Dernières publications
Discover how TERS surface information helps understanding the impact ignition mechanism of explosive nanoparticles. In this recent study, researchers from the French German Institute of St Louis and the Leibniz Institute of Photonic Technologyreports on how TERS mode with HORIBA AFM-Raman reveals the crucial surface structure of these nanoscale co-crystals of two organic explosive compounds with opposite properties.
Read the articleGold-mediated exfoliation of MoS2 produces large area (cm size) high-quality crystals that are so much wanted for building nanodevices. 2010 Physics Nobel Prize Pr S. Novoselov from the University of Manchester and numerous collaborators from UK, CZ & US (including HORIBA Scientific) published a beautiful study about the quality of interaction between MoS2 and gold using Raman and XPS. Thanks to TERS mapping with HORIBA AFM-Raman system, they could relate nanoscale variations in specific vibrational and binding energy fingerprints to local substantial strain and charge doping in monolayer MoS2. These results pave the way for strain and charge doping nanoengineering of MoS2.
Read the articleSequencing of RNA by direct imaging would be a breakthrough not only in understanding and treating human diseases but also in elucidating phenomena involving living systems. In this short communication, Pr M.O. Scully from Texas A&M University et al bring the proof of concept of identifying the sequence of individual nucleobases of a single strand RNA deposited on a gold surface using HORIBA AFM-TERS nanoimaging with an accuracy of 90%. To extract ID information from the low signal and high multiple peaks spectra the authors have developed a sophisticated analytical method based on a correlation function which estimates similarity with reference data.
Read the articleUsing Tip-Enhanced Photoluminescence (TEPL), Researchers from Columbia Engineering are first to demonstrate that sufficient strain in 2D material can yield single-photon emitters, key to quantum technologies and future photonic circuitry. The team was able to directly image these localized states for the first time, revealing that even at room temperature they are highly tunable and act as quantum emitters. TEPL has been performed with the AFM-Raman system from HORIBA Scientific and the amazing results has been published recently in Nature Nanotechnology.
Read the articleRemarkable demonstration of TERS as a powerful characterization tool for plasmonic nanostructures enabling a spatial visualization of the plasmonic resonances. Prof. P. El-Khoury from Pacific Northwest National Laboratory reports in a recent article TERS images of gold nanorods of varying lengths coated with 4-thiobenzonitrile: the spatial resolution achieved with TERS and its spatio-spectral capability allow the simultaneous observation of the quadripolar mode at low frequency shift of the molecule and tripolar mode at high frequency shift on a rod of a 240 nm length.
Read the articleMatching Raman excitation laser, band gap of analyzed material and localized surface plasmon of substrate structure to reach ultimate TERS enhancement. That’s what I.A. Milekhin from the Technische Universität Chemnitz et al have achieved on monolayers CdSe nanocrystals deposited on gold nanodisks. Read it in a recent study published in Nanoscale Advances: Nanometer resolution TERS mapping with HORIBA AFM-Raman system reveals that the CdSe phonon resonant response is strongly correlated with the local electromagnetic field distribution over the plasmonic structures (gold nanodisks and commercial SERS substrate (inverted pyramids covered by gold nanoclusters)).
Read the articleReally promising! A rapid method to detect viral contamination of surfaces! Hurry and read this article from the team of Pr Dmitry Kurouski from Texas A&M University published in ACS Analytical Chemistry. Their approach is to combine two complementary label-free, non-invasive and non-destructive imaging techniques, AFM-IR and TERS. While AFM-IR gives information about both inner and outer parts of individuals virions of MS2 and HSV-1, TERS reveals the protein secondary structure and amino acid composition of the virus surfaces.
