Kevin Tonnis scite author profile

The high mass and volume-specific energy of dimethyl ether (DME) relative to hydrogen make it an attractive alternative electrochemical fuel source for portable applications such as powering drones and eVTOLs. A key stumbling block to the development of direct DME fuel cells (DDMEFCs) is the poisoning of the electrocatalyst surface by oxidation intermediates such as CO ads . In this study, an all-queous colloidal synthesis method for producing highly dispersed Pt 2 Bi alloy nanoplatelets (NPT) to mitigate such poisoning is presented. NPT synthesis entails the use of stannous chloride as an autocatalytic reducing and stabilizing agent for both Pt and Bi salts in aqueous solution. Sn and Bi stripping from the surface of these NPT is found to maximize activity for DME electrooxidation (DMEOR) relative to commercial Pt-C. A stable chronoamperometric current of 3.3 A g Pt −1 (15.8 μA cm Pt −2 ) is observed at the peak CO ads -stripping potential of 0.7 V vs RHE at 50 °C over a time interval where Pt-C activity becomes negligible. The response of anodic peak positions to potential sweep rates is used to reveal the impact of alloying (electronic structure) on the electro-oxidation rates of various intermediate species on Pt 2 Bi NPT. Resistance to poisoning coincides both with a reduction in the C ads specific activity onset potential by 25 mV relative to Pt-C and faster DME electro-oxidation kinetics. DDMEFC testing of the unsupported Pt 2 Bi NPT utilizing a phosphoric acid-doped polybenzimidazole (PBI) membrane operating at 240 °C yields a peak power of 56 W g PGM,anode −1. This represents a 30% increase relative to a commercial PtRu catalyst.

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Modeling the Percutaneous Absorption of Solvent-deposited Solids Over a Wide Dose Range

Fang

Tonnis

et al. 2022

Journal of Pharmaceutical Sciences

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Impact of solvent dry down, vehicle pH and slowly reversible keratin binding on skin penetration of cosmetic relevant compounds: I. Liquids

Tonnis

Nitsche²,

Xu³

et al. 2022

International Journal of Pharmaceutics

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Conversion of a Bi–Sn complex to Bi nanoparticles for the enhancement of V(ii)/V(iii) redox kinetics

et al. 2020

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Kevin Tonnis

Computer Simulation of Skin Permeability of Hydrophobic and Hydrophilic Chemicals – Influence of Follicular Pathway

Aqueous Synthesis of Highly Dispersed Pt₂Bi Alloy Nanoplatelets for Dimethyl Ether Electro-Oxidation

Modeling the Percutaneous Absorption of Solvent-deposited Solids Over a Wide Dose Range

Impact of solvent dry down, vehicle pH and slowly reversible keratin binding on skin penetration of cosmetic relevant compounds: I. Liquids

Conversion of a Bi–Sn complex to Bi nanoparticles for the enhancement of V(ii)/V(iii) redox kinetics

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About

Kevin Tonnis

Computer Simulation of Skin Permeability of Hydrophobic and Hydrophilic Chemicals – Influence of Follicular Pathway

Aqueous Synthesis of Highly Dispersed Pt2Bi Alloy Nanoplatelets for Dimethyl Ether Electro-Oxidation

Modeling the Percutaneous Absorption of Solvent-deposited Solids Over a Wide Dose Range

Impact of solvent dry down, vehicle pH and slowly reversible keratin binding on skin penetration of cosmetic relevant compounds: I. Liquids

Conversion of a Bi–Sn complex to Bi nanoparticles for the enhancement of V(ii)/V(iii) redox kinetics

Contact Info

Product

Resources

About

Aqueous Synthesis of Highly Dispersed Pt₂Bi Alloy Nanoplatelets for Dimethyl Ether Electro-Oxidation