Auswahl der wissenschaftlichen Literatur zum Thema „Commercial SERS Substrates“
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Zeitschriftenartikel zum Thema "Commercial SERS Substrates"
Azziz, Aicha, Wafa Safar, Yang Xiang, Mathieu Edely und Marc Lamy de la Chapelle. „Sensing performances of commercial SERS substrates“. Journal of Molecular Structure 1248 (Januar 2022): 131519. http://dx.doi.org/10.1016/j.molstruc.2021.131519.
Der volle Inhalt der QuelleGuicheteau, J. A., A. Tripathi, E. D. Emmons, S. D. Christesen und Augustus W. Fountain. „Reassessing SERS enhancement factors: using thermodynamics to drive substrate design“. Faraday Discussions 205 (2017): 547–60. http://dx.doi.org/10.1039/c7fd00141j.
Der volle Inhalt der QuelleGiordano, Andrea N., und Rahul Rao. „Beyond the Visible: A Review of Ultraviolet Surface-Enhanced Raman Scattering Substrate Compositions, Morphologies, and Performance“. Nanomaterials 13, Nr. 15 (26.07.2023): 2177. http://dx.doi.org/10.3390/nano13152177.
Der volle Inhalt der QuelleAlmaviva, S., S. Botti, L. Cantarini, R. Fantoni, S. Lecci, A. Palucci, A. Puiu und A. Rufoloni. „Ultrasensitive RDX detection with commercial SERS substrates“. Journal of Raman Spectroscopy 45, Nr. 1 (21.11.2013): 41–46. http://dx.doi.org/10.1002/jrs.4413.
Der volle Inhalt der QuelleAlder, Rhiannon, Jungmi Hong, Edith Chow, Jinghua Fang, Fabio Isa, Bryony Ashford, Christophe Comte et al. „Application of Plasma-Printed Paper-Based SERS Substrate for Cocaine Detection“. Sensors 21, Nr. 3 (26.01.2021): 810. http://dx.doi.org/10.3390/s21030810.
Der volle Inhalt der QuelleLiu, Yu, Yang Zhang, Morgan Tardivel, Médéric Lequeux, Xueping Chen, Wei Liu, Jiaoqi Huang et al. „Evaluation of the Reliability of Six Commercial SERS Substrates“. Plasmonics 15, Nr. 3 (09.12.2019): 743–52. http://dx.doi.org/10.1007/s11468-019-01084-8.
Der volle Inhalt der QuelleTakei, Hiroyuki, Kazuki Nagata, Natalie Frese, Armin Gölzhäuser und Takayuki Okamoto. „Surface-Enhanced Raman Spectroscopy for Molecule Characterization: HIM Investigation into Sources of SERS Activity of Silver-Coated Butterfly Scales“. Nanomaterials 11, Nr. 7 (01.07.2021): 1741. http://dx.doi.org/10.3390/nano11071741.
Der volle Inhalt der QuelleBai, Shi, Yongjun Du, Chunyan Wang, Jian Wu und Koji Sugioka. „Reusable Surface-Enhanced Raman Spectroscopy Substrates Made of Silicon Nanowire Array Coated with Silver Nanoparticles Fabricated by Metal-Assisted Chemical Etching and Photonic Reduction“. Nanomaterials 9, Nr. 11 (28.10.2019): 1531. http://dx.doi.org/10.3390/nano9111531.
Der volle Inhalt der QuelleWang, Jianchao, Hongsheng Luo, Xuliang Song, Xihong Zu, Jie Zhang, Yuxin Gu und Guobin Yi. „Superhydrophobic Ag–Cu Composite Metal Film as Surface-Enhanced Raman Scattering Substrate“. Nano 13, Nr. 07 (Juli 2018): 1850083. http://dx.doi.org/10.1142/s1793292018500832.
Der volle Inhalt der QuelleLiu, Jia, Yao Yan, Zimu Zhang, Yuchen Liu, Jia Ge und Zisheng Guan. „A Simple Method for the Fabrication of Silicon Inverted Pyramid Substrates for Surface-Enhanced Raman Spectroscopy“. Materials 16, Nr. 10 (10.05.2023): 3634. http://dx.doi.org/10.3390/ma16103634.
Der volle Inhalt der QuelleDissertationen zum Thema "Commercial SERS Substrates"
Rahmani, Meryem. „Analyses Raman multispectrales exaltées pour la détection de molécules sous forme de trace“. Electronic Thesis or Diss., Le Mans, 2024. http://www.theses.fr/2024LEMA1004.
