Excellence on Nanoscience and Nanotechnology â Nano- center, Jožef Stefan Institute, Slovenia. The authors appreciate the financial support from VILLUM ...
May 1, 2018 - Quantification on Degradation Mechanisms of Polymer Electrolyte Membrane Fuel Cell Catalyst Layers during an Accelerated Stress Test.
Mar 14, 2018 - (21,25) Those works focus on the catalyst itself, which is certainly essential, ... Figure 1. Schematics of the three-electrode cells for AST using (a) standard .... of the Pt(111) using Scherer formula [β(2θ) = 0.9λ/L cos θ, where
9 hours ago - Long term durability of the catalyst layers of a low working temperature fuel cell such as polymer electrolyte membrane fuel cell (PEMFC) is of significant scientific interest owing to their operation criteria and high initial cost. Ide
Mar 14, 2018 - The long-term durability of the catalyst layers of a low-working temperature fuel cell such as a polymer electrolyte membrane fuel cell (PEMFC) is of significant scientific interest because of their operation criteria and high initial
Mar 14, 2018 - As shown in Figure 1e, the setup avoids the H+ conduction pathway through a liquid electrolyte and hence enables estimation of the ionomer/catalyst interface loss/detachment. Possible types of eâ and H+ pathways to Pt particles after
Kaifeng Hu, William M. Westler, and John L. Markley*. J. Am. Chem. Soc. , 2012, 134 (7), pp 3612â3612. DOI: 10.1021/ja3009049. Publication Date (Web): ...
Simultaneous Quantification and Identification of Individual Chemicals in Metabolite Mixtures by Two-Dimensional Extrapolated Time-ZeroHâC HSQC (HSQC0).
Feb 22, 2012 - Simultaneous Quantification and Identification of Individual Chemicals in Metabolite Mixtures by Two-Dimensional Extrapolated Time-ZeroHâC ...
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Correction to Quantification on Degradation Mechanisms of Polymer Electrolyte Membrane Fuel Cell Catalyst Layers during Accelerated Stress Test Raghunandan Sharma and Shuang Ma Andersen* ACS Catal. 2018, 8 (4), 3424−3434, DOI: 10.1021/acscatal.8b00002 Correction and addition in Acknowledgment: The authors greatly appreciate Dr. Saso Gyergyek for performing transmission electron microscopy, and practical help from Ph.D. fellow Morten Gildsig Poulsen. The authors also acknowledge the use of equipment in the Center of Excellence on Nanoscience and Nanotechnology − Nanocenter, Jožef Stefan Institute, Slovenia. The authors appreciate the financial support from VILLUM FONDEN blokstipendier, DuraPEM III (ForskEL J.No 2013-1-12064), UpCat (ForskEL J.No 2015-1-12315), and the Danish Council for Strategic Research, Innovation Fond Denmark, through the 4 M Centre (J.No 12-132710). The authors appreciate EWII fuel cell A/S for providing electrode materials.
