Inverting electrodeposited nanostructured Cu2O thin films from n-type to p-type semiconductors and variation of their physical and photoelectrochemical properties for …
Employing identical techniques to produce the semiconductor with n and p-type conductivity
is one of the most important keys to fabricating higher performance optoelectronic devices …
is one of the most important keys to fabricating higher performance optoelectronic devices …
Tuning of the structural, morphological, optoelectronic and interfacial properties of electrodeposited Cu2O towards solar water-splitting by varying the deposition pH
IR Hamdani, AN Bhaskarwar - Solar Energy Materials and Solar Cells, 2022 - Elsevier
In the present work investigations on the morphological, structural, optoelectronic, and
photoelectrochemical properties of Cu 2 O were carried out in detail at various deposition …
photoelectrochemical properties of Cu 2 O were carried out in detail at various deposition …
Enhancement of Photocatalytic Activity of Electrodeposited Cu2O by Reducing Oxygen Vacancy Density
Oxygen vacancies (OVs) are common in cuprous oxide (Cu2O), and the effect of OVs on
photocatalytic activity remains unclear. In this study, the photocatalytic activity of Cu2O …
photocatalytic activity remains unclear. In this study, the photocatalytic activity of Cu2O …
Doping of nanostructured Cu2O films to improve physical and photoelectrochemical properties as a step forward for optoelectronics applications
Here, we study the effect of doping Cu 2 O films with potassium ions to enhance physical
and photoelectrochemical properties. An electrochemical deposition technique was …
and photoelectrochemical properties. An electrochemical deposition technique was …
Solution‐Processed High‐Quality Cu2O Thin Films as Hole Transport Layers for Pushing the Conversion Efficiency Limit of Cu2O/Si Heterojunction Solar Cells
Cuprous oxide (Cu2O) is a nontoxic and earth‐abundant semiconductor material, which is a
promising candidate for low‐cost photovoltaic applications. Although Cu2O‐based solar …
promising candidate for low‐cost photovoltaic applications. Although Cu2O‐based solar …
Enhancement of Structural, Optical and Photoelectrochemical Properties of n−Cu2O Thin Films with K Ions Doping toward Biosensor and Solar Cell Applications
n-type Cu2O thin films were grown on conductive FTO substrates using a low-cost
electrodeposition method. The doping of the n− Cu2O thin films with K ions was well …
electrodeposition method. The doping of the n− Cu2O thin films with K ions was well …
Evaluation of hydrogen evolution reaction on chemical bath deposited Cu2O thin films: Effect of copper source and triethanolamine content
O Reyes-Vallejo, R Sánchez-Albores… - International Journal of …, 2022 - Elsevier
The chemical bath deposition method was used to deposit thin films of cuprous oxide. The
effect of copper source and triethanolamine content on the optical, morphological, structural …
effect of copper source and triethanolamine content on the optical, morphological, structural …
Synthesis and characterization of wearable cuprous oxide/conductive fabric enabled non-enzymatic electrochemical sensing of glucose
A Singh, A Sharma, AK Sundramoorthy, S Arya - Ionics, 2023 - Springer
Electrochemical deposition was effectively used to generate cuprous oxide nanostructure on
conductive fabric (CF). Scanning electron microscope, photoluminescence, X-ray …
conductive fabric (CF). Scanning electron microscope, photoluminescence, X-ray …
Hierarchical Solid‐Additive Strategy for Achieving Layer‐by‐Layer Organic Solar Cells with Over 19% Efficiency
Q Chen, Z Bian, Y Yang, X Cui, C Jeffreys… - Angewandte …, 2024 - Wiley Online Library
Abstract Layer‐by‐layer (LbL) deposition of active layers in organic solar cells (OSCs) offers
immense potential for optimizing performance through precise tailoring of each layer …
immense potential for optimizing performance through precise tailoring of each layer …
Investigating the physical and electrical properties of La2O3 via annealing of La(OH)3
A simple technique was utilized to fabricate pure hexagonal La2O3 nanorods by utilizing
lanthanum (III) nitrate hexahydrate (La (NO3) 3· 6H2O) and ammonia (NH4OH). The La2O3 …
lanthanum (III) nitrate hexahydrate (La (NO3) 3· 6H2O) and ammonia (NH4OH). The La2O3 …