Der volle Inhalt der QuelleIn recent decades, the use of phytosanitary products commonly called pesticides has increased. These substances have become increasingly present in our environment, accumulating in soil, air and water. Even at very low concentration these products represent a danger to human, plant and animal health. For all these reasons it is important to regulate the use of phytosanitary products by prohibiting the use of certain of these substances and by strengthening regulations to set Maximum Residue Limits (MRLs) as low as possible. It is also necessary to develop new methods for detecting and identifying trace pollutants because conventional techniques require large laboratory capabilities which are not compatible with on-site analyses.In my PhD. work, we have used Surface Enhanced Raman Scattering (SERS) to detect and identify trace molecules. We studied and analyzed the performance of three commercial DRES substrates (Hamamatsu, SERSitive and Ocean Insight) for the detection and identification of a model molecule at concentrations of the order of 10-6 M and 10-8 M. We compared the Raman responses from the Raman maps recorded on their surfaces at two incident wavelengths. We have also developed and optimized efficient nanorough metallic substrates to detect and identify molecules with a detection limit of 10-9 M. We will present the experimental protocol used to fabricate our nanorough gold substrates. The topographical properties of the surfaces were studied by scanning electron microscopy (SEM) and atomic force microscopy (AFM) to better understand the reason of SERS properties of the substrates. The optical responses of our nanorough substrates were studied in the near field by electron photoemission (PEEM) and in the far field by Raman spectrometry after putting them in contact with solutions containing molecules at very low concentrations. We compared the spectral response, intensity distributions, and stability under laser beam, of gold nanorough substrates and the most efficient substrate among the three commercial DRES substrates by analyzing the Raman spectra at a concentration of 10-8 M.The stability of the Raman response of the commercial SERS substrates and our optimized nanorough substrates was studied over time, for a period of several months. The effectiveness of the substrates decreases over time and it is no longer possible to detect the presence of the molecules after several months. In my PhD work we have tested a method that makes it possible to improve the Raman performance of these aged substrates. The performance of these improved substrates was studied by analyzing Raman intensity distributions from imaging containing several hundred spectra. Finally, we used the gold nanorough substrates to detect molecules present in a binary mixture of model molecules at a concentration of 10-8 M. We analyzed the Raman maps using chemometric tools, namely Component Analysis. Principal (ACP), and Multivariate Curve Resolution (MCR)
Konferenzberichte zum Thema "Commercial SERS Substrates"
Farrell, Mikella E., Srikanth Singamaneni und Paul M. Pellegrino. „Targeting biological sensing with commercial SERS substrates“. In SPIE Defense, Security, and Sensing. SPIE, 2012. http://dx.doi.org/10.1117/12.917312.
Der volle Inhalt der QuelleFarrell, Mikella E., und Paul M. Pellegrino. „Army relevant Biological Hazards Detection with Commercial SERS substrates“. In SPIE NanoScience + Engineering, herausgegeben von Hooman Mohseni, Massoud H. Agahi und Manijeh Razeghi. SPIE, 2012. http://dx.doi.org/10.1117/12.929873.
Der volle Inhalt der QuelleHankus, Mikella E., Dimitra N. Stratis-Cullum und Paul M. Pellegrino. „Characterization of next-generation commercial surface-enhanced Raman scattering (SERS) substrates“. In SPIE Defense, Security, and Sensing. SPIE, 2011. http://dx.doi.org/10.1117/12.886779.
Der volle Inhalt der QuelleSatya Bharati, Moram Sree, Priya Lakshmi, Chandu Byram und Soma Venugonal Rao. „Commercial DVDs loaded with Femtosecond Laser Prepared Gold Nanoparticles as SERS Substrates“. In 2019 Workshop on Recent Advances in Photonics (WRAP). IEEE, 2019. http://dx.doi.org/10.1109/wrap47485.2019.9013665.
Der volle Inhalt der QuelleKassu, A., P. Robinson, A. Sharma, P. B. Ruffin, C. Brantley und E. Edwards. „Reusing commercial SERS substrate by gold/silver coating“. In SPIE NanoScience + Engineering, herausgegeben von Elizabeth A. Dobisz und Louay A. Eldada. SPIE, 2010. http://dx.doi.org/10.1117/12.859897.
Der volle Inhalt der QuelleAlexander, Troy A. „Applications of surface-enhanced Raman spectroscopy (SERS) for biosensing: an analysis of reproducible, commercially available substrates“. In Optics East 2005, herausgegeben von Brian M. Cullum und J. Chance Carter. SPIE, 2005. http://dx.doi.org/10.1117/12.630659.
Der volle Inhalt der QuelleHankus, Mikella E., Dimitra N. Stratis-Cullum und Paul M. Pellegrino. „Surface enhanced Raman scattering (SERS)-based next generation commercially available substrate: physical characterization and biological application“. In SPIE NanoScience + Engineering, herausgegeben von Hooman Mohseni, Massoud H. Agahi und Manijeh Razeghi. SPIE, 2011. http://dx.doi.org/10.1117/12.893842.
Der volle Inhalt der QuelleRokni, M. R., S. R. Nutt, M. C. Gill, C. A. Widener und R. H. Hrabe. „Depositing Metallic Coatings on Polymer Substrates by Cold Spray Process“. In ITSC2018, herausgegeben von F. Azarmi, K. Balani, H. Li, T. Eden, K. Shinoda, T. Hussain, F. L. Toma, Y. C. Lau und J. Veilleux. ASM International, 2018. http://dx.doi.org/10.31399/asm.cp.itsc2018p0210.
Der volle Inhalt der QuelleSourdaine, Maja, Derek Guenther, Cleo Harvey, Yvette Mattley, Adrian Guckian und Oliver Lischtschenko. „Protecting the food supply chain from farm to fork: Utilizing SERS and portable Raman spectroscopy“. In OCM 2015 - 2nd International Conference on Optical Characterization of Materials. KIT Scientific Publishing, 2015. http://dx.doi.org/10.58895/ksp/1000044906-21.
Der volle Inhalt der QuelleSingh, Surinder, Alexander Osi, Scott Wade, Christopher C. Berndt, Andrew Siao Ming Ang, Hugo Howse und Thomas Schlӓfer. „Optimization of Parameters for HVOF Spraying of Fine WC-NiCr Powders“. In ITSC 2023. ASM International, 2023. http://dx.doi.org/10.31399/asm.cp.itsc2023p0702.
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