2016
DOI: 10.1039/c6an00940a
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The importance of correcting for variable probe–sample interactions in AFM-IR spectroscopy: AFM-IR of dried bacteria on a polyurethane film

Abstract: AFM-IR is a combined atomic force microscopy-infrared spectroscopy method that shows promise for nanoscale chemical characterization of biological-materials interactions. In an effort to apply this method to quantitatively probe mechanisms of microbiologically induced polyurethane degradation, we have investigated monolayer clusters of ∼200 nm thick Pseudomonas protegens Pf-5 bacteria (Pf) on a 300 nm thick polyether-polyurethane (PU) film. Here, the impact of the different biological and polymer mechanical pr… Show more

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Cited by 44 publications
(61 citation statements)
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“…Good agreement was shown previously between AFM-IR and FTIR spectra on polymers [33,44], but the ratios appeared to be different for heterogeneous materials [42], most likely due to scale effects. FTIR measures absorption from the bulk, whereas AFM-IR permits local measurement at higher resolution.…”
Section: Discussionsupporting
confidence: 81%
“…Good agreement was shown previously between AFM-IR and FTIR spectra on polymers [33,44], but the ratios appeared to be different for heterogeneous materials [42], most likely due to scale effects. FTIR measures absorption from the bulk, whereas AFM-IR permits local measurement at higher resolution.…”
Section: Discussionsupporting
confidence: 81%
“…[24] However, complications are observed for layered materials, where the mechanical properties of the tip-sample contact affect signal intensity. [25] In our experiments, the linearity of the response with thickness is confirmed when looking at nuclei of different thickness (See Supporting Information and Supporting Figure 1). However, the relationship between sample thickness and signal intensity is no longer linear when comparing different subcellular regions.…”
Section: Discussionsupporting
confidence: 66%
“…13, 14 At present, however, this imaging modality suffers from signal fluctuations resulting from probe-sample mechanical interactions. 15 These fluctuations can have little or no correlation to the local sample expansion (or spectral contrast). It has been shown that these fluctuations can be mitigated by tracking a cantilever resonance peak 16 during data acquisition (hereafter referred to as resonance enhanced operation) or by using IR peak ratios 15 for analysis post-acquisition.…”
mentioning
confidence: 99%
“…15 These fluctuations can have little or no correlation to the local sample expansion (or spectral contrast). It has been shown that these fluctuations can be mitigated by tracking a cantilever resonance peak 16 during data acquisition (hereafter referred to as resonance enhanced operation) or by using IR peak ratios 15 for analysis post-acquisition. These methods, however, restrict the available data and are not always effective.…”
mentioning
confidence: 99%