Nanoscale polymer recognition by spectral signature in scattering infrared near-field microscopy

T. Taubner; R. Hillenbrand; F. Keilmann

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Nanoscale polymer recognition by spectral signature in scattering infrared near-field microscopy

机译：通过散射红外近场显微镜中的光谱特征识别纳米级聚合物

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We demonstrate—for a typical polymer vibrational infrared line—that scattering-type "apertureless" optical near-field microscopy features a spectral signature that differs characteristically from far-field absorption. Theory predicts a dispersion-like amplitude spectrum (besides an absorption-like, bell-shaped phase spectrum). This signature is experimentally verified for a vibrational resonance of PMMA, by probing with a CO laser tuned from 5.5 to 6 μm. We apply this signature to identify PMMA in the near-field imaging of a nanostructured PMMA/PS polymer blend, at <70 nm resolution. Our results suggest a potentially quantitative chemometry based on near-field infrared vibrational fingerprints with spatial resolution that could reach 10 nm.

机译：对于典型的聚合物振动红外线，我们证明了散射型“无孔”光学近场显微镜具有与远场吸收不同的光谱特征。理论上可以预测出像色散一样的振幅谱（除了像吸收一样的钟形相位谱之外）。通过使用从5.5至6μm调谐的CO激光进行探测，可以对PMMA的振动共振进行实验验证。我们应用此签名在小于70 nm分辨率的纳米结构PMMA / PS聚合物共混物的近场成像中识别PMMA。我们的结果表明，基于空间分辨率可达10 nm的近场红外振动指纹的潜在定量化学计量学。

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来源
《Applied Physics Letters》 |2004年第21期|p.5064-5066|共3页
作者
T. Taubner; R. Hillenbrand; F. Keilmann;
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作者单位

Abt. Molekulare Strukturbiologie, Max-Planck-Institut fur Biochemie & Center for NanoScience, 82152 Martinsried, Munchen, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;
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入库时间 2022-08-18 03:23:29

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1. Nanoscale infrared absorption spectroscopy of individual nanoparticles enabled by scattering-type near-field microscopy [J] . Stiegler J.M., Abate Y., Cvitkovic A., ACS nano . 2011,第8期

机译：散射型近场显微镜实现的单个纳米颗粒的纳米级红外吸收光谱
2. Nanoscale Conductivity Contrast by Scattering-Type Near-Field Optical Microscopy in the Visible, Infrared and THz Domains [J] . Keilmann F, Huber AJ, Hillenbrand R Journal of Infrared, Millimeter and Terahertz Waves . 2009,第12期

机译：可见光，红外和太赫兹域中散射型近场光学显微镜的纳米电导率对比。
3. Nanoscale Conductivity Contrast by Scattering-Type Near-Field Optical Microscopy in the Visible, Infrared and THz Domains [J] . Keilmann F, Huber AJ, Hillenbrand R Journal of Infrared, Millimeter and Terahertz Waves . 2009,第12期

机译：可见光，红外和太赫兹域中散射型近场光学显微镜的纳米电导率对比。
4. Scattering-type Near-field Microscopy: From Nanoscale Infrared Material Recognition to Superlens Studies [C] . Hillenbrand, R. Lasers and Electro-Optics, 2007 Pacific Rim Conference on . 2007

机译：散射型近场显微镜：从纳米级红外材料识别到超透镜研究
5. Broadband Mid-Infrared Light Source for Near-Field Microscopy Using Ultrashort Near-Infrared Laser Pulses [D] . Kirby, Robert. 2016

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6. SSNOMBACTER: A collection of scattering-type scanning near-field optical microscopy and atomic force microscopy images of bacterial cells [O] . Massimiliano Lucidi, Denis E Tranca, Lorenzo Nichele, 2020

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7. Nanoscale Conductivity Contrast by Scattering-Type Near-Field Optical Microscopy in the Visible, Infrared and THz Domains [O] . Fritz Keilmann, Andreas J. Huber, Rainer Hillenbrand 2009

机译：可见光，红外和太赫兹域中散射型近场光学显微镜的纳米电导率对比。
8. Apertureless Scanning Near-Field Infrared Microscopy of Polymers [R] . Akhremitchev, B. , Walker, G. C. 2000

机译：聚合物的无孔扫描近场红外显微镜

Nanoscale polymer recognition by spectral signature in scattering infrared near-field microscopy

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