Electronic absorption spectra and photodecomposition of some substituted ferrocenes

Tarr, A. M.; Wiles, D. M.

doi:10.1139/v68-449

Cited by 60 publications

(32 citation statements)

References 8 publications

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“…The 260~280 nm bands of PGA-AmFc were attributed to the adsorption of peptide bonds in PGA. It is known that the UV-visible spectrum of ferrocene changes when the functional groups conjugate with ferrocene rings [30,31]. This is reasonable, since the 440 nm and 326 nm bands of ferrocene were attributed to metal-ring charge transfer, and it appears that the shifted transitions (412 nm and 344 nm bands) in AmFc were of the same type.…”

Section: Preparation Of the Aminoferrocene-attached Poly-l-glutamic Acidmentioning

confidence: 86%

Immobilization of Pyrroloquinoline Quinone-Dependent Alcohol Dehydrogenase with a Polyion Complex and Redox Polymer for a Bioanode

et al. 2017

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Abstract:A bioanode for ethanol oxidation was prepared by immobilizing the recombinant pyrroloquinoline quinone (PQQ)-dependent alcohol dehydrogenase from Pseudomonas putida KT 2440 (PpADH) with polyion complex (PIC) and redox polymer. The PIC based on poly-L-lysine (PLL) and poly-L-glutamic acid (PGA) was suitable for immobilizing PpADH on the electrode. PpADH was immobilized using only one redox polymer, aminoferrocene, which was attached to the PGA backbone (PGA-AmFc) on the electrode. The anodic current density at 0.6 V (vs. Ag/AgCl) was 22.6 µA·cm −2 . However, when the number of the cycles was increased, the catalytic current drastically decreased. PpADH was immobilized using PGA-AmFc and PIC on the electrode. The anodic current density at 0.5 V (vs. Ag/AgCl) was 47.3 µA·cm −2 , and the performance maintained 74% of the initial value after five cycles. This result indicated that the combination of PIC and PGA-AmFc was suitable for the immobilization of PpADH on the electrode. In addition, the long-term stability and catalytic current density were improved by using the large surface area afforded by the gold nanoparticles.

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Section: Preparation Of the Aminoferrocene-attached Poly-l-glutamic Acidmentioning

confidence: 86%

Immobilization of Pyrroloquinoline Quinone-Dependent Alcohol Dehydrogenase with a Polyion Complex and Redox Polymer for a Bioanode

et al. 2017

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“…However, only a few data have been available for the photosensitized polymerization of vinyl compounds by ferrocene (2). Ferrocene is usually believed to be a light-stable compound, but in organic halide solvents it decomposes upon exposure to light, resulting in the formation of free radicals (3,4). This led us to try the photopolymerization of vinyl monomers using a system of ferrocene and carbon tetrachloride (CCl,) as a sensitizer.…”

Section: Photosensitized Initiation Of Vinyl Polymeriza-tion By a Sysmentioning

confidence: 99%

Photosensitized initiation of vinyl polymerization by a system of ferrocene and carbon tetrachloride

Tsubakiyama

Fujisaki

1972

J. Polym. Sci. B Polym. Lett.

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“…Several authors report the photodecomposition of a variety of ferrocenes in a range of solvents including decalin [21], iso-octane [21], acetonitrile [21], methanol [21, 221, DMSO [21, 231, pyridine [21, 231, DMF [21, 231, chloroform [20] and carbon tetrachloride [20]. The relationship between decomposition rate and solvent appears to be complex [21] but it is thought that the presence of water in these solvents, even in trace amounts, is the contributing factor to the decomposition process. These photodecomposition studies have all concentrated on the spectroscopic aspects of the photodegradation process but, to the best of our knowledge, no follow up work has been done to determine the affect on the electrochemical properties and hence their direct implications for electrochemical biosensor design and development.…”

mentioning

confidence: 99%

“…Although ferrocene is known to be relatively inert in most solvents, with the notable exception of chlorocarbons [20], certain derivatives however have been found to decompose rapidly when exposed to light. Several authors report the photodecomposition of a variety of ferrocenes in a range of solvents including decalin [21], iso-octane [21], acetonitrile [21], methanol [21,221,DMSO [21,231,pyridine [21,231,DMF [21,231,chloroform [20] and carbon tetrachloride [20]. The relationship between decomposition rate and solvent appears to be complex [21] but it is thought that the presence of water in these solvents, even in trace amounts, is the contributing factor to the decomposition process.…”

mentioning

confidence: 99%

Electrochemil investigation of the photodecomposition of selected ferrocene derivatives

1997

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The photostability of nine ferrocene derivatives of varying functionality was investigated using cyclic voltammetry. Derivatives with carbonyl groups (aldehyde or ketone) directly attached to the cyclopentadiene ring system were found to decompose in aqueous (pH 7.4) solution over a period of 10 min when exposed to light. The kinetics of the photodecomposition process were investigated and the relative values of the rate constants for the photodecomposition tabulated. The implications for biosensor applications are assessed. [5-lo]. Their prevalence in the latter cannot simply be ascribed to their ability to mediate redox protein electrochemistry as this is an attribute possessed by a large number of simpler metal complexes such as ferrocyanide [11][12][13]. The apparent preference for ferrocenes in sensor development, as in numerous other applications, is due to the unrivalled versatility offered by its derivatives. The addition of functional substituents to the basic ferrocene structure can significantly alter the physical and chemical properties of the molecule thereby providing a means for tailoring mediators to their diverse biological and chemical functions encountered in sensor development. Modifications of the solubilities and electrochemical properties of these derivatives by altering such functional substituents were a primary concern in the early development of sensors that relied on solution based mediation. The recent pursuit of reagentless biosensors however has meant that it has been necessary to immobilize the mediator, through the various functionalities offered by such substituents, either onto a polymer [14, 151, the electrode [16], or even the protein itself [17][18][19]. While much information has been obtained on the electrochemical properties of such mediators, their stability, whether in solution or immobilized, is one property that is often overlooked and unfortunately is one that is vital to the success of any sensor relying upon these components. In this communication we have examined the photostability of nine monosubstituted ferrocenes in aqueous solution and shown that carbonyl functionality directly attached to the cyclopentadiene ring can initiate photodecomposition under ambient light and we report the corresponding kinetic factors. KeywordsAlthough ferrocene is known to be relatively inert in most solvents, with the notable exception of chlorocarbons [20], certain derivatives however have been found to decompose rapidly when exposed to light. Several authors report the photodecomposition of a variety of ferrocenes in a range of solvents including decalin [21], iso-octane [21], acetonitrile [21], methanol [21, 221, DMSO [21, 231, pyridine [21, 231, DMF [21, 231, chloroform [20] and carbon tetrachloride [20]. The relationship between decomposition rate and solvent appears to be complex [21] but it is thought that the presence of water in these solvents, even in trace amounts, is the contributing factor to the decomposition process. These photodecomposition studies have a...

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Electronic absorption spectra and photodecomposition of some substituted ferrocenes

Cited by 60 publications

References 8 publications

Immobilization of Pyrroloquinoline Quinone-Dependent Alcohol Dehydrogenase with a Polyion Complex and Redox Polymer for a Bioanode

Immobilization of Pyrroloquinoline Quinone-Dependent Alcohol Dehydrogenase with a Polyion Complex and Redox Polymer for a Bioanode

Photosensitized initiation of vinyl polymerization by a system of ferrocene and carbon tetrachloride

Electrochemil investigation of the photodecomposition of selected ferrocene derivatives

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