An elaborate biomolecular keypad lock based on electrochromism of viologen derivatives and bioelectrocatalytic reduction of CO2 at supramolecular hydrogel film electrodes

Herein, the short peptide N-fluorenemethoxycarbonyl diphenylalanine (Fmoc-FF) was used to immobilize both diallyl viologen (DAV) and the enzyme formate dehydrogenase (FDH) to form Fmoc-FF/DAV/FDH supramolecular hydrogel films on an electrode surface by a simple solvent-controlled self-assembly metho...

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Bibliographic Details
Published in:Biosensors & bioelectronics 2023-10, Vol.238, p.115560-115560, Article 115560
Main Authors: Li, Jiaxuan, Shi, Jiaqi, Wang, Yizhu, Yao, Huiqin, Meng, Lingchen, Liu, Hongyun
Format: Article
Language:English
Subjects:
Bioelectrocatalysis
Biomolecular logic
CO2 reduction
Supramolecular hydrogel
Viologen derivatives
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Summary:Herein, the short peptide N-fluorenemethoxycarbonyl diphenylalanine (Fmoc-FF) was used to immobilize both diallyl viologen (DAV) and the enzyme formate dehydrogenase (FDH) to form Fmoc-FF/DAV/FDH supramolecular hydrogel films on an electrode surface by a simple solvent-controlled self-assembly method. The DAV component in the films exhibited multiple properties, such as electrochromism and electrofluorochromism, and acted as an electrochemical mediator. A high efficiency of bioelectrocatalytic reduction of CO2 to formate (HCOO−) was obtained by the natural FDH enzyme and the artificial coenzyme factor DAV both immobilized in the same films. The supramolecular hydrogel films with CO2, voltage and light as stimulating factors and current, fluorescence and UV–vis extinction as responsive signals, were further applied for the construction of complex biomolecular logic systems and information encryption. A 3-input/7-output biomolecular logic gate and several logic devices, including an encoder/decoder, a parity checker, and a keypad lock, were constructed. Especially, the biomolecular keypad lock with 3 types of signals as outputs significantly enhanced the security level of information encryption. In this work, a supramolecular self-assembly interface was simply fabricated with complex biomolecular computational functions using immobilized molecules as the computational core, greatly broadening the application range of supramolecular hydrogel films and providing an idea for new designs of bioinformation encryption through the use of a simple film system. Schematic diagram of the performance tuning and switching phenomena of the electrocatalytic current (I), fluorescence signal (FL) and UV–vis extinction signal (A) of supramolecular hydrogel film electrodes and a series of logic applications. [Display omitted]
ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2023.115560