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W4200123126 startingPage "115926" @default.
W4200123126 abstract "Soft materials, such as hydrogels, polymers or biomaterials associated with electrodes provide interfaces revealing electrocatalytic, photoelectrocatalytic and controlled release of loads functions. These will be addressed by three examples demonstrated by our laboratory, including: (i) The assembly of a stimuli-responsive nucleic acid-based hydrogel on an electrode support, consisting of a hydrogel matrix crosslinked by duplex nucleic acid bridges and K+-ion-stabilized G-quadruplex bridges. By cyclic and reversible formation and dissociation of the G-quadruplexes by K+-ions and crown ether (CE), the switchable stiffness properties of the hydrogel are demonstrated. The integration of hemin into the G-quadruplex bridging units on electrocatalytic interface for the electrocatalyzed reduction of H2O2 is introduced. In the presence of K+-ions/crown ether the switchable electrocatalytic functions of the electrode are demonstrated. (ii) A pH-responsive nucleic acid-based hydrogel matrix is immobilized on an electrode surface. The hydrogel interface is crosslinked by permanent nucleic acid bridges and pH-responsive crosslinking units. At acidic pH values, the pH responsive bridges are unlocked via generating i-motif structures, leading to an hydrogel interface of lower stiffness. Immobilization of ferrocene-modified glucose oxidase (GOx) in the hydrogel yields an electrically contacted enzyme electrode that stimulates the bioelectrocatalyzed oxidation of glucose and the acidification of the hydrogel. By incorporating a load into the hydrogel, the electrocatalyzed oxidation of glucose and the accompanying acidification of the hydrogel lead to a hydrogel of lower stiffness, allowing the controlled release of the load. (iii) A supramolecular, electrochemically contacted, photoresponsive matrix consisting of native photosystem I (PS I) interlinked to glucose oxidase (GOx) by an electrically contacting redox polymer consisting of polyvinyl imidazole Os2+/3+(bipyridine)2Cl complex is introduced. The organized assembly acts as a photobioelectrochemical fuel cell where photoinduced electron transfer from PS I to the electrode stimulates the bioelectrocatalyzed oxidation of glucose. The system demonstrates the light-induced oxidation of the glucose-fuel and the concomitant generation of electrical power." @default.
W4200123126 created "2021-12-31" @default.
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W4200123126 date "2022-01-01" @default.
W4200123126 modified "2023-10-16" @default.
W4200123126 title "Controlling electrocatalytic, photoelectrocatalytic, and load release processes using soft material-modified electrodes" @default.
W4200123126 cites W1965352867 @default.
W4200123126 cites W1965504858 @default.
W4200123126 cites W1972809165 @default.
W4200123126 cites W1981049234 @default.
W4200123126 cites W1983197295 @default.
W4200123126 cites W1985704490 @default.
W4200123126 cites W1986210173 @default.
W4200123126 cites W1990083472 @default.
W4200123126 cites W1995875907 @default.
W4200123126 cites W2008192385 @default.
W4200123126 cites W2012020160 @default.
W4200123126 cites W2012387399 @default.
W4200123126 cites W2015694364 @default.
W4200123126 cites W2026481396 @default.
W4200123126 cites W2028201857 @default.
W4200123126 cites W2043447627 @default.
W4200123126 cites W2043765610 @default.
W4200123126 cites W2048973140 @default.
W4200123126 cites W2057671118 @default.
W4200123126 cites W2057833130 @default.
W4200123126 cites W2059559745 @default.
W4200123126 cites W2062645225 @default.
W4200123126 cites W2064308610 @default.
W4200123126 cites W2065120261 @default.
W4200123126 cites W2065510140 @default.
W4200123126 cites W2072024470 @default.
W4200123126 cites W2074345090 @default.
W4200123126 cites W2080311192 @default.
W4200123126 cites W2083841164 @default.
W4200123126 cites W2091395033 @default.
W4200123126 cites W2093316825 @default.
W4200123126 cites W2097486976 @default.
W4200123126 cites W2114178879 @default.
W4200123126 cites W2128815050 @default.
W4200123126 cites W2130313059 @default.
W4200123126 cites W2131961663 @default.
W4200123126 cites W2138721711 @default.
W4200123126 cites W2140384790 @default.
W4200123126 cites W2147199403 @default.
W4200123126 cites W2147324970 @default.
W4200123126 cites W2148304424 @default.
W4200123126 cites W2152372923 @default.
W4200123126 cites W2158643446 @default.
W4200123126 cites W2167008789 @default.
W4200123126 cites W2170038819 @default.
W4200123126 cites W2178026343 @default.
W4200123126 cites W2208268258 @default.
W4200123126 cites W2314208875 @default.
W4200123126 cites W2335171300 @default.
W4200123126 cites W2539107597 @default.
W4200123126 cites W2594584422 @default.
W4200123126 cites W2624786346 @default.
W4200123126 cites W2760258398 @default.
W4200123126 cites W2801042303 @default.
W4200123126 cites W2821187959 @default.
W4200123126 cites W2896042905 @default.
W4200123126 cites W2898799517 @default.
W4200123126 cites W2900565410 @default.
W4200123126 cites W2903661297 @default.
W4200123126 cites W2919684530 @default.
W4200123126 cites W2989149785 @default.
W4200123126 cites W3004946445 @default.
W4200123126 cites W4211087439 @default.
W4200123126 doi "https://doi.org/10.1016/j.jelechem.2021.115926" @default.
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