Background: Immobilized cultivation of microorganisms is gaining interest in the microalgae industry. In this study, a novel microalgae polymeric carrier, sodium cellulose sulphate/poly-dimethyl-diallyl-ammonium chloride (NaCS-PDMDAAC) capsule system, was employed to immobilize Chlorella sp. Microalgae cultivation was performed under immobilized and suspended conditions, and the resulting cells were characterized biochemically and physically. Results: Experimental results indicated that microalgae cells cultivated under NaCS-PDMDAAC immobilized conditions have a robust morphology, a smaller average cell size of 2.92 µm and a higher Zeta potential of - 17.10 mV than the suspended cells with a cell size of 6.81 µm and Zeta potential of - 32.9...
The immobilisation of Chlorella vulgaris 211/11B entrapped in combinations of natural matrices to si...
BACKGROUND: Algal growth on solid surfaces confers the advantage of combining the algal harvesting a...
© 2018 Elsevier B.V. Microalgae are rich in several nutritional and health-beneficial components, sh...
BACKGROUND: Microalgae continue to be a focus of industrial bioprocess sustainability practice owing...
In recent years, microalgal biotechnology has experienced significant growth across multiple industr...
Immobilization technique is used to simplify the separation process of microalgae from the culture m...
Immobilization of microalgae presents a sustainable approach for rapid and effective phycoremediatio...
Microalgae can be used in biological wastewater treatment as it can survive harsh condition. Microal...
The success of microalgae immobilized in gel beads for lipid production heavily relies on the charac...
Immobilization of microalgae in polymers can overcome problems associated with biomass harvesting f...
The success of microalgae immobilized in gel beads for lipid production heavily relies on the charac...
The aim of this research is to study the immobilization effect on growth cell of microalgae Chlorell...
The unicellular green microalgae, Chlorella sp., entrapped in sodium cellulose sulphate/poly-dimethy...
<div><p>Abstract Microalgae are studied because of their biotechnological potential. The growth of m...
[EN] The biomass obtained from microalgae, such as Chlorella, is used to make dietary products, supp...
The immobilisation of Chlorella vulgaris 211/11B entrapped in combinations of natural matrices to si...
BACKGROUND: Algal growth on solid surfaces confers the advantage of combining the algal harvesting a...
© 2018 Elsevier B.V. Microalgae are rich in several nutritional and health-beneficial components, sh...
BACKGROUND: Microalgae continue to be a focus of industrial bioprocess sustainability practice owing...
In recent years, microalgal biotechnology has experienced significant growth across multiple industr...
Immobilization technique is used to simplify the separation process of microalgae from the culture m...
Immobilization of microalgae presents a sustainable approach for rapid and effective phycoremediatio...
Microalgae can be used in biological wastewater treatment as it can survive harsh condition. Microal...
The success of microalgae immobilized in gel beads for lipid production heavily relies on the charac...
Immobilization of microalgae in polymers can overcome problems associated with biomass harvesting f...
The success of microalgae immobilized in gel beads for lipid production heavily relies on the charac...
The aim of this research is to study the immobilization effect on growth cell of microalgae Chlorell...
The unicellular green microalgae, Chlorella sp., entrapped in sodium cellulose sulphate/poly-dimethy...
<div><p>Abstract Microalgae are studied because of their biotechnological potential. The growth of m...
[EN] The biomass obtained from microalgae, such as Chlorella, is used to make dietary products, supp...
The immobilisation of Chlorella vulgaris 211/11B entrapped in combinations of natural matrices to si...
BACKGROUND: Algal growth on solid surfaces confers the advantage of combining the algal harvesting a...
© 2018 Elsevier B.V. Microalgae are rich in several nutritional and health-beneficial components, sh...