Read the article“Imaging strain-localized excitons in nanoscale bubbles of monolayer WSe2 at room temperature” Thomas P. Darlington, Christian Carmesin, Matthias Florian, Emanuil Yanev, Obafunso Ajayi, Jenny Ardelean, Daniel A. Rhodes, Augusto Ghiotto, Andrey Krayev, Kenji Watanabe, Takashi Taniguchi, Jeffrey W. Kysar, Abhay N. Pasupathy, James C. Hone, Frank Jahnke, Nicholas J. Borys & P. James Schuck Nature Nanotechnology 15, 854–86 (2020)
“Nanometer-Scale Uniform Conductance Switching in Molecular Memristors” Sreetosh Goswami, Debalina Deb, Agnès Tempez, Marc Chaigneau, Santi Prasad Rath, Manohar Lal, Ariando, R. Stanley Williams, Sreebrata Goswami, Thirumalai Venkatesan Advanced Materials 32, 42, 2004370 (2020)
“Uncovering topographically hidden features in 2D MoSe2 with correlated potential and optical nanoprobes” David Moore, Kiyoung Jo, Christine Nguyen, Jun Lou, Christopher Muratore, Deep Jariwala & Nicholas R. Glavin npj 2D Mater Appl 4, 44 (2020)
“Chemical Vapor Deposition of MoS2 for Energy Harvesting: Evolution of the Interfacial Oxide Layer” Tim Verhagen, Alvaro Rodriguez, Martin Vondráček, Jan Honolka, Sebastian Funke, Magda Zlámalová, Ladislav Kavan, Martin Kalbac, Jana Vejpravova, and Otakar Frank ACS Appl. Nano Mater, 3, 7, 6563–6573 (2020)
“Strain and Charge Doping Fingerprints of the Strong Interaction between Monolayer MoS2 and Gold” Matěj Velický, Alvaro Rodriguez, Milan Bouša, Andrey V. Krayev, Martin Vondráček, Jan Honolka, Mahdi Ahmadi, Gavin E. Donnelly, Fumin Huang, Héctor D. Abruña, Kostya S. Novoselov, and Otakar Frank J. Phys. Chem. Lett., 11, 15, 6112–6118 (2020)
“Strong Localization Effects in the Photoluminescence of Transition Metal Dichalcogenide Heterobilayers” Alvaro Rodriguez, Martin Kalbac, Otakar Frank arXiv:2010.06326 (2020)
“Radiative Decay of Dark Exciton Related Emission in a Sandwiched Monolayer WSe2 Revealed by Room Temperature Micro and Nano Photoluminescence” Mahfujur Rahaman, Oleksandr Selyshchev, Yang Pan, Ilya Milekhin, Apoorva Sharma, Georgeta Salvan, Sibylle Gemming, Dietrich R T Zahn arXiv:2006.04979 (2020)
“Resonant tip-enhanced Raman scattering by CdSe nanocrystals on plasmonic substrates” Milekhin, M. Rahaman, K. V. Anikin, E. E. Rodyakina, T. A. Duda, B. M. Saidzhonov, R. B. Vasiliev, V. M. Dzhagan, A. G. Milekhin, A. V. Latyshev and D. R. T. Zahn Nanoscale Adv., 2020, 2, 5441-5449
“Picoscale control of quantum plasmonic photoluminescence enhancement at 2D lateral heterojunction” Zachary H Withers, Sharad Ambardar, Xiaoyi Lai, Jiru Liu, Alina Zhukova, Dmitri V Voronine arXiv:2001.10138 (2020)
“Observation of propagating surface plasmon polaritons by using functionalized tip‐enhanced Raman spectroscopy” Chawki Awada Chahinez Dab Jiawei Zhang Andreas Ruediger Journal of Raman Spectroscopy 51, 8, 1270-1277 (2020)
“Topography-induced variations of localized surface plasmon resonance in tip-enhanced Raman configuration” Azza Hadj Youssef, Jiawei Zhang, Andreas Dörfler, Gitanjali Kolhatkar, Alexandre Merlen, and Andreas Ruediger Optics Express 28, 9, 14161-14168 (2020)
“Sample induced intensity variations of localized surface plasmon resonance in tip-enhanced Raman spectroscopy” Jiawei Zhang, Azza Hadj Youssef, Andreas Dörfler, Gitanjali Kolhatkar, Alexandre Merlen, and Andreas Ruediger Optics Express 28, 18, 25998-26006 (2020)
“Tip-Enhanced Raman Nanospectroscopy of Smooth Spherical Gold Nanoparticles” Ashish Bhattarai, Zhihua Cheng, Alan G. Joly, Irina V. Novikova, James E. Evans, Zachary D. Schultz, Matthew R. Jones, and Patrick Z. El-Khoury J. Phys. Chem. Lett. 11, 5, 1795–1801 (2020)
