Multi-Functional Applications of H-Glass Embedded with Stable Plasmonic Gold Nanoislands

Jagannath Gangareddy; Pratyasha Rudra; Manohar Chirumamilla; Sudheer Ganisetti; Subramanian Kasimuthumaniyan; Sourav Sahoo; K. Jayanthi; Jagannath Rathod; Venugopal Rao Soma; Subrata Das; Nitya Nand Gosvami; N. M.Anoop Krishnan; Kjeld Pedersen; Swastik Mondal; Srabanti Ghosh; Amarnath R. Allu

doi:10.1002/smll.202303688

Multi-Functional Applications of H-Glass Embedded with Stable Plasmonic Gold Nanoislands

Jagannath Gangareddy
, Pratyasha Rudra
, Manohar Chirumamilla
, Sudheer Ganisetti
, Subramanian Kasimuthumaniyan
, Sourav Sahoo
, K. Jayanthi
, Jagannath Rathod
, Venugopal Rao Soma
, Subrata Das
, Nitya Nand Gosvami
, N. M.Anoop Krishnan
, Kjeld Pedersen
, Swastik Mondal
, Srabanti Ghosh
, Amarnath R. Allu

Nanomaterials Chemistry Group

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

Metal nanoparticles (MNPs) are synthesized using various techniques on diverse substrates that significantly impact their properties. However, among the substrate materials investigated, the major challenge is the stability of MNPs due to their poor adhesion to the substrate. Herein, it is demonstrated how a newly developed H-glass can concurrently stabilize plasmonic gold nanoislands (GNIs) and offer multifunctional applications. The GNIs on the H-glass are synthesized using a simple yet, robust thermal dewetting process. The H-glass embedded with GNIs demonstrates versatility in its applications, such as i) acting as a room temperature chemiresistive gas sensor (70% response for NO₂ gas); ii) serving as substrates for surface-enhanced Raman spectroscopy for the identifications of Nile blue (dye) and picric acid (explosive) analytes down to nanomolar concentrations with enhancement factors of 4.8 × 10⁶ and 6.1 × 10⁵, respectively; and iii) functioning as a nonlinear optical saturable absorber with a saturation intensity of 18.36 × 10¹⁵ W m⁻² at 600 nm, and the performance characteristics are on par with those of materials reported in the existing literature. This work establishes a facile strategy to develop advanced materials by depositing metal nanoislands on glass for various functional applications.

Original language	English
Article number	2303688
Journal	Small
Volume	20
Issue number	1
DOIs	https://doi.org/10.1002/smll.202303688
State	Published - Jan 4 2024

Funding

This work was established under the framework of the project supported by the Science and Engineering Research Board (SERB), DST, Govt. of India, through the Early Career Research Award (ECR/2018/000292). A.R.A. would like thank DST–SERB (ECR/2018/000292) for financial support. S.G. thanks SERB for the POWER Grant (SPG/2020/000720). The author, J.G. acknowledges CSIR, New Delhi for providing CSIR‐RA fellowship (31/015(0158)/2020‒EMR‒I). P.R. and S.M. would like to acknowledge Mr. Jalaluddin Mondal for his technical support while performing gas sensing experiments. P.R. thanks DST for sanctioning INSPIRE fellowship (DST/INSPIRE Fellowship/2018/IF180761). S.M. acknowledges financial support from SERB Core Research Grant, Government of India (Grant number: CRG/2019/004588). V.R.S. thanks DRDO, India, for financial support through ACRHEM [ERIP/ER/1501138/M/01/319/D(R&D)]. V.R.S. also thanks the University of Hyderabad for project funding under the Institute of Eminence scheme (#UOH/IOE/RC1/RC1‐20‐016).

Keywords

NO gas sensors
glasses
gold nanoislands
saturable absorber
stability of gold nano-islands
surface-enhanced Raman spectroscopy substrate

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10.1002/smll.202303688

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Gangareddy, J., Rudra, P., Chirumamilla, M., Ganisetti, S., Kasimuthumaniyan, S., Sahoo, S., Jayanthi, K., Rathod, J., Soma, V. R., Das, S., Gosvami, N. N., Krishnan, N. M. A., Pedersen, K., Mondal, S., Ghosh, S., & Allu, A. R. (2024). Multi-Functional Applications of H-Glass Embedded with Stable Plasmonic Gold Nanoislands. Small, 20(1), Article 2303688. https://doi.org/10.1002/smll.202303688

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AU - Chirumamilla, Manohar

AU - Ganisetti, Sudheer

AU - Kasimuthumaniyan, Subramanian

AU - Sahoo, Sourav

AU - Jayanthi, K.

AU - Rathod, Jagannath

AU - Soma, Venugopal Rao

AU - Das, Subrata

AU - Gosvami, Nitya Nand

AU - Krishnan, N. M.Anoop

AU - Pedersen, Kjeld

AU - Mondal, Swastik

AU - Ghosh, Srabanti

AU - Allu, Amarnath R.

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N2 - Metal nanoparticles (MNPs) are synthesized using various techniques on diverse substrates that significantly impact their properties. However, among the substrate materials investigated, the major challenge is the stability of MNPs due to their poor adhesion to the substrate. Herein, it is demonstrated how a newly developed H-glass can concurrently stabilize plasmonic gold nanoislands (GNIs) and offer multifunctional applications. The GNIs on the H-glass are synthesized using a simple yet, robust thermal dewetting process. The H-glass embedded with GNIs demonstrates versatility in its applications, such as i) acting as a room temperature chemiresistive gas sensor (70% response for NO2 gas); ii) serving as substrates for surface-enhanced Raman spectroscopy for the identifications of Nile blue (dye) and picric acid (explosive) analytes down to nanomolar concentrations with enhancement factors of 4.8 × 106 and 6.1 × 105, respectively; and iii) functioning as a nonlinear optical saturable absorber with a saturation intensity of 18.36 × 1015 W m−2 at 600 nm, and the performance characteristics are on par with those of materials reported in the existing literature. This work establishes a facile strategy to develop advanced materials by depositing metal nanoislands on glass for various functional applications.

AB - Metal nanoparticles (MNPs) are synthesized using various techniques on diverse substrates that significantly impact their properties. However, among the substrate materials investigated, the major challenge is the stability of MNPs due to their poor adhesion to the substrate. Herein, it is demonstrated how a newly developed H-glass can concurrently stabilize plasmonic gold nanoislands (GNIs) and offer multifunctional applications. The GNIs on the H-glass are synthesized using a simple yet, robust thermal dewetting process. The H-glass embedded with GNIs demonstrates versatility in its applications, such as i) acting as a room temperature chemiresistive gas sensor (70% response for NO2 gas); ii) serving as substrates for surface-enhanced Raman spectroscopy for the identifications of Nile blue (dye) and picric acid (explosive) analytes down to nanomolar concentrations with enhancement factors of 4.8 × 106 and 6.1 × 105, respectively; and iii) functioning as a nonlinear optical saturable absorber with a saturation intensity of 18.36 × 1015 W m−2 at 600 nm, and the performance characteristics are on par with those of materials reported in the existing literature. This work establishes a facile strategy to develop advanced materials by depositing metal nanoislands on glass for various functional applications.

KW - NO gas sensors

KW - glasses

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KW - stability of gold nano-islands

KW - surface-enhanced Raman spectroscopy substrate

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ER -

Multi-Functional Applications of H-Glass Embedded with Stable Plasmonic Gold Nanoislands

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Keywords

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