Synthesis, Characterization and Catalytic Investigations of Pt- Based Binary (Bimetallic) and Ternary (Trimetallic) Nanoparticles

Abstract

This work tests the hypothesis that nanoparticles of 75 at.% platinum (Pt) composition and

anisotropic morphology, will outperform standard catalysts in (PEMFC) hydrogen fuel cells.

A survey of the scientific literature on this topic is first presented. The synthetic strategies

which were developed for the preparation of novel Pt-based binary (bimetallic) and ternary

(trimetallic) nanoparticles, containing nickel (Ni), cobalt (Co) and/or vanadium (V), are then

described. The synthesis protocols for solution-grown colloidal nanoparticles all required the

heat-up of a chemical mixture (of metal precursors, surfactants as stabilizers, solvents and/or

reductants) from room temperature to high temperatures (up to 310 °C), for thermal

decomposition or thermal co-reduction. These protocols were successful in producing

nanostructures of high quality, with exceptional solubility in polar solvents such as chloroform

after repeated washing and drying. Detailed microstructural investigations of the synthesized

nanoparticles were carried out using scanning transmission electron microscopy (STEM), TEM

and X-ray diffraction (XRD). The nanoparticles were anisotropic with composition around 75

at.% Pt. Depending on the particular synthesis protocol, the as-prepared nanoparticles exhibited

different morphologies, surface facets, size and structure (alloy or core-shell).

To measure the oxygen reduction reaction (ORR) functionality of these nanoparticles,

electrochemical measurements were conducted, including cyclic voltammetry (CV), carbon

monoxide stripping voltammetry (CO-stripping) and rotating disk electrode measurements

(RDE). These measurements determined (a) electrochemical surface area, (b) mass-specific

activity and (c) area-specific activity; which were used to compare the performance of the

synthesized nanoparticles with the performance of a standard catalyst. The synthesised

nanoparticles, containing 75 at.% Pt and having anisotropic morphologies, exhibited better

catalytic functionality than the standard catalysts currently in widespread use. The enhanced

functionality of these alloy nanostructures is attributed to their anisotropic nature and structure

(mixed or core-shell). It is shown accordingly that high surface area nanoparticles, with

platinum composition around 75 at.%, are more effective than the best catalysts currently in

use. Subsequently, electrochemical measurements were used to determine longevity: catalytic

functionality was measured after cycling for considerably longer than the norm in nanoparticle

research (5000 cycles). These measurements show a decay in catalytic activity after prolonged

potential cycles, although the final value is similar to the initial value for commercial Pt

catalyst. This decay is suggestive of alloying dissolution and surface facet deformation; further

work is recommended.

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APA

Leteba, G (2021). Synthesis, Characterization and Catalytic Investigations of Pt- Based Binary (Bimetallic) and Ternary (Trimetallic) Nanoparticles. Afribary. Retrieved from https://tracking.afribary.com/works/synthesis-characterization-and-catalytic-investigations-of-pt-based-binary-bimetallic-and-ternary-trimetallic-nanoparticles

MLA 8th

Leteba, Gerard "Synthesis, Characterization and Catalytic Investigations of Pt- Based Binary (Bimetallic) and Ternary (Trimetallic) Nanoparticles" Afribary. Afribary, 15 May. 2021, https://tracking.afribary.com/works/synthesis-characterization-and-catalytic-investigations-of-pt-based-binary-bimetallic-and-ternary-trimetallic-nanoparticles. Accessed 22 Dec. 2024.

MLA7

Leteba, Gerard . "Synthesis, Characterization and Catalytic Investigations of Pt- Based Binary (Bimetallic) and Ternary (Trimetallic) Nanoparticles". Afribary, Afribary, 15 May. 2021. Web. 22 Dec. 2024. < https://tracking.afribary.com/works/synthesis-characterization-and-catalytic-investigations-of-pt-based-binary-bimetallic-and-ternary-trimetallic-nanoparticles >.

Chicago

Leteba, Gerard . "Synthesis, Characterization and Catalytic Investigations of Pt- Based Binary (Bimetallic) and Ternary (Trimetallic) Nanoparticles" Afribary (2021). Accessed December 22, 2024. https://tracking.afribary.com/works/synthesis-characterization-and-catalytic-investigations-of-pt-based-binary-bimetallic-and-ternary-trimetallic-nanoparticles