“Suppressing Molecular Charging, Nanochemistry, and Optical Rectification in the Tip-Enhanced Raman Geometry” Chih-Feng Wang, Brian T. O’Callahan, Dmitry Kurouski, Andrey Krayev, Zachary D. Schultz, and Patrick Z. El-Khoury J. Phys. Chem. Lett. 2020, 11, 15, 5890–5895
“Direct Experimental Evidence of Hot Carrier-Driven Chemical Processes in Tip-Enhanced Raman Spectroscopy (TERS)” Rui Wang, Jingbai Li, Joel Rigor, Nicolas Large, Patrick Z. El-Khoury, Andrey Yu. Rogachev, and Dmitry Kurouski J. Phys. Chem. C 124, 3, 2238–2244 (2020)
“A Closer Look at Corrugated Au Tips” Ashish Bhattarai, Kevin T. Crampton, Alan G. Joly, Chih-Feng Wang, Zachary D. Schultz, and Patrick Z. El-Khoury J. Phys. Chem. Lett 11, 5, 1915–1920 (2020)
“In Situ Probing the Localized Optoelectronic Properties of Defective Monolayer WS2” Yi Yao, Fei Chen, Li Fu, Su Ding, Shichao Zhao, Qi Zhang, Weitao Su*, Xin Ding, and Kaixin Song J. Phys. Chem. C 124, 13, 7591–7596 (2020)
“Tip-Enhanced Multipolar Raman Scattering” Chih-Feng Wang, Zhihua Cheng, Brian T. O’Callahan, Kevin T. Crampton, Matthew R. Jones, and Patrick Z. El-Khoury J. Phys. Chem. Lett. 11, 7, 2464–2469 (2020)
“Spatio-Spectral Characterization of Multipolar Plasmonic Modes of Au Nanorods via Tip-Enhanced Raman Scattering” Ashish Bhattarai, Brian T. O’Callahan, Chih-Feng Wang, ShanYi Wang, and Patrick Z. El-Khoury J. Phys. Chem. Lett. 11, 8, 2870–2874 (2020)
“Comparable Enhancement of TERS Signals from WSe2 on Chromium and Gold” Andrey Krayev, Sergiy Krylyuk, Robert Ilic, Angela R. Hight Walker, Ashish Bhattarai, Alan G. Joly, Matěj Velický, Albert V. Davydov, and Patrick Z. El-Khoury J. Phys. Chem. C 124, 16, 8971–8977 (2020)
“Nanoscale Structural Characterization of Individual Viral Particles Using Atomic Force Microscopy Infrared Spectroscopy (AFM-IR) and Tip-Enhanced Raman Spectroscopy (TERS)” Tianyi Dou, Zhandong Li, Junjie Zhang, Alex Evilevitch, and Dmitry Kurouski Anal. Chem. 92, 16, 11297–11304 (2020)
“Gap-Mode Tip-Enhanced Raman Scattering on Au Nanoplates of Varied Thickness” Rui Wang, Zhe He, Alexei V. Sokolov, and Dmitry Kurouski J. Phys. Chem. Lett. 11, 10, 3815–3820 (2020)
“The Prevalence of Anions at Plasmonic Nanojunctions: A Closer Look at p-Nitrothiophenol” Chih-Feng Wang, Brian T. O’Callahan, Dmitry Kurouski, Andrey Krayev, and Patrick Z. El-Khoury J. Phys. Chem. Lett. 11, 10, 3809–3814 (2020)
“Elucidation of Photocatalytic Properties of Gold–Platinum Bimetallic Nanoplates Using Tip-Enhanced Raman Spectroscopy” Zhandong Li and Dmitry Kurouski J. Phys. Chem. C 124, 23, 12850–12854 (2020)
“Power-Dependent Dual Analyte Tip-Enhanced Raman Spectral Imaging” Brian T. O’Callahan, Ashish Bhattarai, Zachary D. Schultz, and Patrick Z. El-Khoury J. Phys. Chem. C, 124, 28, 15454–15459 (2020)
“Nanoscale Photocatalytic Activity of Gold and Gold–Palladium Nanostructures Revealed by Tip-Enhanced Raman Spectroscopy” Zhandong Li, Rui Wang, and Dmitry Kurouski J. Phys. Chem. Lett. 11, 14, 5531–5537 (2020)
“Spatially Resolved Mapping of Three-Dimensional Molecular Orientations with ∼2 nm Spatial Resolution through Tip-Enhanced Raman Scattering” Patrick Z. El-Khoury* and Edoardo Aprà J. Phys. Chem. C 124, 31, 17211–17217 (2020)
“Tip-enhanced Raman imaging of photocatalytic reactions on thermally-reshaped gold and gold–palladium microplates” Zhandong Li, Patrick Z. El-Khoury and Dmitry Kurouski Chem. Commun., 2021,57, 891-894
“Distilling Nanoscale Heterogeneity of Amorphous Silicon using Tip-enhanced Raman Spectroscopy (TERS) via Multiresolution Manifold Learning” Yang G, Li X, Cheng Y, Wang M, Ma D, Sokolov A, Kalinin S, Veith G, Nanda J Research Square; 2020. DOI: 10.21203/rs.3.rs-38466/v1.
