Dual-Color Peak Force Infrared Microscopy

2021 ◽  
Author(s):  
Qing Xie ◽  
Jared Wiemann ◽  
Yan Yu ◽  
Xiaoji G. Xu
Keyword(s):  
Peak Force ◽  
Infrared Microscopy ◽  
Dual Color

Liquid-Phase Peak Force Infrared Microscopy

2020 ◽  
Author(s):  
Haomin Wang ◽  
Joseph M. González-Fialkowski ◽  
Wenqian Li ◽  
Yan Yu ◽  
Xiaoji Xu
Keyword(s):  
Liquid Phase ◽  
Spatial Resolution ◽  
Shear Force ◽  
Polymer Surface ◽  
Surface Damage ◽  
Peak Force ◽  
Infrared Microscopy ◽  
Contact Mode ◽  
Force Microscopy ◽  
Hydrogen Deuterium

Atomic force microscopy-infrared microscopy (AFM-IR) provides a route to bypass Abbe’s diffraction limit through photothermal detections of infrared absorption. With the combination of total internal reflection, AFM-IR can operate in the aqueous phase. However, AFM-IR in contact mode suffers from surface damage from the lateral shear force between the tip and sample, and can only achieve 20~25-nm spatial resolution. Here, we develop the liquid-phase peak force infrared (LiPFIR) microscopy that avoids the detrimental shear force and delivers an 8-nm spatial resolution. The non-destructiveness of the LiPFIR microscopy enables <i>in situ</i> chemical measurement of heterogeneous materials and investigations on a range of chemical and physical transformations, including polymer surface reorganization, hydrogen-deuterium isotope exchange, and ethanol-induced denaturation of proteins. We also perform LiPFIR imaging of the budding site of yeast cell wall in the fluid as a demonstration of biological applications. LiPFIR unleashes the potential of in liquid AFM-IR for chemical nanoscopy.

scholarly journals Liquid-Phase Peak Force Infrared Microscopy

2020 ◽  
Author(s):  
Haomin Wang ◽  
Joseph M. González-Fialkowski ◽  
Wenqian Li ◽  
Qing Xie ◽  
Yan Yu ◽  
...  
Keyword(s):  
Liquid Phase ◽  
Spatial Resolution ◽  
Shear Force ◽  
Polymer Surface ◽  
Surface Damage ◽  
Peak Force ◽  
Infrared Microscopy ◽  
Contact Mode ◽  
Force Microscopy ◽  
Hydrogen Deuterium

Atomic force microscopy-infrared microscopy (AFM-IR) provides a route to bypass Abbe’s diffraction limit through photothermal detections of infrared absorption. With the combination of total internal reflection, AFM-IR can operate in the aqueous phase. However, AFM-IR in contact mode suffers from surface damage from the lateral shear force between the tip and sample, and can only achieve 20~25-nm spatial resolution. Here, we develop the liquid-phase peak force infrared (LiPFIR) microscopy that avoids the detrimental shear force and delivers an 8-nm spatial resolution. The non-destructiveness of the LiPFIR microscopy enables <i>in situ</i> chemical measurement of heterogeneous materials and investigations on a range of chemical and physical transformations, including polymer surface reorganization, hydrogen-deuterium isotope exchange, and ethanol-induced denaturation of proteins. We also perform LiPFIR imaging of the budding site of yeast cell wall in the fluid as a demonstration of biological applications. LiPFIR unleashes the potential of in liquid AFM-IR for chemical nanoscopy.

Nanoscale spectroscopic and mechanical characterization of individual aerosol particles using peak force infrared microscopy

2017 ◽  
Vol 53 (53) ◽  
pp. 7397-7400 ◽  
Author(s):  
Le Wang ◽  
Dandan Huang ◽  
Chak K. Chan ◽  
Yong Jie Li ◽  
Xiaoji G. Xu
Keyword(s):  
Particulate Matter ◽  
Spatial Resolution ◽  
Infrared Imaging ◽  
Mechanical Characterization ◽  
Aerosol Particles ◽  
Fine Particulate Matter ◽  
Peak Force ◽  
Infrared Microscopy ◽  
Fine Particulate

Individual fine particulate matter (PM2.5) particles are revealed with mechanical mapping and infrared imaging at 10 nm spatial resolution.

scholarly journals Nanoscale simultaneous chemical and mechanical imaging via peak force infrared microscopy

2017 ◽  
Vol 3 (6) ◽  
pp. e1700255 ◽  
Author(s):  
Le Wang ◽  
Haomin Wang ◽  
Martin Wagner ◽  
Yong Yan ◽  
Devon S. Jakob ◽  
...  
Keyword(s):  
Peak Force ◽  
Infrared Microscopy ◽  
Mechanical Imaging
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