Nanotubular Arrayed LIPSS Achieved with Femtosecond Bessel Beam on Silver Surface for SERS-Based Multiple Explosive Sensing

Banerjee, Dipanjan; Akkanaboina, Mangababu; Kanaka, Ravi Kumar; Ghose, Bikash; Soma, Venugopal Rao

doi:10.1021/acs.jpcc.4c00160

J. Phys. Chem. C

2024

DOI: 10.1021/acs.jpcc.4c00160

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Nanotubular Arrayed LIPSS Achieved with Femtosecond Bessel Beam on Silver Surface for SERS-Based Multiple Explosive Sensing

Dipanjan Banerjee,

Mangababu Akkanaboina,

Ravi Kumar Kanaka

et al.

Abstract: Arising from ultrashort laser−matter interactions, laser-induced periodic surface structures (LIPSS) have evolved into promising applications in various fields, such as nanophotonics, solar energy conversion, photodetectors, photocatalysis, and sensing. This study presents the creation of a novel nanotubular arrayed silver (Ag) LIPSS utilizing an axicon-generated femtosecond Bessel beam. A meticulous exploration has unraveled the mechanism behind Bessel beam-induced LIPSS formation, revealing how the modulatio… Show more

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Cited by 3 publications

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Fabrication of Ion Beam–Modified Flexible Plasmonic-Based Au-ITO-PET Substrates for SERS Applications

Motla,

Kumar,

Umapathy

et al. 2024

Plasmonics

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Fabrication of Ion Beam–Modified Flexible Plasmonic-Based Au-ITO-PET Substrates for SERS Applications

Motla,

Kumar,

Umapathy

et al. 2024

Plasmonics

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Plasmonic nanoparticle sensors: current progress, challenges, and future prospects

Kant,

Beeram,

Cao

et al. 2024

Nanoscale Horiz.

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Energy–dependent femtosecond LIPSS on germanium and application in explosives sensing

Rathod,

Moram,

Soma

2024

J. Phys. D: Appl. Phys.

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In this study, we fabricated laser-induced periodic surface structures (LIPSS) on a germanium surface through laser ablation in air using axicon and femtosecond (fs) pulses. This novel approach permitted the nanoscale material processing outcome refinement via an fs Bessel beam. Our investigations aimed at systematically understanding the formation of periodic structures under various experimental conditions, such as (i) different pulse energies ranging from 50 µJ to 1000 µJ at a constant scan speed and (ii) constant energy with different scan speeds (0.1-3 mm/s). By adjusting the fluences and scan speeds, we were able to identify the parametric space and alter the periodicity of the low-spatial frequency LIPSS (LSFL) and high-spatial frequency LIPSS (HSFL) on germanium, which were analyzed using field emission scanning electron microscopy (FESEM). An optimal LIPSS formation over a large area of germanium was achieved at an input energy of 250 µJ and a scan speed of 0.75 mm/s. Additionally, we measured the contact angles (CAs) of the Ge nanostructures (GeNSs) to demonstrate their hydrophobic nature and non-wetting properties, providing insights into the behavior of LIPSS. Subsequently, the GeNSs were coated with a ~15 nm thick gold (Au) film using a thermal deposition method. Utilizing these, the surface-enhanced Raman spectroscopy (SERS) technique detected diverse analytes, such as tetryl (an explosive) at a concentration of 50 µM and thiram (a pesticide) at 500 nM. The SERS enhancement factors for tetryl and thiram molecules on GeNSs coated with a 15 nm-thick Au layer were determined to be 2.5×104 and 4.2×105, respectively.

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Nanotubular Arrayed LIPSS Achieved with Femtosecond Bessel Beam on Silver Surface for SERS-Based Multiple Explosive Sensing

Cited by 3 publications

References 81 publications

Fabrication of Ion Beam–Modified Flexible Plasmonic-Based Au-ITO-PET Substrates for SERS Applications

Fabrication of Ion Beam–Modified Flexible Plasmonic-Based Au-ITO-PET Substrates for SERS Applications

Plasmonic nanoparticle sensors: current progress, challenges, and future prospects

Energy–dependent femtosecond LIPSS on germanium and application in explosives sensing

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