Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features
Narrow bandwidth, high brightness, and spectral tunability are the unique properties of lasers that make them extremely desirable for fluorescence imaging applications. However, due to the high spatial coherence, conventional lasers are often incompatible for wide-field fluorescence imaging. The pre...
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sg-ntu-dr.10356-1611342022-08-16T07:41:50Z Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features Gayathri, R. Suchand Sandeep, Chandramathi Sukumaran Gummaluri, Venkata Siva Asik, R. Mohamed Padmanabhan, Parasuraman Gulyás, Balazs Vijayan, C. Murukeshan, Vadakke Matham Lee Kong Chian School of Medicine (LKCMedicine) School of Mechanical and Aerospace Engineering Centre for Optical and Laser Engineering Cognitive Neuroimaging Centre Engineering::Mechanical engineering Fluorophores Cellulars Narrow bandwidth, high brightness, and spectral tunability are the unique properties of lasers that make them extremely desirable for fluorescence imaging applications. However, due to the high spatial coherence, conventional lasers are often incompatible for wide-field fluorescence imaging. The presence of parasitic artefacts under coherent illumination causes uneven excitation of fluorophores, which has a critical impact on the reliability, resolution, and efficiency of fluorescence imaging. Here, we demonstrate artefact-free wide-field fluorescence imaging with a bright and low threshold silver nanorod based plasmonic random laser, offering the capability to image finer cellular features with sub-micrometer resolution even in highly diffusive biological samples. A spatial resolution of 454 nm and up to 23% enhancement in the image contrast in comparison to conventional laser illumination are attained. Based on the results presented in this paper, random lasers, with their laser-like properties and spatial incoherence are envisioned to be the next-generation sources for developing highly efficient wide-field fluorescence imaging systems having high spatial and temporal resolution for real-time, in vivo bioimaging. Economic Development Board (EDB) Ministry of Education (MOE) Nanyang Technological University Published version The authors thank COLE-EDB, NTU and Ministry of Education, Singapore (MOE RG 192/17) for funding and manpower support. R. G. thanks NTU-India connect for the joint-degree program and DST for INSPIRE fellowship. R. M. A. thanks DST-SERB, New Delhi, India for providing financial support through SERB-Overseas Visiting Doctoral Fellowship (ODF/ 2018/001044/ dt. 27.05.2019). 2022-08-16T07:41:50Z 2022-08-16T07:41:50Z 2022 Journal Article Gayathri, R., Suchand Sandeep, C. S., Gummaluri, V. S., Asik, R. M., Padmanabhan, P., Gulyás, B., Vijayan, C. & Murukeshan, V. M. (2022). Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features. Nanoscale Advances, 4(10), 2278-2287. https://dx.doi.org/10.1039/d1na00866h 2516-0230 https://hdl.handle.net/10356/161134 10.1039/d1na00866h 2-s2.0-85129486819 10 4 2278 2287 en RG 192/17 Nanoscale Advances © 2022 The Author(s). Published by the Royal Society of Chemistry. This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported License. application/pdf |
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Engineering::Mechanical engineering Fluorophores Cellulars Gayathri, R. Suchand Sandeep, Chandramathi Sukumaran Gummaluri, Venkata Siva Asik, R. Mohamed Padmanabhan, Parasuraman Gulyás, Balazs Vijayan, C. Murukeshan, Vadakke Matham Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features |
| description |
Narrow bandwidth, high brightness, and spectral tunability are the unique properties of lasers that make them extremely desirable for fluorescence imaging applications. However, due to the high spatial coherence, conventional lasers are often incompatible for wide-field fluorescence imaging. The presence of parasitic artefacts under coherent illumination causes uneven excitation of fluorophores, which has a critical impact on the reliability, resolution, and efficiency of fluorescence imaging. Here, we demonstrate artefact-free wide-field fluorescence imaging with a bright and low threshold silver nanorod based plasmonic random laser, offering the capability to image finer cellular features with sub-micrometer resolution even in highly diffusive biological samples. A spatial resolution of 454 nm and up to 23% enhancement in the image contrast in comparison to conventional laser illumination are attained. Based on the results presented in this paper, random lasers, with their laser-like properties and spatial incoherence are envisioned to be the next-generation sources for developing highly efficient wide-field fluorescence imaging systems having high spatial and temporal resolution for real-time, in vivo bioimaging. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Gayathri, R. Suchand Sandeep, Chandramathi Sukumaran Gummaluri, Venkata Siva Asik, R. Mohamed Padmanabhan, Parasuraman Gulyás, Balazs Vijayan, C. Murukeshan, Vadakke Matham |
| format |
Article |
| author |
Gayathri, R. Suchand Sandeep, Chandramathi Sukumaran Gummaluri, Venkata Siva Asik, R. Mohamed Padmanabhan, Parasuraman Gulyás, Balazs Vijayan, C. Murukeshan, Vadakke Matham |
| author_sort |
Gayathri, R. |
| title |
Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features |
| title_short |
Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features |
| title_full |
Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features |
| title_fullStr |
Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features |
| title_full_unstemmed |
Plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features |
| title_sort |
plasmonic random laser enabled artefact-free wide-field fluorescence bioimaging: uncovering finer cellular features |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161134 |
| _version_ |
1743119594893082624 |