Ion‐Implantation in Titania‐Based Plasmonic Photo‐anodes: A Review

Vemula, Sai Krishna; Raavi, Sai Santosh Kumar

doi:10.1002/admi.202200085

Cited by 6 publications

(3 citation statements)

References 268 publications

(800 reference statements)

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“…A consistent decline in metal content with increasing radiation fluence for all thicknesses suggests that an Au thin layer was sputtered.The reduced sputtering yield of Au for a lower thickness of 2 nm, such as the one utilized here, the Au content per unit area of the substrate correspondingly reduces with fluence. 18 This conclusion of reduced sputtering yield in the current investigation is found to be strongly corroborated by the creation of Au nanostructures in the AFM study.A thickness-dependent sputtering has also been seen in the past. [32][33][34] Kumar et al 33 have observed a similar fluctuation of sputtering yield with the film thickness in LiF.…”

Section: Resultssupporting

confidence: 78%

“…16 One of the standard techniques for creating noble metal NS implanted in a matrix is ion implantation, which allows for precise control over the depth distribution of the NS by carefully controlling the ion energy,ion beams, dose rate,dose, and substrate temperature. 17,18 The other advantage of using ion beam sputtering to create Au nanostructures is that it is a "bottom-up" approach that creates precise, uniform nanostructures with precise control over size, shape, and composition. Additionally, ion beam sputtering is a "dry" process that doesn't require the use of chemicals, making it more environmentally friendly than other methods.…”

mentioning

confidence: 99%

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SERS Detection of Rhodamine-6G on Ion Beam Nanostructured Ultra-Thin Gold (Au) Films: A Correlation between Fractal Growth, Water Contact-Angle and Raman Intensity

Jasrotia

Priya²,

Kumar³

et al. 2023

ECS J. Solid State Sci. Technol.

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Surface enhanced Raman scattering (SERS) detection of rhodamine-6G on gold nanostructures (Au-NS) of various sizes under ion beam irradiation is presented. On a glass substrate, Au thin films of different thicknesses (~2, 3, and 5 nm) were deposited by thermal evaporation. Subsequent irradiation using 10 keV Ar+ at different fluences has been able to modify the size of Au-NS. Ion beam-induced sputtering and diffusion processes control the formation of Au-NS. The reduction in Au content during ion beam sputtering is confirmed by Rutherford backscattering spectroscopy, which also validates tuning the size and structures of Au-NS. The wettable characteristics of Au-NS surfaces are controlled by two competing statistical factors of sputtering and surface diffusion. A correlation between the water contact angle, rms roughness, and the detection of rhodamine-6G (R6G) by SERS is presented. The current study sheds light on the mechanism(s) of SERS chemical detection for wider metallic surfaces.

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Section: Resultssupporting

confidence: 78%

mentioning

confidence: 99%

SERS Detection of Rhodamine-6G on Ion Beam Nanostructured Ultra-Thin Gold (Au) Films: A Correlation between Fractal Growth, Water Contact-Angle and Raman Intensity

Jasrotia

Priya²,

Kumar³

et al. 2023

ECS J. Solid State Sci. Technol.

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“…[3,19] On the other hand, wide bandgap semiconductor materials, such as TiO 2 , with salient performance in photo-based applications suffer from low conductivity with weak energy storage capabilities. [20,21] To mitigate this issue, alloying/doping strategies are shown to boost the material's conductivity. [3,19,22] Similarly, defect engineering is a promising protocol to tune the material's intrinsic electronic conductivity and tailor its electronic band structure.…”

Section: Introductionmentioning

confidence: 99%

Optimized V‐Doped Defective TiO₂/α‐(Fe₂O₃)_1‐x(Cr₂O₃)_x Heterojunctions for Photo‐Assisted Supercapacitor Devices: Insights on the Materials Integrity and Dual Conversion‐Storage Mechanism

Sayed,

Bahnasawy,

Allam

2023

Adv Materials Inter

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Energy conversion and storage integrated power units suffer from multiple engineering issues. Replacing two devices (solar cell and supercapacitor assembly) with one device (photo‐enhanced supercapacitor‐ PSC) requires materials with emerged dual solar‐electrochemical storage attributes. Herein, a propitious approach is developed to fabricate all visible light‐enhanced semisolid flexible PCS. Nanoflakes‐based p‐n junction α‐(Fe2O3)1‐x(Cr2O3)x photocathode is synthesized directly on industrial waste stainless steel mesh (316L‐SS). Alongside, three TiO2‐based electrodes are utilized as positive photoactive electrodes. Tuning the optical properties of TiO2 is displayed via doping with mixed valence vanadium (V4+/V5+) together with thermal hydrogen annealing. This is revealed via the reduction of the bandgap energy from 2.89 to 2.15 eV, which can be ascribed to the induced oxygen vacancies. The device can sustain up to 1.6 V potential window with 91% stability after 350 successive charge/discharge cycles with the possibility of performance regeneration to its 100% retention. An illustration of the photo‐storage mechanism is proposed based on the X–ray photoelectron spectroscopy, X–ray crystallography, and band position/alignment results. Quasi‐reversible water splitting/formation is concluded as the main storage mechanism in the semisolid state electrolyte under illumination conditions.

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A study on the Raman response of TiO2 upon ion-implantation and annealing in O2 atmosphere

Vemula,

Katta,

Ojha

et al. 2024

Optical Materials

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Ion‐Implantation in Titania‐Based Plasmonic Photo‐anodes: A Review

Cited by 6 publications

References 268 publications

SERS Detection of Rhodamine-6G on Ion Beam Nanostructured Ultra-Thin Gold (Au) Films: A Correlation between Fractal Growth, Water Contact-Angle and Raman Intensity

SERS Detection of Rhodamine-6G on Ion Beam Nanostructured Ultra-Thin Gold (Au) Films: A Correlation between Fractal Growth, Water Contact-Angle and Raman Intensity

Optimized V‐Doped Defective TiO₂/α‐(Fe₂O₃)_1‐x(Cr₂O₃)_x Heterojunctions for Photo‐Assisted Supercapacitor Devices: Insights on the Materials Integrity and Dual Conversion‐Storage Mechanism

A study on the Raman response of TiO2 upon ion-implantation and annealing in O2 atmosphere

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Ion‐Implantation in Titania‐Based Plasmonic Photo‐anodes: A Review

Cited by 6 publications

References 268 publications

SERS Detection of Rhodamine-6G on Ion Beam Nanostructured Ultra-Thin Gold (Au) Films: A Correlation between Fractal Growth, Water Contact-Angle and Raman Intensity

SERS Detection of Rhodamine-6G on Ion Beam Nanostructured Ultra-Thin Gold (Au) Films: A Correlation between Fractal Growth, Water Contact-Angle and Raman Intensity

Optimized V‐Doped Defective TiO2/α‐(Fe2O3)1‐x(Cr2O3)x Heterojunctions for Photo‐Assisted Supercapacitor Devices: Insights on the Materials Integrity and Dual Conversion‐Storage Mechanism

A study on the Raman response of TiO2 upon ion-implantation and annealing in O2 atmosphere

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Product

Resources

About

Optimized V‐Doped Defective TiO₂/α‐(Fe₂O₃)_1‐x(Cr₂O₃)_x Heterojunctions for Photo‐Assisted Supercapacitor Devices: Insights on the Materials Integrity and Dual Conversion‐Storage Mechanism