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Abstract
We have developed a method that combines chemical reduction, silver tagging, and electron microscopy (EM) for visualizing the electron storage capacity (ESC) of black carbon (BC). ESC is a BC's capacity to store and reversibly exchange electrons with abiotic and microbial agents, processes that are relevant to biochemistry, greenhouse gas production, contaminant fate, and remediation. In addition to the amount of electrons BC can store, the locations and spatial distribution of ESC on and inside biochar are critical for understanding the bioaccessibility of ESC and the kinetics of redox reactions involving BC. To locate the ESC in a BC particle, we fully reduced a BC, removed excess reductant, and applied silver ion (Ag+) as a tagging agent that diffused into BC to react with functional groups where electrons were stored (i.e., ESC) to form silver nanoparticles (nAg). The nAg deposited on and inside BC were then imaged using multiple EM techniques to visualize the locations and distribution of the ESC. The method is a new and potentially useful tool for investigating ESC production and for elucidating BC-mediated redox transformation.•Novel method to probe and assess the distribution of ESC on/within BC.•Visual confirmation of significant ESC both on the surface and in the interior of BC.•A new method to incorporate silver or other redox-sensitive elements into a carbon medium.
Highlights
Method name: Chemical methods combined with electron microscopy Keywords: Black carbon, Biochar, Electron storage capacity, Electron donating capacity, Electron accepting capacity, Silver nanoparticles, Electron microscopy, Visualization, Spatial distribution Article history: Received 19 January 2020; Accepted 17 February 2020; Available online 22 February 2020
The formation of elemental Ago on Ag-tagged black carbon (BC) was verified by the prominent Ago peaks in X-ray diffraction (XRD) patterns (Fig. 1), whereas none of the Ago peaks were observed for the original SRB and OLC
This confirms that using silver tagging and electron microscopy (EM) techniques, the areal distribution and density of nAg (i.e., electron storage capacity (ESC)) on the surface of BC can be visualized. nAg were observed on the outer surface (Fig. 2(g)) and throughout the interior of SRB when an Ag-tagged SRB particle was microtomed and the cross-section was imaged (Figs. 2(h)–(j))
Summary
Visualizing the distribution of black carbon’s electron storage capacity using silver. Method name: Chemical methods combined with electron microscopy Keywords: Black carbon, Biochar, Electron storage capacity, Electron donating capacity, Electron accepting capacity, Silver nanoparticles, Electron microscopy, Visualization, Spatial distribution Article history: Received 19 January 2020; Accepted 17 February 2020; Available online 22 February 2020.
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