Pankaj Pathania scite author profile

Pankaj Pathania

4Publications

15Citation Statements Received

54Citation Statements Given

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122

Affiliations

Galgotias University, Gautam Buddha University

Publications

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Fano Resonance-Based Blood Plasma Monitoring and Sensing using Plasmonic Nanomatryoshka

Pathania

Shishodia

2021

Plasmonics

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The fast label-free detection of specific antibodies and their concentration in blood plasma is useful for many applications, e.g., in Covid-19 patients. The change in biophysical properties like the refractive index of blood plasma due to the production of antibodies during infection may be very helpful in estimating the level and intensity of infection and subsequent treatment based on blood plasma therapy. In this article, Fano resonance-based refractive index sensor using plasmonic nanomatryoshka is proposed for blood plasma sensing. The interaction between hybridized modes (bright and dark modes) in optimized nanomatryoshka leads to Fano resonance, which by virtue of steeper dispersion can confine the light more efficiently compared with Lorentzian resonance. We propose the excitation of Fano resonances in sub 100-nm size nanomatryoshka based on newly emerging plasmonic materials ZrN and HfN, and one of the most widely used conventional plasmonic material, Au. Fano resonance-based plasmonic sensors leads to sensitivity = 188.5 nm/RIU, 242.5 nm/RIU, and 244.9 nm/RIU for Au, ZrN, and HfN, respectively. The corresponding figure of merit (nm/RIU) is ~ 3.5 × 10 3 , 3.1 × 10 3 , and 2.8 × 10 3 for Au, ZrN, and HfN, respectively. Present theoretical analysis shows that refractive index sensors with high sensitivity and figure of merit are feasible using Fano modes of plasmonic nanomatryoshka.

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Gain-Assisted Transition Metal Ternary Nitrides (Ti1−xZrxN) Core–Shell Based Sensing of Waterborne Bacteria in Drinking Water

Pathania

Shishodia

2019

Plasmonics

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Estimation of sensing characteristics for refractory nitrides based gain assisted core-shell plasmonic nanoparticles

Shishodia

Pathania

2018

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Refractory transition metal nitrides such as zirconium nitride (ZrN), hafnium nitride (HfN) and titanium nitride (TiN) have emerged as viable alternatives to coinage metals based plasmonic materials, e.g., gold (Au) and silver (Ag). The present work assesses the suitability of gain assisted ZrN-, HfN- and TiN-based conventional core-shell nanoparticles (CCSNPs) and multilayered core-shell nanoparticles (MCSNPs) for refractive index sensing. We report that the optical gain incorporation in the dielectric layer leads to multifold enhancement of the scattering efficiency (Qsca), substantial reduction of the spectral full width at half maximum, and a higher figure of merit (FOM). In comparison with CCSNPs, the MCSNP system exhibits superior sensing characteristics such as higher FOM, ∼ 45% reduction in the critical optical gain, response shift towards the biological window, and higher degree of tunability. Inherent biocompatibility, growth compatibility, chemical stability and flexible spectral tuning of refractory nitrides augmented by superior sensing properties in the present work may pave the way for refractory nitrides based low cost sensing.

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Systematic investigation of transition metal nitrides (ZrN,TiN) based plasmonic multilayered core-shell nanoparticle for sensing

Faujdar

Pathania

Katyal

2022

Materials Today: Proceedings

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Pankaj Pathania

Fano Resonance-Based Blood Plasma Monitoring and Sensing using Plasmonic Nanomatryoshka

Gain-Assisted Transition Metal Ternary Nitrides (Ti1−xZrxN) Core–Shell Based Sensing of Waterborne Bacteria in Drinking Water

Estimation of sensing characteristics for refractory nitrides based gain assisted core-shell plasmonic nanoparticles

Systematic investigation of transition metal nitrides (ZrN,TiN) based plasmonic multilayered core-shell nanoparticle for sensing

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