“Resolving the Sequence of RNA Strands by Tip-Enhanced Raman Spectroscopy” Zhe He, Weiwei Qiu, Megan E. Kizer, Jizhou Wang, Wencong Chen, Alexei V. Sokolov, Xing Wang, Jonathan Hu, and Marlan O. Scully ACS Photonics, (2020)
“Surface characterization of nanoscale co-crystals enabled through tip enhanced Raman spectroscopy” Jakob Hübner, Tanja Deckert-Gaudig, Julien Glorian, Volker Deckert and Denis Spitzer Nanoscale, 2020,12, 10306-10319 (2020)
“Formation Mechanism of Anisotropic RDX/TNT Core/Shell Nanoparticles and their Influence onto Nanodiamond Detonation Syntheses” Jakob Hübner, Vincent Pichot, Emeline Lobry, Tanja Deckert-Gaudig, Volker Deckert, Denis Spitze researchgate.net (2020)
“Facile and quantitative estimation of strain in nanobubbles with arbitrary symmetry in 2D semiconductors verified using hyperspectral nano-optical imaging” Thomas P. Darlington, Andrey Krayev, Vishal Venkatesh, Ravindra Saxena, Jeffrey W. Kysar, Nicholas J. Borys, Deep Jariwala, and P. James Schuck J. Chem. Phys. 153, 024702 (2020)
“Determining the Level and Location of Functional Groups on Few-Layer Graphene and Their Effect on the Mechanical Properties of Nanocomposites” Elizabeth J. Legge, Keith R. Paton, Magdalena Wywijas, Greg McMahon, Rory Pemberton, Naresh Kumar, Arun Prakash Aranga Raju, Craig P. Dawson, Andrew J. Strudwick, James W. Bradley, Vlad Stolojan, S. Ravi P. Silva, Stephen A. Hodge, Barry Brennan, and Andrew J. Pollard ACS Appl. Mater. Interfaces 12, 11, 13481–13493 (2020)
“Nanoscale characterization of plasma functionalized graphitic flakes using tip-enhanced Raman spectroscopy” Naresh Kumar, Sofia Marchesini, Thomas Howe, Lee Edwards, Barry Brennan and Andrew J. Pollard J. Chem. Phys. 153, 184708 (2020)
“Multi-technique physico-chemical characterization of particles generated by a gasoline engine: Towards measuring tailpipe emissions below 23 nm” C. Focsa, D. Duca, J. A. Noble, M. Vojkovic, Y. Carpentier, C. Pirim, C. Betrancourt, P.Desgroux, T. Tritscher, J. Spielvogel, M. Rahman, A. Boies, K. F. Lee; A. N. Bhave; S. Legendre, O. Lancry, P. Kreutziger, M. Rieker Atmospheric Environment 235, 117642 (2020)
“Deciphering tip-enhanced Raman imaging of carbon nanotubes with deep learning neural networks” Usant Kajendirarajah, María Olivia Avilés and François Lagugné-Labarthet Phys. Chem. Chem. Phys. 22, 17857-17866 (2020)
“Fabrication of a Biocompatible Mica/Gold Surface for Tip‐Enhanced Raman Spectroscopy” Dr. Xiao You, Clayton B. Casper, Emily E. Lentz, Prof. Dorothy A. Erie, Prof. Joanna M. Atkin ChemPhysChem 21, 188 – 193 (2020)
“Laser spectroscopic technique for direct identification of a single virus I: FASTER CARS” Volker Deckert, Tanja Deckert-Gaudig, Dana Cialla-May, Jürgen Popp,Roland Zell, Stefanie Deinhard-Emmer, Alexei V. Sokolov, Zhenhuan Yi, and Marlan O. Scully PNAS 117 (45), 27820-27824 (2020)
“Nanoscale chemical imaging using tip-enhanced Raman spectroscopy” Naresh Kumar, Bert M. Weckhuysen, Andrew J. Wain & Andrew J. Pollard, Nature Protocols 14, 1169–1193 (2019)
“Tip-Enhanced Raman Imaging of Single-Stranded DNA with Single Base Resolution” Zhe He, Zehua Han, Megan Kizer, Robert J. Linhardt, Xing Wang, Alexander M. Sinyukov, Jizhou Wang, Volker Deckert, Alexei V. Sokolov, Jonathan Hu, Marlan O. Scully, J. Am. Chem. Soc. 141, 2, 753-757 (2019)
“Taking the Plunge: Nanoscale Chemical Imaging of Functionalized Gold Triangles in H2O via TERS” Ashish Bhattarai, Alan G. Joly, Andrey Krayev, Patrick Z. El-Khoury, J. Phys. Chem. C 123, 7376 (2019)
