Atomic Layer Deposition and Pulsed Chemical Vapor Deposition of SnI2 and CsSnI3
Halide perovskites, such as CsSnI3, are materials renowned for their exceptional
optoelectronic properties. CsSnI3 stands out as a desirable choice for nontoxic and …
optoelectronic properties. CsSnI3 stands out as a desirable choice for nontoxic and …
Tunable growth of layered double hydroxide nanosheets through hydrothermal conversion of atomic layer deposition seed layers
AM Ortiz-Ortiz, DO Delgado Cornejo… - Chemistry of …, 2024 - ACS Publications
To enable the design and manufacturing of hierarchical nanomaterial architectures, there is
a need for synthesis and processing methods that can enable tunable geometric control at …
a need for synthesis and processing methods that can enable tunable geometric control at …
[HTML][HTML] Transparent p-type copper iodide for next-generation electronics: fundamental physics and recent research trends
Abstract Development of transparent and flexible p-type semiconductors has been a
significant challenge for scientific curiosity and industrial interest. Unlike n-type metal oxide …
significant challenge for scientific curiosity and industrial interest. Unlike n-type metal oxide …
Synergistic spatial separation effect of internal electric field in ALD-generated BiFeO3/CuO@ Co Z-type heterojunction for enhanced photocatalytic water oxidation
H Tang, Z Song, L Deng, L Zhang, Q Zhang… - Journal of Colloid and …, 2025 - Elsevier
Altering the electron distribution within a catalyst to manipulate internal charge migration
pathways is an effective strategy for achieving high efficiency in carrier separation and …
pathways is an effective strategy for achieving high efficiency in carrier separation and …
Thermoelectric and Optical Properties of Nanostructured p-Type CuI Thin Films Grown by Glancing Angle Deposition for Transparent Energy-Harvesting Applications
Copper iodide (CuI) is recognized as a promising p-type transparent material with excellent
thermoelectric properties. CuI thin films are typically produced by depositing a copper layer …
thermoelectric properties. CuI thin films are typically produced by depositing a copper layer …
The flexible transparent N-doped CuI/AgI pn junction towards enhanced photovoltaic conversion via interface transition of in situ iodization
J Pan, Y Xu, L Lu, L Que, L Shi, J Cao, C Li - Surfaces and Interfaces, 2024 - Elsevier
The flexible transparent pn junction of N-doped CuI/AgI with interface transition is prepared
via approach of continuous sputtering-in situ iodization method. N-doped CuI/AgI flexible pn …
via approach of continuous sputtering-in situ iodization method. N-doped CuI/AgI flexible pn …
[HTML][HTML] Influences of deposition conditions on atomic layer deposition films for enhanced performance in perovskite solar cells
B Yu, J Zhang, Y Yang, D Yu, Y Mai, X Chen - Energy Materials, 2024 - oaepublish.com
Atomic layer deposition (ALD) is a key technology for fabricating functional layers in
perovskite solar cells, as it can deposit pinhole-free films with atomic-level thickness and …
perovskite solar cells, as it can deposit pinhole-free films with atomic-level thickness and …
Nanostructured thermoelectric materials for transparent and flexible applications
T Koskinen - 2023 - aaltodoc.aalto.fi
The global energy use is predicted to grow by up to 50% in the coming decades, placing
both pressure on resources and heavy demands on the energy efficiency of technologies …
both pressure on resources and heavy demands on the energy efficiency of technologies …
[PDF][PDF] Atomic layer deposition processes for perovskite solar cells
A Weiss - 2024 - helda.helsinki.fi
Perovskite solar cells are an emerging technology of next generation thin film photovoltaics.
Their reliance on abundant materials and straightforward fabrication, along with …
Their reliance on abundant materials and straightforward fabrication, along with …