Ultra-Thin Platinum Deposits by Surface-Limited Redox Replacement of Tellurium

Abstract: Platinum is the most employed electrocatalyst for the reactions taking place in energy converters, such as the oxygen reduction reaction in proton exchange membrane fuel cells, despite being a very low abundant element in the earth’s crust and thus extremely expensive. The search for more active electrocatalysts with ultra-low Pt loading is thus a very active field of investigation. Here, surface-limited redox replacement (SLRR) that utilizes the monolayer-limited nature of underpotential deposition (UPD) was … Show more

“…However, compared to bare Au, Te-UPD 1 shows a minor positive (0.13 V) shift, ascribed to Te's greater interaction with pre-deposited Pd on Au. 35 As a result, the Te-UPD potential is slightly higher than that of plain Au equivalents. The redox characteristics are consistent with the tellurium electrodeposition reaction in acidic conditions, as indicated by the reduction reaction mechanism below.…”

Electrodeposition of Ternary BiTePd Nanofilm Electrocatalyst Using Surface-Limited Reaction for Direct Ethanol Fuel Cell

“…However, compared to bare Au, Te-UPD 1 shows a minor positive (0.13 V) shift, ascribed to Te's greater interaction with pre-deposited Pd on Au. 35 As a result, the Te-UPD potential is slightly higher than that of plain Au equivalents. The redox characteristics are consistent with the tellurium electrodeposition reaction in acidic conditions, as indicated by the reduction reaction mechanism below.…”

Electrodeposition of Ternary BiTePd Nanofilm Electrocatalyst Using Surface-Limited Reaction for Direct Ethanol Fuel Cell

Valorization of Expired Passion Fruit Shell by Hydrothermal Conversion into Carbon Quantum Dot: Physical and Optical Properties

Electrochemical synthesis of Ni doped carbon quantum dots for simultaneous fluorometric determination of Fe3+ and Cu2+ ion facilely