1.
Modelling neutral lipid production by the microalga Isochrysis aff. galbana under nitrogen limitation.
by Mairet, Francis
Bioresource technology, January 2011, Vol.102(1), pp.142-149
2.
Strategies of preserving lipids in microorganism after fermentation
by Zhang, Xiaolei
Bioresource Technology, 2015, Vol.192, p.718(8)
3.
Lignocellulose-derived inhibitors improve lipid extraction from wet Rhodococcus opacus cells
by Kurosawa, Kazuhiko
Bioresource Technology, 2015, Vol.193, p.206(7)
4.
The effects of irradiation and microfiltration on the cells growing and total lipids production in the cultivation of Rhodotorula glutinis
by Yen, Hong - Wei
Bioresource Technology, March, 2012, Vol.107, p.539(3)
5.
Lipid production by Chlorella vulgaris after a shift from nutrient-rich to nitrogen starvation conditions.(Report)
by Mujtaba, Ghulam
Bioresource Technology, Nov, 2012, Vol.123, p.279(5)
6.
New procedure for extraction of algal lipids from wet biomass: A green clean and scalable process
by Tanzi, Celine Dejoye
Bioresource Technology, April, 2013, Vol.134, p.271(5)
7.
Enzyme-assisted extraction of lipids directly from the culture of the oleaginous yeast Rhodosporidium toruloides.(Report)
by Jin, Guojie
Bioresource Technology, May, 2012, Vol.111, p.378(5)
8.
Effect of continuous oleate addition on microbial communities involved in anaerobic digestion process
by Baserba, Manel Garrido
Bioresource Technology, Feb, 2012, Vol.106, p.74(8)
9.
Mixotrophic continuous flow cultivation of Chlorella protothecoides for lipids
by Wang, Yanming
Bioresource Technology, Sept, 2013, Vol.144, p.608(7)
10.
Bioethanol production from carbohydrate-enriched residual biomass obtained after lipid extraction of Chlorella sp. KR-1
by Lee, Ok Kyung
Bioresource Technology, 2015, Vol.196, p.22(6)
11.
Effects of temperature shifts on growth rate and lipid characteristics of Synechocystis sp. PCC6803 in a bench-top photobioreactor
by Sheng, Jie
Bioresource Technology, 2011, Vol.102(24), pp.11218-11225
12.
Evaluation of microalgae cultivation using recovered aqueous co-product from thermochemical liquefaction of algal biomass.(Report)
by Jena, Umakanta
Bioresource Technology, Feb, 2011, Vol.102(3), p.3380(8)
13.
Continuous versus batch production of lipids in the microalgae Acutodesmus obliquus.
by Remmers, I M
Bioresource technology, November 2017, Vol.244, pp.1384-1392
14.
Induction of lipids and resultant FAME profiles of microalgae from coastal waters of Pearl River Delta
by Daroch, Maurycy
Bioresource Technology, Oct, 2013, Vol.146, p.192(8)
15.
Production of biomass and lipids by the oleaginous microalgae Monoraphidium sp. QLY-1 through heterotrophic cultivation and photo-chemical modulator induction.
by Zhao, Yongteng
Bioresource technology, July 2016, Vol.211, pp.669-676
16.
Breeding of high biomass and lipid producing Desmodesmus sp. by Ethylmethane sulfonate-induced mutation.
by Zhang, Yi
Bioresource technology, May 2016, Vol.207, pp.268-275
17.
Polar snow algae as a valuable source of lipids?
by Hulatt, Chris J
Bioresource technology, July 2017, Vol.235, pp.338-347
18.
Acid-catalyzed hot-water extraction of lipids from Chlorella vulgaris
by Park, Ji - Yeon
Bioresource Technology, Feb, 2014, Vol.153, p.408(5)
19.
Hydrolysis for direct esterification of lipids from wet microalgae
by Takisawa, Kenji
Bioresource Technology, Sept, 2013, Vol.144, p.38(6)
20.
Mass culture of Botryococcus braunii Kutz. under open raceway pond for biofuel production
by Ashokkumar, Veeramuthu
Bioresource Technology, Jan, 2012, Vol.104, p.394(6)
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