Hyeonaug Hong scite author profile

The harvesting of photosynthetic electrons (PEs) directly from photosynthetic complexes has been demonstrated over the past decade. However, their limited efficiency and stability have hampered further practical development. For example, despite its importance, the interfacial electron transfer between the photosynthetic apparatus and the electrode has received little attention. In this study, we modified electrodes with RuO2 nanosheets to enhance the extraction of PEs from thylakoids, and the PE transfer was promoted by proton adsorption and surface polarity characteristics. The adsorbed protons maintained the potential of an electrode more positive, and the surface polarity enhanced thylakoid attachment to the electrode in addition to promoting ensemble docking between the redox species and the electrode. The RuO2 bioanode exhibited a five times larger current density and a four times larger power density than the Au bioanode. Last, the electric calculators were successfully powered by photosynthetic energy using a RuO2 bioanode.

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Fabrication of scalable and flexible bio-photoanodes by electrospraying thylakoid/graphene oxide composites

Shin

Kim

Seo

et al. 2019

Applied Surface Science

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Insertion of Vertically Aligned Nanowires into Living Cells by Inkjet Printing of Cells

Lee

Won

et al. 2016

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Effective insertion of vertically aligned nanowires (NWs) into cells is critical for bioelectrical and biochemical devices, biological delivery systems, and photosynthetic bioenergy harvesting. However, accurate insertion of NWs into living cells using scalable processes has not yet been achieved. Here, NWs are inserted into living Chlamydomonas reinhardtii cells (Chlamy cells) via inkjet printing of the Chlamy cells, representing a low-cost and large-scale method for inserting NWs into living cells. Jetting conditions and printable bioink composed of living Chlamy cells are optimized to achieve stable jetting and precise ink deposition of bioink for indentation of NWs into Chlamy cells. Fluorescence confocal microscopy is used to verify the viability of Chlamy cells after inkjet printing. Simple mechanical considerations of the cell membrane and droplet kinetics are developed to control the jetting force to allow penetration of the NWs into cells. The results suggest that inkjet printing is an effective, controllable tool for stable insertion of NWs into cells with economic and scale-related advantages.

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Rapid Extraction and Detection of Biomolecules via a Microneedle Array of Wet‐Crosslinked Methacrylated Hyaluronic Acid

Park

Kim

Park

et al. 2021

Adv Materials Technologies

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Plasmon-stimulated biophotovoltaic cells based on thylakoid–AuNR conjugates

et al. 2020

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Hyeonaug Hong

Enhanced interfacial electron transfer between thylakoids and RuO ₂ nanosheets for photosynthetic energy harvesting

Fabrication of scalable and flexible bio-photoanodes by electrospraying thylakoid/graphene oxide composites

Insertion of Vertically Aligned Nanowires into Living Cells by Inkjet Printing of Cells

Rapid Extraction and Detection of Biomolecules via a Microneedle Array of Wet‐Crosslinked Methacrylated Hyaluronic Acid

Plasmon-stimulated biophotovoltaic cells based on thylakoid–AuNR conjugates

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Hyeonaug Hong

Enhanced interfacial electron transfer between thylakoids and RuO 2 nanosheets for photosynthetic energy harvesting

Fabrication of scalable and flexible bio-photoanodes by electrospraying thylakoid/graphene oxide composites

Insertion of Vertically Aligned Nanowires into Living Cells by Inkjet Printing of Cells

Rapid Extraction and Detection of Biomolecules via a Microneedle Array of Wet‐Crosslinked Methacrylated Hyaluronic Acid

Plasmon-stimulated biophotovoltaic cells based on thylakoid–AuNR conjugates

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Resources

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Enhanced interfacial electron transfer between thylakoids and RuO ₂ nanosheets for photosynthetic energy harvesting