 and Re‐doped nanoparticles with fullerene‐like structures were studied. Commercial Ni and Co HDS catalysts from Haldor Topsoe (Denmark) as well as “nano MoS2” from Impex Corp. (USA… Show more

“…The high yield obtained in both reaction mechanisms may suggest that the INT‐WS 2 play an active role rather than being just a passive substrate for the Pd nanoparticles. It was already shown that INT decorated with Ni NPs have an improved catalytic activity for hydrodesulfurization compared with pristine nanotubes . While there are studies regarding the influence of size and shape of Pd NPs on the catalytic activity, the longstanding question on the role of the support in catalytic reactions and in the case of the nano‐sized substrate has been investigated in several specific cases only.…”

“…Additionally, the nanotubes were broken into nanoflakes using sonochemistry in order to break S−W bonds and provide for more active edge sites . The proposed catalytic reactions were hydrodesulfurization, photocatalysis, and electrocatalysis.…”

Direct Synthesis of Palladium Catalyst on Supporting WS₂ Nanotubes and its Reactivity in Cross‐Coupling Reactions

“…The high yield obtained in both reaction mechanisms may suggest that the INT‐WS 2 play an active role rather than being just a passive substrate for the Pd nanoparticles. It was already shown that INT decorated with Ni NPs have an improved catalytic activity for hydrodesulfurization compared with pristine nanotubes . While there are studies regarding the influence of size and shape of Pd NPs on the catalytic activity, the longstanding question on the role of the support in catalytic reactions and in the case of the nano‐sized substrate has been investigated in several specific cases only.…”

“…Additionally, the nanotubes were broken into nanoflakes using sonochemistry in order to break S−W bonds and provide for more active edge sites . The proposed catalytic reactions were hydrodesulfurization, photocatalysis, and electrocatalysis.…”

Direct Synthesis of Palladium Catalyst on Supporting WS₂ Nanotubes and its Reactivity in Cross‐Coupling Reactions

“…Attention has also been drawn to other inorganic nanotubes since then owing to their interesting properties. Substantial progress has been made and demonstrated that MoS 2 and WS 2 nanotubes have great potential for applications in scanning probe microscopy [4,5], lubrication [6], catalysis [7,8], field-effect transistors [9], nanocomposites [10], and energy storage [11,12].…”

Thin WS₂ nanotubes from W₁₈O₄₉ nanowires

“…Surface modification of NT-WS 2 with inorganic nanoparticles expands application areas of disulfide nanotubes. Co@NT-WS 2 [22] and Ni@NT-WS 2 [23] nanocomposites effectively catalyze hydrodesulfurization reactions of thiophene and similar compounds. Additionally, Co@NT-WS 2 is considered as a promising visible-light photocatalyst [24].…”

Two facile routes for functionalization of WS2 nanotubes with silver nanoparticles