Dilek Asma scite author profile

Biosorption is an innovative and alternative technology to remove heavy metal pollutants from aqueous solution using live, inactive and dead biomasses such as algae, bacteria and fungi. In this study, live and dried biomass of Phanerochaete chrysosporium and Funalia trogii was applied as heavy metal adsorbent material. Biosorption of copper(II) cations in aqueous solution by live and dried biomass of Phanerochaete chrysosporium and Funalia trogii was investigated to study the effects of initial heavy metal concentration, pH, temperature, contact time, agitation rate and amount of fungus. Copper(II) was taken up quickly by fungal biomass (live or dried) during the first 15 min and the most important factor which affected the copper adsorption by live and dried biomass was the pH value. An initial pH of around 5.0 allowed for an optimum adsorption performance. Live biomass of two white rot fungi showed a high copper adsorption capacity compared with dried biomass. Copper(II) uptake was found to be independent of temperature in the range of 20–45 °C. The initial metal ion concentration (10–300 mg/L) significantly influenced the biosorption capacity of these fungi. The results indicate that a biosorption as high as 40–60 % by live and dried biomass can be obtained under optimum conditions.

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The evaluation of pre-grown mycelial pellets in decolorization of textile dyes during repeated batch process

Yeşilada

Yıldırım

Birhanlı

et al. 2009

World J Microbiol Biotechnol

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This study was undertaken for the possibility of application of pre-grown pellets for biotechnological treatment of dyes and textile industry waste waters. Mycelial pellets of five different white rot fungi were tested for their dye decolorization activity. The pellets of Funalia trogii, Phanerochaete chrysosporium and Trametes versicolor were determined as the most effective ones. The decolorization ability of viable pellets was compared with the decolorization (adsorption) ability of dead pellets during repeated batch studies. Astrazon Black dye was decolorized effectively, about 90%, by viable pellets of all fungi during the first use. Viable F. trogii pellets were found as the most effective pellets. Upon pellet treatment not only a high decolorization but also reduced toxicity (antimicrobial activity) of the Astrazon Black dye was recorded. This type of decolorization activity with commercial or crude laccase was partially observed. Growing cells of F. trogii in batch system showed lower efficiency in color removal of mixed dyes compared to the pre-grown pellets in repeated batch system. The results in this study showed that mycelial pellets could effectively be used as an alternative to traditional physicochemical processes.

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Synthesis of NiO Nanostructures UsingCladosporium CladosporioidesFungi for Energy Storage Applications

Atalay

Asma

Kaya

et al. 2016

Nanomaterials and Nanotechnology

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In this work, we produced nickel oxide nanostructures that show high electrochemical capacitive behaviour, using fungus-one of the most common life forms in nature. Cladosporium cladosporioides fungi are particularly attractive biotemplates due to their tubular structures. The nanostructured porous microtubes were prepared by chemical precipitation onto fungi. The morphological properties of the biosynthesized NiO microtubes were studied by transmission electron microscope (TEM). The Brunauer-Emmett-Teller (BET) surface area was found to be 119.72 m 2 g-1 with an average pore size distribution of 7.5 nm. A maximum capacitance value of 334 F g-1 was observed at 0.8 A g-1 , and a capacitance retention of approximately 95% was obtained after 1000 cycles.

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Dilek Asma

Decolorization of textile dyes by fungal pellets

Decolourisation of the textile dye Astrazon Red FBL by Funalia trogii pellets

Biosorption of Copper(II) by Live and Dried Biomass of the White Rot FungiPhanerochaete chrysosporium andFunalia trogii

The evaluation of pre-grown mycelial pellets in decolorization of textile dyes during repeated batch process

Synthesis of NiO Nanostructures UsingCladosporium CladosporioidesFungi for Energy Storage Applications

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