Hilke Wichmann scite author profile

Hilke Wichmann

3Publications

25Citation Statements Received

136Citation Statements Given

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122

Affiliations

Technische Universität Braunschweig

Publications

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Cultivating Electrochemically Active Biofilms at Continuously Changing Electrode Potentials

et al. 2019

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In this study, electrochemically active microbial biofilms were cultivated and studied at continuously alternating electrode potentials. Compared to cultivation and operation at a single constant potential, this method enhanced microbial turnover and maximum current densities. Electrochemically active microbial biofilms were cultivated in a multi‐carbon source culture for several biofilm generations and were subsequently fed with real, domestic wastewater. Compared to constant potential cultivation, average (N=12) biofilm limiting current density at +0.2 V vs. Ag/AgCl increased from 0.350±0.101 to 0.508±0.099 mA cm−2 with a significant reduction in the time required until the maximum current output was reached from 2.01±0.79 to 1.36±0.71 d. The relative increase in maximum current density and decrease in the time required to reach it are similar. The relative differences of higher over lower values are both approximately 45 %. Biofilm community analysis showed a dominance of Geobacteraceae spp. in the electrochemically active biofilms, which is in accordance with the formal potentials derived from cyclic voltammetry. The overall increase in performance is related to the selection of electrochemically active microorganisms, which exhibit local maxima in their electron transfer kinetics between −0.3 and −0.2 V vs. Ag/AgCl.

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In Situ Autofluorescence Spectroelectrochemistry for the Study of Microbial Extracellular Electron Transfer

et al. 2017

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Here, we propose the use of in situ autofluorescence spectroelectrochemistry to gain access to the mechanisms of the extracellular electron transfer (EET) of electrochemically active bacteria. By studying the spectroelectrochemical behavior of biofilms enriched with Geobacter anodireducens, we i) determine the chemical nature of the respective EET components, ii) address kinetic EET aspects, and iii) propose potential‐dependent structural changes of outer membrane cytochromes during EET.

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Vertical 3D GaN Nanoarchitectures towards an Integrated Optoelectronic Biosensing Platform in Microbial Fuel Cells

Boht

Wichmann

Scholz

et al. 2017

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An integrated nano-optoelectronic biological sensor system is developed to obtain insights of the biochemical and physical processes of Geobacter sulfurreducens-based biofilm growth inside a miniaturized microbial fuel cell (MFC) reactor. Gallium nitride (GaN), which was used as a novel electrode material, has been investigated in terms of its biocompatibility and performance to transport the electrons delivered by the microorganisms. Moreover, in order to enhance the produced current density, vertical 3D GaN nanoarchitectures (i.e., arrays of nanowires and nanofins) with larger surface-to-volume ratios were fabricated using a top-down nanomachining method involving nanolithography and hybrid etching technique.

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Hilke Wichmann

Cultivating Electrochemically Active Biofilms at Continuously Changing Electrode Potentials

In Situ Autofluorescence Spectroelectrochemistry for the Study of Microbial Extracellular Electron Transfer

Vertical 3D GaN Nanoarchitectures towards an Integrated Optoelectronic Biosensing Platform in Microbial Fuel Cells

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