Damage-free tip-enhanced Raman spectroscopy for heat-sensitive materials

We report a method to establish experimental conditions for tip-enhanced Raman spectroscopy (TERS) with low thermal and mechanical damage to samples. In this method, we monitor the thermal desorption of thiol molecules from a gold-coated probe of an atomic force microscope (AFM) via TERS spectra. Te...

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Veröffentlicht in:	Nanoscale 2017-08, Vol.9 (30), p.10715-10720
Hauptverfasser:	Mochizuki, Masahito, Lkhamsuren, Ganchimeg, Suthiwanich, Kasinan, Mondarte, Evan Angelo, Yano, Taka-Aki, Hara, Masahiko, Hayashi, Tomohiro
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container_title	Nanoscale
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creator	Mochizuki, Masahito Lkhamsuren, Ganchimeg Suthiwanich, Kasinan Mondarte, Evan Angelo Yano, Taka-Aki Hara, Masahiko Hayashi, Tomohiro
description	We report a method to establish experimental conditions for tip-enhanced Raman spectroscopy (TERS) with low thermal and mechanical damage to samples. In this method, we monitor the thermal desorption of thiol molecules from a gold-coated probe of an atomic force microscope (AFM) via TERS spectra. Temperatures for desorption of thiol molecules (60-100 °C) from gold surfaces cover the temperature range for degradation of heat-sensitive biomaterials (e.g. proteins). By monitoring the desorption of the thiols on the probe, we can estimate the power of an excitation laser for the samples to reach their critical temperatures for thermal degradation. Furthermore, we also found that an active oscillation of AFM cantilevers significantly promotes the heat transfer from the probe to the surrounding medium. This enables us to employ a higher power density of the excitation laser, resulting in a stronger Raman signal compared with the signal obtained with a contact mode. We propose that this combinatory method is effective in acquiring strong TERS signals while suppressing thermal and mechanical damage to soft and heat-sensitive samples.
doi_str_mv	10.1039/c7nr02398g
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title	Damage-free tip-enhanced Raman spectroscopy for heat-sensitive materials
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