“Ultra-sharp and surfactant-free silver nanowire for scanning tunneling microscopy and tip-enhanced Raman spectroscopy” Qiushi Liu, Sanggon Kim, Xuezhi Ma, Ning Yu, Yangzhi Zhu, Siyu Deng, Ruoxue Yan, Huijuan Zhaod and Ming Liu, Nanoscale 11, 7790-7797 (2019)
“Probing nano-heterogeneity and aging effects in lateral 2D heterostructures using tip-enhanced photoluminescence” Prasana K. Sahoo, Haonan Zong, Jiru Liu, Wenjin Xue, Xiaoyi Lai, Humberto R. Gutiérrez, and Dmitri V. Voronine, Opt. Mater. Express 9, 1620 (2019)
“In Situ Nanoscale Investigation of Catalytic Reactions in the Liquid Phase Using Zirconia-Protected Tip-Enhanced Raman Spectroscopy Probes” Naresh Kumar, Caterina S. Wondergem, Andrew J. Wain, Bert M. Weckhuysen, J. Phys. Chem. Lett. 10, 1669–1675 (2019)
“Toward High-Contrast AFM-TERS Imaging: Nanoantenna-Mediated Remote-Excitation on Sharp-Tip Silver Nanowire Probes” Xuezhi Ma, Yangzhi Zhu, Ning Yu, Sanggon Kim, Qiushi Liu, Leonard Apontti, Da Xu, Ruoxue Yan, Ming Liu, Nano Lett. 19(1), 100 (2019)
“The role of a plasmonic substrate on the enhancement and spatial resolution of tip-enhanced Raman scattering” Mahfujur Rahaman, Alexander G. Milekhin, Ashutosh Mukherjee, Ekaterina E. Rodyakina, Alexander V. Latyshev, Volodymyr M. Dzhagan and Dietrich R. T. Zahn, Faraday Discuss., Advance Article (2019)
“Nanoscale Chemical Imaging of a Single Catalyst Particle with Tip‐Enhanced Fluorescence Microscopy” Naresh Kumar, Sam Kalirai, Andrew J. Wain, Bert M. Weckhuysen, ChemCatChem 11, 417–423 (2019)
“In situ topographical chemical and electrical imaging of carboxyl graphene oxide at the nanoscale” Weitao Su, Naresh Kumar, Andrey Krayev and Marc Chaigneau, Nature Communications 9, 2891 (2018)
“Quantum plasmonic hot-electron injection in lateral WSe2/MoSe2 heterostructures” Chenwei Tang, Zhe He, Weibing Chen, Shuai Jia, Jun Lou, and Dmitri V. Voronine, Phys. Rev. B 98, 041402(R) (2018)
“Elucidation of Tip-Broadening Effect in Tip-Enhanced Raman Spectroscopy (TERS): A Cause of Artifacts or Potential for 3D TERS” Rui Wang and Dmitry Kurouski, J. Phys. Chem. C 122 (42), 24334 (2018)
“Nanoscale Discrimination between Toxic and Nontoxic Protein Misfolded Oligomers with TERS” Cristiano D'Andrea, Antonino Foti, Maximilien Cottat, Martina Banchelli, Claudia Capitini, Francesco Barreca, Claudio Canale, Marella de Angelis, Annalisa Relini, Onofrio M. Maragò, Roberto Pini, Fabrizio Chiti, Pietro G. Gucciardi, Paolo Matteini, Small 14, 1800890 (2018)
“Direct Observation of Core–Shell Structures in Individual Lead Titanate Ferroelectric Nanostructures by Tip‐Enhanced Refractive Index Mapping” Mischa Nicklaus, Gitanjali Kolhatkar, Julien Plathier, Chahinez Dab, Andreas Ruediger, Adv. Funct. Mater. 29, 1806770 (2018)
“Characterization of BaTiO3 nanocubes assembled into highly ordered monolayers using micro- and nano-Raman spectroscopy” Hiroki Itasaka, Ken-ichi Mimura, Masayuki Nishi, and Kazumi Kato, Appl. Phys. Lett. 112, 212901 (2018)
“Optical Absorption Imaging by Photothermal Expansion with 4 nm Resolution” Raul D. Rodriguez, Teresa I. Madeira, Evgeniya Sheremet, Eugene Bortchagovsky, Ashutosh Mukherjee, Michael Hietschold, Dietrich R. T. Zahn, ACS Photonics 5 (8), 3338 (2018)
“Probing nanoscale variations in strain and band structure of MoS2 on Au nanopyramids using tip-enhanced Raman spectroscopy” Zhongjian Zhang, Alex C. De Palma, Christopher J. Brennan, Gabriel Cossio, Rudresh Ghosh, Sanjay K. Banerjee, and Edward T. Yu, Phys. Rev. B 97, 085305 (2018)
