Tuning the Optical, Electrical, and Optoelectronic Properties of CuO Thin Films Fabricated by Facile SILAR Dip‐Coating Technique for Photosensing Applications

[1]  J. Kennedy,et al.  Catalyst-free synthesis of copper oxide composites as solar radiative filters , 2020, Nanotechnology.

[2]  B. Balraj,et al.  Structural and Optical Behavior of CuO/Ag and CuO/Ag/Au Nanocatalysts Synthesized Via a Novel Two Step Synthesis Approach for Enhancement of Catalytic Activity , 2020, Journal of Inorganic and Organometallic Polymers and Materials.

[3]  A. Ramanavičius,et al.  Tuning the Photo-Luminescence Properties of WO3 Layers by the Adjustment of Layer Formation Conditions , 2020, Materials.

[4]  D. Flandre,et al.  Structural and Opto-electronic characterization of CuO thin films prepared by DC reactive magnetron sputtering , 2020, Journal of Materials Science: Materials in Electronics.

[5]  A. Jagminas,et al.  TiO2-x/TiO2-Structure Based ‘Self-Heated’ Sensor for the Determination of Some Reducing Gases , 2019, Sensors.

[6]  Richa Singh,et al.  Effect of annealing time on the structural and optical properties of n-CuO thin films deposited by sol-gel spin coating technique and its application in n-CuO/p-Si heterojunction diode , 2019, Thin Solid Films.

[7]  J. Rayappan,et al.  Stalling behaviour of chloride ions: A non-enzymatic electrochemical detection of α-Endosulfan using CuO interface , 2019, Sensors and Actuators B: Chemical.

[8]  H. Çavuşoğlu,et al.  Influence of sodium dodecyl sulfate as a surfactant on the microstructural, morphological and optoelectronic characteristics of SILAR deposited CuO thin films , 2019, Materials Research Express.

[9]  I. A. Palani,et al.  Solution-Processed Transparent CuO Thin Films for Solar-Blind Photodetection , 2019, IEEE Electron Device Letters.

[10]  B. Hadjoudja,et al.  Thickness effect on electrical properties of copper oxide thin films , 2019 .

[11]  Y. Ocak,et al.  n-Type conductivity of CuO thin films by metal doping , 2017, Applied Surface Science.

[12]  M. Fakhri,et al.  Thermal oxidation effects on physical properties of CuO2 thin films for optoelectronic application , 2018, Materials Research Express.

[13]  Artur Rydosz,et al.  The Use of Copper Oxide Thin Films in Gas-Sensing Applications , 2018, Coatings.

[14]  B. Satpati,et al.  Magnetic field induced electrochemical performance enhancement in reduced graphene oxide anchored Fe3O4 nanoparticle hybrid based supercapacitor , 2018, Journal of Physics D: Applied Physics.

[15]  Z. C. Alex,et al.  Facile synthesis of Cu2O and CuO nanoparticles and study of their structural, optical and electronic properties , 2018 .

[16]  G. Zheng,et al.  Investigation of optical bandgap variation and photoluminescence behavior in nanocrystalline CuO thin films , 2018 .

[17]  C. Guillén,et al.  Single-phase Cu2O and CuO thin films obtained by low-temperature oxidation processes , 2018 .

[18]  G. Dalapati,et al.  Chemical bath deposited (CBD) CuO thin films on n-silicon substrate for electronic and optical applications: Impact of growth time , 2017 .

[19]  Hongji Li,et al.  Hierarchical flower-like CuO film: One-step room temperature synthesis, formation mechanism and excellent optoelectronic properties , 2017 .

[20]  C. Muiva,et al.  Surfactant assisted chemical bath deposition based synthesis of 1-D nanostructured CuO thin films from alkaline baths , 2017 .

[21]  J. Chandrasekaran,et al.  Optimization and characterization of CuO thin films for P–N junction diode application by JNSP technique , 2017 .

[22]  Chenhao Zhao,et al.  3D network-like porous MnCo2O4 by the sucrose-assisted combustion method for high-performance supercapacitors , 2017 .

[23]  T. Mahalingam,et al.  Improved properties of spray pyrolysed CuO nanocrystalline thin films , 2017, Journal of Materials Science: Materials in Electronics.

[24]  A. Billard,et al.  Microstructures and optoelectronic properties of CuxO films deposited by high-power impulse magnetron sputtering , 2016 .

[25]  J. Kennedy,et al.  Controlling preferred orientation and electrical conductivity of zinc oxide thin films by post growth annealing treatment , 2016 .

[26]  Kai Hui,et al.  Characterization of Sn-doped CuO thin films prepared by a sol–gel method , 2016, Journal of Materials Science: Materials in Electronics.

[27]  Y. Akaltun Effect of thickness on the structural and optical properties of CuO thin films grown by successive ionic layer adsorption and reaction , 2015 .

[28]  Praveen Kumar,et al.  Synthesis, Characterization and Development of Opto-Electronic Humidity Sensor using Copper Oxide Thin Film , 2015 .

[29]  G. Rajeshkhanna,et al.  Urchin and sheaf-like NiCo 2 O 4 nanostructures: Synthesis and electrochemical energy storage application , 2014 .

[30]  T. Mahalingam,et al.  Determination of structural and optical parameters of CuO thin films prepared by double dip technique , 2014, Journal of Materials Science: Materials in Electronics.

[31]  Zheng-Hong Lu,et al.  Thin-film metal oxides in organic semiconductor devices: their electronic structures, work functions and interfaces , 2013 .

[32]  R. Sathyamoorthy,et al.  Physical properties of nanocrystalline CuO thin films prepared by the SILAR method , 2013 .

[33]  V. Patil,et al.  Nanocrystalline CuO thin films: synthesis, microstructural and optoelectronic properties , 2012, Journal of Materials Science: Materials in Electronics.

[34]  G. Çankaya,et al.  Growth of homogenous CuO nano-structured thin films by a simple solution method , 2011 .

[35]  R. P. Wijesundera Fabrication of the CuO/Cu2O heterojunction using an electrodeposition technique for solar cell applications , 2010 .

[36]  A. C. Jayasuriya,et al.  Fabrication of cuprous and cupric oxide thin films by heat treatment , 2009 .