"Efficient Extraction of Starch from Microalgae Using Ultrasonic Homogenizer and Its Conversion into Ethanol by Simultaneous Saccharification and Fermentation"
written by Chikako Asada, Keita Doi, Chizuru Sasaki, Yoshitoshi Nakamura,
published by Natural Resources, Vol.3 No.4, 2012
has been cited by the following article(s):
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[1] Bioethanol production via different saccharification strategies from H. tetrachotoma ME03 grown at various concentrations of municipal wastewater in a flat …
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[3] Microalgae Bioenergy with Carbon Capture and Storage (BECCS): An emerging sustainable bioprocess for reduced CO2 emission and biofuel production
[4] Efficient hydrolysis of glycogen from engineered Synechocystis sp. PCC 6803 catalyzed by recyclable surface functionalized nanoparticles for ethanol production
[5] Produção de biocombustíveis usando hidratos de carbono de microalgas
[6] Mechanical Physicial Properties of Chlorella-PVA based Bioplastic with Ultrasonic Homogenizer
[7] A mathematical model of intracellular behavior of microalgae for predicting growth and intracellular components syntheses under nutrient‐replete and‐deplete …
[8] Fermentation of Microalgae Biomass through Mild Acid Pretreatment for Bioethanol Production
[9] Ethanol Production from Sugarcane Bagasse Using Pressurized Microwave Treatment with Inorganic Salts and Salt-Tolerant Yeast
[10] Breakthroughs in bioalcohol production from microalgae: Solving the hurdles
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[11] Biofuels, Bio‐Power, and Bio‐Products from Sustainable Biomass: Coupling Energy Crops and Organic Waste with Clean Energy Technologies
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[12] Microalgae biorefineries: applications and emerging technologies
[13] Development of a process model for simultaneous saccharification and fermentation (SSF) of algal starch to third-generation bioethanol
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[14] Effects of the methane-inhibitors Nitrophenol, 5-Nitrobenzimidazol and two new synthetic nitrocompounds on in vitro ruminal fermentation
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[15] A systematic study regarding hydrolysis and ethanol fermentation from microalgal biomass
Biocatalysis and Agricultural Biotechnology, 2018
[16] Pretreatment of microalgal biomass to improve the enzymatic hydrolysis of carbohydrates by ultrasonication: Yield vs energy consumption
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[17] Hardness evaluation of dental composites fabricated from the uniform size and well-distributed zirconia-alumina-silica fillers with sol-gel technique
[18] Exploitation of microalgal biomass as an alternative source to bioethanol production
[19] Immobilization of α-amylase on metal nanoparticles mediated by xylan aldehyde improves hydrolysis of glycogen from Synechocystis sp. PCC 6803
Fuel, 2017
[20] A review of Biofuels Production Technologies from Microalgae
[21] Bioethanol from microalgae and cyanobacteria: A review and technological outlook
Process Biochemistry, 2016
[22] Hydraulic retention time effects on wastewater nutrient removal and bioproduct production via rotating algal biofilm reactor
Bioresource technology, 2016
[23] Potential of metal oxides in fractionation of Synechocystis sp. PCC 6803 biomass for biofuel production
Algal Research, 2016
[24] Algal biomass conversion to bioethanol–a step‐by‐step assessment
Biotechnology journal , 2014
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L Ramboarisata, C Gendron - www-eesd13.eng.cam.ac.uk, 2014