“Giant Gap-plasmon Tip-Enhanced Raman Scattering of MoS2 Monolayers on Au Nanocluster Arrays” Alexander G. Milekhin, Mahfujur Rahaman, Ekaterina E. Rodyakina, Alexander V. Latyshev, Volodymyr M. Dzhaga and Dietrich R. T. Zahn, Nanoscale 10, 2755 (2018)
“Nanoscale chemical imaging of solid–liquid interfaces using tip-enhanced Raman spectroscopy” Naresh Kumar, Weitao Su, Martin Veselý, Bert M. Weckhuysen, Andrew J. Pollard and Andrew J. Wain, Nanoscale 10, 1815 (2018)
“Tip-enhanced Raman scattering of DNA aptamers for Listeria monocytogenes” Siyu He, Hongyuan Li, Carmen L. Gomes, Dmitri V. Voronine, Biointerphases 13, 03C402 (2018)
“Transport mechanisms in a puckered graphene-on-lattice” T. Xu, A. Díaz Álvarez, W. Wei, D. Eschimese, S. Eliet, O. Lancry, E. Galopin, F. Vaurette, M. Berthe, D. Desremes, B. Wei, J. Xu, J. F. Lampin, E. Pallecchi, H. Happy, D. Vignaud and B. Grandidier, Nanoscale 10, 7519 (2018)
“Nanoscale doping heterogeneity in few-layer WSe2 exfoliated onto noble metals revealed by correlated SPM and TERS imaging” Deep Jariwala, Andrey Krayev, Joeson Wong, A Edward Robinson, Michelle C Sherrott, Shuo Wang, Gang-Yu Liu, Mauricio Terrones and Harry A Atwater, 2D Mater. 5 035003 (2018)
“Nanoscale Heterogeneities in Monolayer MoSe2 Revealed by Correlated Scanning Probe Microscopy and Tip-Enhanced Raman Spectroscopy” Kirby K. H. Smithe, Andrey V. Krayev, Connor S. Bailey, Hye Ryoung Lee, Eilam Yalon, Özgür Burak Aslan, Miguel Muñoz Rojo, Sergiy Krylyuk, Payam Taheri, Albert V. Davydov, Tony F. Heinz, Eric Pop, ACS Appl. Nano Mater. 1 (2), 572 (2018)
“Tip-Enhanced Raman Scattering from Nanopatterned Graphene and Graphene Oxide” Ashish Bhattarai, Andrey Krayev, Alexey Temiryazev, Dmitry Evplov, Kevin T. Crampton, Wayne P. Hess, Patrick Z. El-Khoury, Nano Lett.18 (6), 4029 (2018)
“Probing the Nanoscale Light Emission Properties of CVD-grown MoS2 Monolayer by Tip-enhanced Photoluminescence” Yoshito Okuno, Ophélie Lancry, Agnès Tempez, Cristina Cairone, Matteo Bosi, Filippo Fabbri and Marc Chaigneau, Nanoscale 10, 14055 (2018)
“Tip‐Enhanced Raman Spectroscopy: A Tool for Nanoscale Chemical and Structural Characterization of Biomolecules” Sébastien Bonhommeau, Sophie Lecomte, ChemPhysChem 19, 8-18 (2018)
“Low cost tips for tip-enhanced Raman spectroscopy fabricated by two-step electrochemical etching of 125 µm diameter gold wires” Antonino Foti1, Francesco Barreca, Enza Fazio, Cristiano D’Andrea, Paolo Matteini, Onofrio Maria Maragò and Pietro Giuseppe Gucciardi, Beilstein J. Nanotechnol. 9, 2718–2729 (2018)
“Application of Tip-Enhanced Raman Spectroscopy for the nanoscale characterization of flooded chalk” Laura Borromeo, Chiara Toccafondi, Mona Wetrhus Minde, Udo Zimmermann, Sergio Andò, Merete Vadla Madland, Reidar Inge Korsnes, and Razvigor Ossikovski, Journal of Applied Physics 124, 173101 (2018)
“PIP2 Phospholipid‐Induced Aggregation of Tau Filaments Probed by Tip‐Enhanced Raman Spectroscopy” David Talaga, Willy Smeralda, Laurie Lescos, Julien Hunel, Nad'a Lepejova‐Caudy, Christophe Cullin, Sébastien Bonhommeau, Sophie Lecomte, Angewandte Chemie 130, 15964-15968 (2018)
“Surface-enhanced FAST CARS: en route to quantum nano-biophotonics” Dmitri V. Voronine, Zhenrong Zhang, Alexei V. Sokolov, Marlan O. Scully, Nanophotonics 7(3), 523–548 (2018)
