Opto-nanomechanical spectroscopic material characterization

Tetard, Laurene; Passian, Ali; Farahi, R. H.; Thundat, Thomas; Davison, Brian H.

doi:10.1038/nnano.2015.168

Title: Opto-nanomechanical spectroscopic material characterization

Journal Article · Mon Aug 10 00:00:00 EDT 2015 · Nature Nanotechnology

DOI:https://doi.org/10.1038/nnano.2015.168· OSTI ID:1213980

Tetard, Laurene ^[1]; Passian, Ali ^[1]; Farahi, R. H. ^[1]; Thundat, Thomas ^[2]; Davison, Brian H. ^[1]

Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Univ. of Alberta, Edmonton (Canada)

Cellulosic ethanol is a biofuel of considerable potential in the search for sustainable and renewable bioenergy [1,2]. However, while rich in carbohydrates [3], the plant cell walls exhibit a natural resistance to complex phenotype treatments such as enzymatic microbial deconstruction, heat and acid treatments that can remove the lignin polymers from cellulose before hydrolysis [5]. Noninvasive physical and chemical characterization of the cell walls and the effect of such treatments on biomass are challenging but necessary to understand and overcome such resistance [6]. Although lacking chemical recognition in their traditional forms, the various emerging modalities of nano-mechanical [7] and opto-nano-mechanical [8] force microscopies [9,10] provide a superb window into the needed nanoscale material characterization [6]. Infrared absorption spectroscopy is a powerful, non- destructive and ultra-sensitive technique that can provide the needed molecular fingerprinting but the photothermal channel is delocalized and thus lacks spatial resolution. Utilizing the emerging dynamic concepts of mode synthesizing atomic force microscopy (MSAFM) [11] and virtual resonance [12], we introduce a hybrid photonic and nanomechanical force microscopy (hp-MSAFM) with molecular recognition and characterize the extraction, holopulping and acid treatment of biomass. We present spatially and spectrally resolved cell wall images that reveal both the morphological and the compositional alterations of the cell walls. The measured biomolecular traits are in agreement with chemical maps obtained with infrared and confocal Raman micro-spectroscopies of the same samples. The presented findings should prove highly relevant in fields such as cancer research [13], nanotoxicity [14], energy storage and production [15], where morphological, chemical and subsurface studies of nanocomposites [16], nanoparticle uptake by cells [14], and nanoscale quality control [17] are in demand.

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Research Organization:: Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: USDOE Office of Science (SC)

Grant/Contract Number:: AC05-00OR22725

OSTI ID:: 1213980

Journal Information:: Nature Nanotechnology, Vol. 10; ISSN 1748-3387

Publisher:: Nature Publishing GroupCopyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 26 works

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Plasticity, elasticity, and adhesion energy of plant cell walls: nanometrology of lignin loss using atomic force microscopy Farahi, R. H.; Charrier, A. M.; Tolbert, A. Scientific Reports, Vol. 7, Issue 1 https://doi.org/10.1038/s41598-017-00234-4	journal	March 2017
Modified cantilever arrays improve sensitivity and reproducibility of nanomechanical sensing in living cells Patil, Samadhan B.; Al-Jehani, Rajai M.; Etayash, Hashem Communications Biology, Vol. 1, Issue 1 https://doi.org/10.1038/s42003-018-0179-3	journal	October 2018
The chemical fingerprint of hair melanosomes by infrared nano-spectroscopy Stanic, Vesna; Maia, Francisco Carlos Barbosa; Freitas, Raul de Oliveira Nanoscale, Vol. 10, Issue 29 https://doi.org/10.1039/c8nr03146k	journal	January 2018
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