Method for Time-Resolved Monitoring of a Solid State Biological Film Using Photothermal Infrared Nanoscopy on the Example of Poly-L-lysine

Ramer Georg; Balbekova Anna; Schwaighofer Andreas; Lendl Bernhard

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Method for Time-Resolved Monitoring of a Solid State Biological Film Using Photothermal Infrared Nanoscopy on the Example of Poly-L-lysine

机译：以聚-L-赖氨酸为例的光热红外纳米技术对固态生物膜进行时间分辨监测的方法

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We report time-resolved photothermal infrared nanoscopy measurements across a spectral range of more than 100 cm(-1) (1565 cm(-1) to 1729 cm(-1)) at nanoscale spatial resolution. This is achieved through a custom-built system using broadly tunable external cavity quantum cascade lasers in combination with a commercially available atomic force microscope. The new system is applied to the analysis of conformational changes of a polypeptide (poly-L-lysine) film upon temperature-induced changes of the humidity in the film. Changes of the secondary structure from beta-sheet to alpha-helix could be monitored at a time resolution of 15 s per spectrum. The time-resolved spectra are well comparable to reference measurements acquired with conventional Fourier transform infrared microscopy.

机译：我们报告在纳米级空间分辨率上超过100 cm（-1）（1565 cm（-1）到1729 cm（-1））的光谱范围内的时间分辨的光热红外纳米测量。这是通过使用广泛可调的外腔量子级联激光器与市售原子力显微镜相结合的定制系统来实现的。该新系统适用于在温度引起的薄膜湿度变化时分析多肽（聚L-赖氨酸）薄膜的构象变化。可以以每光谱15 s的时间分辨率监测从β-折叠到α-螺旋的二级结构的变化。时间分辨光谱与常规傅立叶变换红外显微镜获得的参考测量值相当。

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《Analytical chemistry》 |2015年第8期|共6页
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Ramer Georg; Balbekova Anna; Schwaighofer Andreas; Lendl Bernhard;
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1. Method for Time-Resolved Monitoring of a Solid State Biological Film Using Photothermal Infrared Nanoscopy on the Example of Poly-L-lysine [J] . Ramer Georg, Balbekova Anna, Schwaighofer Andreas, Analytical chemistry . 2015,第8期

机译：以聚-L-赖氨酸为例的光热红外纳米技术对固态生物膜进行时间分辨监测的方法
2. Time-resolved photothermal methods: accessing time-resolved thermodynamics of photoinduced processes in chemistry and biology [J] . Thomas Gensch, Cristiano Viappiani Photochemical & photobiological sciences: the official journal of the European Photochemistry Association and the European Society for Photobiology . 2003,第7期

机译：时间分辨光热方法：访问化学和生物学中光诱导过程的时间分辨热力学
3. Structural impact of hydroxyvalerate in polyhydroxyalkanoates (PHAscl) dense film monitored by XPS and photothermal methods [J] . Gilson B. Baptista, Helion Vargas, Luiz H. Poley, Journal of the Brazilian Chemical Society . 2005,第4期

机译：用XPS和光热方法监测聚戊二酸酯（PHAscl）致密膜中羟基戊酸酯的结构影响
4. Robust mid-infrared photothermal imaging system for characterization of thin films at high spatial resolution [C] . Atcha Totachawattana, Di Huang, Le Li, Conference on Lasers and Electro-Optics . 2017

机译：强大的中红外光热成像系统，可表征高空间分辨率的薄膜
5. Monitoring and modeling of film coating in a side vented pan coater using near-infrared reflectance spectroscopy, digital video imaging and computational methods. [D] . Perez-Ramos, Jose D. 2007

机译：使用近红外反射光谱仪，数字视频成像和计算方法，在侧面通风的锅式涂布机中监控薄膜涂层并进行建模。
6. Monitoring DNA/poly-L-lysine polyplex formation with time-resolved multiangle laser light scattering. [O] . E Lai, J H van Zanten 2001

机译：用时间分辨多角度激光散射监测DNA / poly-L-赖氨酸多聚体的形成。
7. Structural impact of hydroxyvalerate in polyhydroxyalkanoates (PHAscl) dense film monitored by XPS and photothermal methods [O] . Marcelo G. da Silva, Helion Vargas, Luiz H. Poley, 2005

机译：XPS和光热方法监测多羟基苯甲酸盐（PHASCL）致密膜的结构影响

Method for Time-Resolved Monitoring of a Solid State Biological Film Using Photothermal Infrared Nanoscopy on the Example of Poly-L-lysine

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