“Highly Localized Strain in a MoS2/Au Heterostructure Revealed by Tip-Enhanced Raman Spectroscopy” Mahfujur Rahaman, Raul D. Rodriguez, Gerd Plechinger, Stefan Moras, Christian Schüller, Tobias Korn, Dietrich R. T. Zahn, Nano Lett.17 (10), 6027 (2017)
“Imaging localized electric fields with nanometer precision through tip-enhanced Raman scattering” A. Bhattarai and P. Z. El-Khoury, Chem. Commun. 53, 7310-7313 (2017)
“Complex Electron Transfer Pathway at a Microelectrode Captured by in Situ Nanospectroscopy” Thomas Touzalin, Suzanne Joiret, Emmanuel Maisonhaute, and Ivan T. Lucas, Anal. Chem. 89 (17), 8974–8980 (2017)
“Permittivity imaged at the nanoscale using tip-enhanced Raman spectroscopy” Julien Plathier, Andrey Krayev, Vasili Gavrilyuk, Alain Pignolet and Andreas Ruediger, Nanoscale Horiz., 2017, DOI: 10.1039/C7NH00075H
“Resonant Nonplasmonic Nanoparticles for Efficient Temperature-Feedback Optical Heating” George P. Zograf, Mihail I. Petrov, Dmitry A. Zuev, Pavel A. Dmitriev, Valentin A. Milichko, Sergey V. Makarov, and Pavel A. Belov, Nano Lett., 17 (5), 2945–2952 (2017)
“Atomically Thin Layers of Graphene and Hexagonal Boron Nitride Made by Solvent Exfoliation of Their Phosphoric Acid Intercalation Compounds” Nina I. Kovtyukhova, Nestor Perea-López, Mauricio Terrones, and Thomas E. Mallouk, ACS Nano 11 (7), 6746–6754 (2017)
“Optimal light harvesting in 2D semiconductor heterostructures” Zhesheng Chen, Johan Biscaras and Abhay Shukla, 2D Mater. 4 025115 (2017)
“Tip-Enhanced Raman Scattering of MoS2” Dmitri V. Voronine, Gaotian Lu, Daoquan Zhu, Andrey Krayev, IEEE Journal of Selected Topics in Quantum Electronics DOI: 10.1109/JSTQE.2016.2584784 (2017).
“Nanoparticle-nanoparticle vs nanoparticle-substrate hot spot contributions to SERS signal: studying Raman labelled monomers, dimers and trimers” Sergii Sergiienko, Kamila Moor, Kristina Gudun, Zarina Yelemessova, and Rostislav Bukasova, Phys Chem Chem Phys.19(6):4478-4487 (2017).
“Graphene-enhanced Raman Scattering og Cu-Phthalocyanine on Au” (111), W. –I. Lin, F. Gholami, P. Beyer, N. Severin, F. Shao, R. Zenobi, J. P. Rabe, Chem. Commun. 53, 724-727 (2017)
“The important role of water in growth of monolayer transition metal dichalcogenides” Christoph Kastl, Christopher T Chen, Tevye Kuykendall, Brian Shevitski, Thomas P Darlington, Nicholas J Borys, Andrey Krayev, P James Schuck, Shaul Aloni and Adam M Schwartzber, 2D Mater. 4 021024 (2017) .
“Nano-optical imaging of monolayer MoSe2 using tip-enhanced photoluminescence” Chenwei Tang, Shuai Jia, Weibing Chen, Jun Lou, Dmitri V. Voronine arXiv:1704.02396 (2017).
“Simultaneous topographical, electrical and optical microscopy of optoelectronic devices at the nanoscale” Naresh Kumar, Alina Zoladek-Lemanczyk, Anne A. Y. Guilbert, Weitao Su, Sachetan M. Tuladhar, Thomas Kirchartz, Bob C. Schroeder, Iain McCulloch, Jenny Nelson, Debdulal Roy and Fernando A. Castro, Nanoscale 9(8):2723-2731 (2017).
“Nanoscale mapping of newly-synthesised phospholipid molecules in a biological cell using tip-enhanced Raman spectroscopy” Naresh Kumar, Marek M. Drozdz, Haibo Jiang, Daniela M. Santos and David J. Vaux, Chem. Commun. 53, 2451 (2017)
“TERS Ready or Not”, by Barbara Foster, American Laboratory, September 2016
“Nanoscale imaging and identification of a four-component carbon sample” E. Sheremet, R. D. Rodriguez, A. L. Agapov, A. P. Sokolov, M. Hietschold, D. R.T. Zahn, Carbon 96 (2016) 588-593.
