Recent advances in materials design using atomic layer deposition for energy applications
The design and development of materials at the nanoscale has enabled efficient, cutting‐
edge renewable energy storage, and conversion devices such as solar cells, water splitting …
edge renewable energy storage, and conversion devices such as solar cells, water splitting …
Thin film solid oxide fuel cells operating below 600 C: a review
Thin film solid oxide fuel cells (TF-SOFCs) are one of the promising portable power sources
in terms of rapid on/off, compact system volume, and high power density. This paper reviews …
in terms of rapid on/off, compact system volume, and high power density. This paper reviews …
Atmospheric atomic layer deposition of SnO 2 thin films with tin (ii) acetylacetonate and water
Due to its unique optical, electrical, and chemical properties, tin dioxide (SnO2) thin films
attract enormous attention as a potential material for gas sensors, catalysis, low-emissivity …
attract enormous attention as a potential material for gas sensors, catalysis, low-emissivity …
Ultrathin Atomic Layer-Deposited CeO2 Overlayer for High-Performance Fuel Cell Electrodes
Obtaining a catalyst with high activity and thermal stability is essential for high-performance
energy conversion devices operating at an elevated temperature. Herein, the design and …
energy conversion devices operating at an elevated temperature. Herein, the design and …
Review on process-microstructure-performance relationship in ALD-engineered SOFCs
Solid oxide fuel cells (SOFCs) are promising candidates for next-generation energy
conversion devices, and much effort has been made to lower their operating temperature for …
conversion devices, and much effort has been made to lower their operating temperature for …
Atomic layer deposition for surface engineering of solid oxide fuel cell electrodes
Atomic layer deposition (ALD) has recently attracted attention as a technique to synthesize
and engineer high-performance catalysts and electrodes for fuel cells. Unique advantages …
and engineer high-performance catalysts and electrodes for fuel cells. Unique advantages …
Atomic layer deposited YSZ overlayer on Ru for direct methane utilization in solid oxide fuel cell
We report on the fabrication of thin yttria-stabilized zirconia (YSZ) overlayers via atomic layer
deposition (ALD) conformally coated on anodes of methane-fueled low-temperature solid …
deposition (ALD) conformally coated on anodes of methane-fueled low-temperature solid …
Recent advances in atomic layer deposition-based interface modification engineering in thermoelectric materials
S Li, LL Wang, D Ma, Y Jiang, K Guo, J Luo - Materials Today Physics, 2023 - Elsevier
Interface, such as grain boundaries, phase boundaries in thermoelectric materials have a
tremendous impact on carrier/phonon transport. Accurate control of the interfaces in the …
tremendous impact on carrier/phonon transport. Accurate control of the interfaces in the …
Effects of nanoscale PEALD YSZ interlayer for AAO based thin film solid oxide fuel cells
Performance of thin film solid oxide fuel cells (TF-SOFCs) were improved by inserting
plasma enhanced atomic layer deposition (PEALD) of yttira-stabilized zirconia (YSZ) …
plasma enhanced atomic layer deposition (PEALD) of yttira-stabilized zirconia (YSZ) …
Enhancing thermal-stability of metal electrodes with a sputtered gadolinia-doped ceria over-layer for low-temperature solid oxide fuel cells
Cathodic activation loss is the dominant loss mechanism in the operation of low-temperature
solid oxide fuel cells (LT-SOFCs). The thermal degradation of metallic cathodes decreases …
solid oxide fuel cells (LT-SOFCs). The thermal degradation of metallic cathodes decreases …