Reactive sputtering onto an ionic liquid, a new synthesis route for bismuth-based nanoparticles

Abstract: Metallic bismuth and Bi-oxyfluoride nanoparticles (NPs) are successfully synthesized by non-reactive and reactive sputtering of a Bi target onto 1-butyl-3-methylimidazolium bis(trifluoro-methylsulfonyl)imide ([BMIM][TFSI]) ionic liquid (IL). Non-reactive sputtering is realized in...

“…The LES observations might help to better understand the NP formation process during reactive magnetron sputtering deposition. 77 Moreover, the LES technique can also be implemented into other nanomaterial synthesis methods, such as electrode erosion using discharges in liquids, 78 evaporation in vacuum onto liquids, 79 sputtering-based Gas Aggregation cluster Source (GAS), 68 in a stopped-flow device during a chemical reduction. 60 Despite their lure as an efficient heat transfer strategy, 80 nanofluids are still not in practice as the working fluid due to the inconsistent experimental results.…”

Time-resolved in-situ nanoparticle size evolution during magnetron sputtering onto liquids

“…The LES observations might help to better understand the NP formation process during reactive magnetron sputtering deposition. 77 Moreover, the LES technique can also be implemented into other nanomaterial synthesis methods, such as electrode erosion using discharges in liquids, 78 evaporation in vacuum onto liquids, 79 sputtering-based Gas Aggregation cluster Source (GAS), 68 in a stopped-flow device during a chemical reduction. 60 Despite their lure as an efficient heat transfer strategy, 80 nanofluids are still not in practice as the working fluid due to the inconsistent experimental results.…”

Time-resolved in-situ nanoparticle size evolution during magnetron sputtering onto liquids

“…The LES observations might help to better understand the NP formation process during reactive magnetron sputtering deposition. 70 Moreover, the LES technique can also be implemented into other nanouid synthesis methods, such as electrode erosion using discharges in liquids, 71 evaporation in vacuum onto liquids, 72 sputteringbased Gas Aggregation cluster Source (GAS), 61 in a stopped-ow device during a chemical reduction. 52 Despite their lure as an efficient heat transfer strategy, 73 nanouids are still not in practice as the working uid due to the inconsistent experimental results.…”

Time-resolved in situ nanoparticle size evolution during magnetron sputtering onto liquids

Unveiling kinetic characteristics of the interface between solid electrolyte and cathode for all-solid-state fluoride ion batteries towards a wide-temperature application