“Tip enhanced Raman spectroscopy imaging of opaque samples in organic liquid.” T. Touzalin , A. L. Dauphin , S. Joiret , I. T. Lucas and E. Maisonhaute, Phys. Chem. Chem. Phys., 2016 DOI: 10.1039/C6CP02596J
“Improving resolution in quantum subnanometre-gap tip-enhanced Raman nanoimaging.” Yingchao Zhang, Dmitri V. Voronine, Shangran Qiu, Alexander M. Sinyukov, Mary Hamilton, Zachary Liege, Alexei V. Sokolov, Zhenrong Zhang, Marlan O. Scully, Scientific Reports 6, 25788 (2016), DOI:10.1038/srep25788
“Side-illuminated tip-enhanced Raman study of edge phonon in graphene at the electrical breakdown limit.” Yoshito Okuno, Sanpon Vantasin, In-Sang Yang, Jangyup Son, Jongill Hong, Yoshito Yannick Tanaka, Yasushi Nakata, Yukihiro Ozaki and Nobuyuki Naka, Appl. Phys. Lett. 108, 163110 (2016); DOI: 10.1063/1.4947559
“Nanoscale Mapping of Excitonic Processes in Single Layer MoS 2 Using Tip-Enhanced Photoluminescence Microscopy.” Su, Weitao, Naresh Kumar, Sandro Mignuzzi, Jason Crain, and Debdulal Roy, Nanoscale, 2016, 1–3.DOI:10.1039/C5NR07378B.
“Polymorphism of amyloid fibrils formed by a peptide from the yeast prion protein” Sup35: AFM and Tip-Enhanced Raman Scattering studies.” Alexey V. Krasnoslobodtsev, Tanja Deckert-Gaudig, Yuliang Zhang, Volker Deckert, Yuri L. Lyubchenko, Ultramicroscopy 165, 26–33 (2016).
“Tip-enhanced Raman spectroscopy: plasmid-free vs. plasmid-embedded DNA.” Farshid Pashaee, Mohammadali Tabatabaei, Fabiana A. Caetano, Stephen S. G. Ferguson and François Lagugné-Labarthet, Analyst, 2016, DOI: 10.1039/C6AN00350H
“Detection of Protein Glycosylation Using Tip-Enhanced Raman Scattering.” David P. Cowcher, Tanja Deckert-Gaudig, Victoria L. Brewster, Lorna Ashton, Volker Deckert, and Royston Goodacre, Anal. Chem., 2016, 88 (4), 2105–2112, DOI: 10.1021/acs.analchem.5b03535
“Extending the plasmonic lifetime of tip-enhanced Raman spectroscopy probes.” Naresh Kumar, Steve J. Spencer, Dario Imbraguglio, Andrea M. Rossi, Andrew J. Wain, Bert M. Weckhuysenb and Debdulal Roy, Phys. Chem. Chem. Phys., 2016, DOI: 10.1039/C6CP01641C
“Molecular Bending at the Nanoscale Evidenced by Tip-Enhanced Raman Spectroscopy In Tunneling Mode on Thiol Self-Assembled Monolayers” Chiara Toccafondi, Gennaro Picardi, and Razvigor Ossikovski, J. Phys. Chem. C (2016) DOI: 10.1021/acs.jpcc.6b03443
“Ion-beam assisted laser fabrication of sensing plasmonic nanostructures” Aleksandr Kuchmizhak, Stanislav Gurbatov, Oleg Vitrik, Yuri Kulchin, Valentin Milichko, Sergey Makarov, and Sergey Kudryashov, Scientific Reports 6, 19410 (2016)
“Laser printing of resonant plasmonic nanovoids” A. Kuchmizhak, O. Vitrik, Yu. Kulchin, D. Storozhenko, A. Mayor, A. Mirochnik, S. Makarov, V. Milichko, S. Kudryashov, V. Zhakhovsky and N. Inogamov, Nanoscale 8, 12352-12361 (2016)
“Hybrid Sol−Gel-Derived Films That Spontaneously Form Complex Surface Topographies” Joel F. Destino, Zachary R. Jones, Caitlyn M. Gatley, Yi Zhang, Andrew K. Craft, Michael R. Detty and Frank V. Bright, Langmuir 32, 10113−10119 (2016). DOI:10.1021/acs.langmuir.6b02664
“Mechanical properties and applications of custom-built gold AFM cantilevers” Vladimir A. Kolchuzhin, Evgeniya Sheremet, Kunal Bhattacharya, Raul D. Rodriguez, Soumya Deep Paul, Jan Mehner, Michael Hietschold, Dietrich R.T. Zahn, Mechatronics 40, 281-286 (2016)
“Tip-enhanced Raman spectroscopic detection of aptamers” Siyu He, Hongyuan Li, Zhe He, Dmitri V. Voronine. (2016)
“Nanoscale Strain Mapping in SIMOX 3-D Sculpted Silicon Waveguides Using Tip-Enhanced Raman Spectroscopy” Huashun Wen, Yuefeng Ji, and Bahram Jalali, Fellow, IEEE Photonics Journal Vol.8 Issue 5, DOI: 10.1109/JPHOT.2016.2612360 (2016)
Plateforme optique AFM
AFM autonome avancée
AFM-Raman pour l'imagerie physique et chimique
AFM-Raman pour l'imagerie physique et chimique
AFM et microscopie à lumière inversée
Nanoscopie corrélative directe en temps réel
Couplage optique AFM polyvalent
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