Recent Advances and Challenges of Electrocatalytic N2 Reduction to Ammonia
G Qing, R Ghazfar, ST Jackowski, F Habibzadeh… - Chemical …, 2020 - ACS Publications
Global ammonia production reached 175 million metric tons in 2016, 90% of which is
produced from high purity N2 and H2 gases at high temperatures and pressures via the …
produced from high purity N2 and H2 gases at high temperatures and pressures via the …
Review on nanoporous composite phase change materials: Fabrication, characterization, enhancement and molecular simulation
Solid-liquid phase change material (PCM) is the key factor for the development of thermal
energy storage (TES) technology, which substantially contributes to the utilization of …
energy storage (TES) technology, which substantially contributes to the utilization of …
Opportunities for intermediate temperature renewable ammonia electrosynthesis
Production of ammonia using only renewable energy is achievable through various routes;
however, direct electrochemical conversion technologies have achieved significant …
however, direct electrochemical conversion technologies have achieved significant …
Ammonia synthesis at intermediate temperatures in solid-state electrochemical cells using cesium hydrogen phosphate based electrolytes and noble metal catalysts
This work reports the electrochemical synthesis of ammonia in solid-state cells at 220° C
and atmospheric pressure. Composites of CsH 2 PO 4 and SiP 2 O 7 were used as the …
and atmospheric pressure. Composites of CsH 2 PO 4 and SiP 2 O 7 were used as the …
Hydrogen production by steam electrolysis in solid acid electrolysis cells
Hydrogen production by steam electrolysis at intermediate temperatures has potential for
both the high energy conversion efficiency and the flexible operability suitable for the …
both the high energy conversion efficiency and the flexible operability suitable for the …
Performance of an intermediate-temperature fuel cell with a CsH5 (PO4) 2-doped polybenzimidazole membrane
Y Li, J Hu, H Li, L Chen - Journal of The Electrochemical Society, 2022 - iopscience.iop.org
Abstract CsH 5 (PO 4) 2-doped polybenzimidazole (PBI) membranes exhibit good proton
conductivity and mechanical properties. However, their application in fuel cells is impeded …
conductivity and mechanical properties. However, their application in fuel cells is impeded …
Ammonia synthesis by N2 and steam electrolysis in solid-state cells at 220° C and atmospheric pressure
Ammonia was synthesized directly from N 2 and steam using electrolytic cells based on CsH
5 (PO 4) 2/SiO 2 composite electrolytes and Pt-based electrodes. Steam was electrolyzed at …
5 (PO 4) 2/SiO 2 composite electrolytes and Pt-based electrodes. Steam was electrolyzed at …
Insights on the electrochemical performance of a molten proton conductor fuel cell with internal methanol reformer
Y Li, K Kappis, J Papavasiliou, Z Fu, L Chen, H Li… - Journal of Power …, 2022 - Elsevier
A fuel cell based on a molten proton conductor electrolyte membrane, in which
polybenzimidazole (PBI) membrane is doped with molten CsH 5 (PO 4) 2, has been …
polybenzimidazole (PBI) membrane is doped with molten CsH 5 (PO 4) 2, has been …
[HTML][HTML] Enhanced MEA Performance for an Intermediate-Temperature Fuel Cell with a KH5(PO4)2-Doped Polybenzimidazole Membrane
Y Li, J Hu, J Papavasiliou, Z Fu, L Chen, H Li - Membranes, 2022 - mdpi.com
This work exhibits an effective approach to enhance the performance of membrane-
electrode assembly (MEA) with KH5 (PO4) 2-doped PBI membrane, by adding phosphoric …
electrode assembly (MEA) with KH5 (PO4) 2-doped PBI membrane, by adding phosphoric …
Performance of CCM‐type MEAs based on a CsH5(PO4)2‐doped Polybenzimidazole membrane for HT‐PEMFC
Z Fu, Y Li, J Papavasiliou, Y Xing, L Liu… - … Journal of Energy …, 2022 - Wiley Online Library
In this study, two kinds of membrane electrode assembly (MEAs) based on the CsH5 (PO4)
2‐doped polybenzimidazole (PBI) membrane and fabricated by the catalyst‐coated …
2‐doped polybenzimidazole (PBI) membrane and fabricated by the catalyst‐coated …