The top cell fabrication is similar to that described for single junctions, with a few adaptions of C 60, SnO 2, and electrode layers. The thickness of the C 60 layer was reduced to 20 nm. The cycle of SnO 2 deposition was reduced to 140 cycles. In the tandem device, an IZO semitransparent layer is required.
Thus, this single cell electron collector provides a superior tool to wire living cells with abiotic surfaces at the single-cell level and adds new dimensions for abiotic/biotic interface engineering. Efficient management of electron transfer between living cells and solid abiotic surfaces is quite challenging.
This proof-of-concept demonstration establishes a promising and new plat-form for high-performance BES and cellular bioelectronics. Design of single cell electron collectors. MR-1 (SW) is a model electroactive bacterial species for BES that mainly employ the typical cytochrome-based conduits for trans-membrane electron transfer22,23.
In summary, we demonstrate a new concept of single cell electron collector for highly efficient wiring-up electronic abiotic/biotic interfaces.
To build up the single cell in situ electron collector, SW cell was chosen and the conventional carbon felt (CF) electrode was selected as the solid conductive surface. Two different kinds of single cell electron collectors were thus proposed (Fig. 1).
Here, authors report a macroscopical grain boundary-free interface layer with microscopic Li + -selective conductive channels enables the ultra-dense Li metal deposition, resulting in a high energy density (506 Wh kg−1) and long cycle life (160 cycles) pouch cell performance.
Current single-cell MS methods can be categorized broadly into targeted and untargeted methods (Boxes 2–4, and Tables 2 and 4). The targeted, mass cytometry-based …
The single cell electron collector forms intimate contact with the cellular electron transfer …
A new concept of a single cell electron collector is proposed, which is in-situ built with an interconnected intact conductive layer on and cross the individual cell membrane, …
The MFCs without cells or MFCs with dead SW@S or SW@SP cells did not deliver a significant current output, while the MFCs with living cells could produce a high …
It raises the possibility to provide the specific in-situ platform to exploit the …
We chose human cervical cancer cells (HeLa), leukemia cells (K562) and breast cancer cell (MCF-7) to verify the rotation function of our microfluidic system for various …
The focus lies on in vitro applications for interfacing single cell, cell clusters, and organoids. Challenges and future prospects are discussed for all-printed hybrid bio/electronic systems …
It raises the possibility to provide the specific in-situ platform to exploit the versatile, sensitive, and high-resolution electrochemical single-cell analysis for the promising …
3.7-GHz Multi-Bank High-Current Single-Port Cache SRAM with 0.5V-1.4V Wide Voltage …
Emerging organic-inorganic hybrid halide perovskite solar cells (PSCs) have achieved a certified power conversion efficiency (PCE) as high as 26.1%. 1 To overcome the Shockley-Queisser …
In this contribution, the performance of solid oxide fuel cells (SOFC) under high current density load cycles is studied by means of electrical measurements and material …
Here, authors report a macroscopical grain boundary-free interface layer with microscopic Li + -selective conductive channels enables the ultra-dense Li metal deposition, …
3.7-GHz Multi-Bank High-Current Single-Port Cache SRAM with 0.5V-1.4V Wide Voltage Range Operation in 3nm FinFET for HPC Applications Abstract: Wordline driver sleep (WLSLP) and …
Motivation: Single-cell gene expression profiling technologies can map the cell states in a tissue or organism. As these technologies become more common, there is a need …
Emerging organic-inorganic hybrid halide perovskite solar cells (PSCs) have achieved a certified power conversion efficiency (PCE) as high as 26.1%. 1 To overcome the Shockley-Queisser efficiency limit of single-junction solar cells, …
The system combined nanomaterial sensitized photoporation and single-cell encoded intracellular delivery of RNAs (scCode-fection), and was capable of tracing the gene …
1 Introduction. The record power conversion efficiency (PCE) of organic solar cells (OSCs) is now approaching the 20% threshold. [] At the same time, the large-scale commercialization of …
The single cell electron collector forms intimate contact with the cellular electron transfer machinery and maximizes the interfacial area, achieving record-high interfacial electron transfer...
converter. The power converter acting as a cell-to-cell interface to balance both current and voltage such as to reduce the risk of FCs stack damage. In this paper, the
By electronically wiring-up living cells with abiotic conductive surfaces, bioelectrochemical systems (BES) harvest energy and synthesize electric-/solar-chemicals …
A new concept of a single cell electron collector is proposed, which is in-situ …