Fungi-Derived Pigments for Sustainable Organic (Opto)Electronics

Giesbers, Gregory; Schenck, Jonathan Van; Gutierrez, Sarath M. Vega; Robinson, Seri C.; Ostroverkhova, Oksana

doi:10.1557/adv.2018.446

Cited by 29 publications

(34 citation statements)

References 17 publications

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“…A recent study of the (opto)electronic properties of blends of the pigment xylindein extracted from C. aeruginosa has revelaed that this pigment has high photostability and electron mobility in amorphous films, which suggests its possible use for the development of sustainable, organic semiconductor materials [214,215].…”

Section: Fungal Pigments In (Opto) Electronicsmentioning

confidence: 99%

Fungal Pigments and Their Prospects in Different Industries

Dufossé²,

et al. 2019

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The public’s demand for natural, eco-friendly, and safe pigments is significantly increasing in the current era. Natural pigments, especially fungal pigments, are receiving more attention and seem to be in high demand worldwide. The immense advantages of fungal pigments over other natural or synthetic pigments have opened new avenues in the market for a wide range of applications in different industries. In addition to coloring properties, other beneficial attributes of fungal pigments, such as antimicrobial, anticancer, antioxidant, and cytotoxic activity, have expanded their use in different sectors. This review deals with the study of fungal pigments and their applications and sheds light on future prospects and challenges in the field of fungal pigments. Furthermore, the possible application of fungal pigments in the textile industry is also addressed.

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Section: Fungal Pigments In (Opto) Electronicsmentioning

confidence: 99%

Fungal Pigments and Their Prospects in Different Industries

Dufossé²,

et al. 2019

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“…The controlled cultivation and additionally, the biotechnological production of xylindein is relevant for further fields of application. Boonloed et al [6] and Giesbers et al [7] describe its potential as a fluorescent labeling agent as well as in organic semiconductor applications. The wood industry, especially the veneer producers, are looking for new wood modification options for example, spalting and therefore, Chlorociboria sp.…”

Section: Introductionmentioning

confidence: 99%

Influence of the Nutrients on the Biomass and Pigment Production of Chlorociboria aeruginascens

Stange

Steudler

Delenk

et al. 2019

JoF

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The blue-green pigment xylindein, produced by the soft rot fungus Chlorociboria aeruginascens, is of considerable interest for various applications such as the veneer industry or organic semiconductors. The studies presented were performed in order to understand the fungal growth as well as the pigment production of C. aeruginascens. Therefore, various nutrient compositions were investigated. As a result, observations of the formation of xylindein through C. aeruginascens decoupling from growth were made. In the primary metabolism the uncolored biomass is formed. Various carbohydrates were determined as nutrients for the fungus and as a nitrogen source it was observed that the fungus prefers the complex organic nitrogen source, that being yeast extract. Furthermore, it was discovered that the ratio between carbohydrate and nitrogen sources encourages the switch of the metabolism and therewith the production of the blue-green pigment xylindein.

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“…Xylindein is produced by polykedite synthesis [4] and therewith belongs to the secondary metabolites of these fungi. Xylindein seems to have promising applicability as a fluorescent labeling agent or in organic semiconductor applications [5,6]. To date, it cannot be produced by chemical synthesis [7,8].…”

Section: Introductionmentioning

confidence: 99%

Influence of Environmental Growth Factors on the Biomass and Pigment Production of Chlorociboria aeruginascens

Stange

Steudler

Delenk

et al. 2019

JoF

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The soft rot fungus Chlorociboria aeruginascens produces a blue–green pigment xylindein, which is of considerable interest for various applications such as in the veneer industry or in organic semiconductors. To understand the fungal growth as well as pigment production of C. aeruginascens, several studies were performed, the results of which are presented here. These studies investigated various growth conditions such as temperature, pH value, oxygen level and light intensity. It was observed that the formation of xylindein by C. aeruginascens decoupled from growth. In the primary metabolismus, the uncolored biomass is formed. Pigment production took place within the secondary metabolism, while biomass growth as well as pigment production depended on various growth conditions. It was also found that certain conditions encourage the switch in metabolism, leading to pigment production.

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Fungi-Derived Pigments for Sustainable Organic (Opto)Electronics

Cited by 29 publications

References 17 publications

Fungal Pigments and Their Prospects in Different Industries

Fungal Pigments and Their Prospects in Different Industries

Influence of the Nutrients on the Biomass and Pigment Production of Chlorociboria aeruginascens

Influence of Environmental Growth Factors on the Biomass and Pigment Production of Chlorociboria aeruginascens

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