Selected Recent Publications

[1] S.Q.K. Law, B. Chen, P.J. Scales, G.J.O. Martin, Centrifugal recovery of solvent after biphasic wet extraction of lipids from a concentrated slurry of Nannochloropsis sp. biomass, Algal Research, 24 (2017) 299–308.

[2] Q. Zheng, G.J.O. Martin, S.E. Kentish, Energy efficient transfer of carbon dioxide from flue gases to microalgal systems, Energy & Environmental Science, 9 (2016) 1074–1082.

[3] G.J.O. Martin, Energy requirements for wet solvent extraction of lipids from microalgal biomass, Bioresource Technology, 205 (2016) 40–47.

[4] R. Halim, P.A. Webley, G.J.O. Martin, The CIDES Process: fractionation of concentrated microalgal paste for co-production of biofuel, nutraceuticals, and high-grade protein feed, Algal Research, 19 (2016) 299–306.

[5] B.H.J. Yap, S.A. Crawford, R.R. Dagastine, P.J. Scales, G.J.O. Martin, Nitrogen deprivation of microalgae: effect on cell size, cell wall thickness, cell strength, and resistance to mechanical rupture, Journal of Industrial Microbiology and Biotechnology, 43 (2016) 1671–1680.

[6] B.H.J. Yap, G.J.O. Martin, P.J. Scales, Rheological manipulation of flocculated algal slurries to achieve high solids processing, Algal Research, 14 (2016) 1–8.

[7] B.H.J. Yap, G.J. Dumsday, P.J. Scales, G.J.O. Martin, Energy evaluation of algal cell disruption by high pressure homogenization, Bioresource Technology, 184 (2015) 280–285.

[8] S.J. Takouridis, D.E. Tribe, S.L. Gras, G.J.O. Martin, The selective breeding of the freshwater microalga Chlamydomonas reinhardtii for growth in salinity, Bioresource Technology, 184 (2015) 18–22.

[9] E.M. Spiden, P.J. Scales, B.H.J. Yap, S.E. Kentish, D.R.A. Hill, G.J.O. Martin, The effects of acidic and thermal pretreatment on thermochanical rupture of two industrially relevant microalgae: Chlorella sp. and Navicula sp., Algal Research, 7 (2015) 5–10.

[10] D.L. Callahan, G.J.O. Martin, D.R.A. Hill, I.L.D. Olmstead, D.A. Dias, Analytical approaches for the detailed characterization of microalgal lipids extracts for the production of biodiesel, in: S.-K. Kim, K. Chojnacka (Eds.) Marine Algae Extracts: Processes, Products, and Applications, Wiley, 2015.

[11] G.J.O. Martin, D.R.A. Hill, I.L.D. Olmstead, A. Bergamin, M.J. Shears, D.A. Dias, S.E. Kentish, P.J. Scales, C.Y. Botté, D.L. Callahan, Lipid profile remodeling in response to nitrogen deprivation in the microalgae Chlorella sp. (Trebouxiophyceae) and Nannochloropsis sp. (Eustigmatophyceae), PlosOne, 9 (2014) e103389.

[12] B.H.J. Yap, S.A. Crawford, G.J. Dumsday, P.J. Scales, G.J.O. Martin, A mechanistic study of algal cell disruption and its effect on lipid recovery by solvent extraction, Algal Research, 5 (2014) 112–120.

[13] I.L.D. Olmstead, S.E. Kentish, P.J. Scales, G.J.O. Martin, Low solvent, low temperature method for extracting biodiesel lipids from concentrated microalgal biomass, Bioresource Technology, 148 (2013) 615–619.

[14] I.L.D. Olmstead, D.R.A. Hill, D.A. Dias, N.S. Jayasinghe, D.L. Callahan, S.E. Kentish, P.J. Scales, G.J.O. Martin, A quantitative analysis of microalgal lipids for optimization of biodiesel and omega-3 production, Biotechnology and Bioengineering, 110 (2013) 2096–2104.

[15] E.M. Spiden, B.H.J. Yap, D.R.A. Hill, S.E. Kentish, P.J. Scales, G.J.O. Martin, Quantitative evaluation of the ease of rupture of industrially promising microalgae by high pressure homogenization, Bioresource Technology, 140 (2013) 165–171.

[16] E.M. Spiden, P.J. Scales, S.E. Kentish, G.J.O. Martin, Critical analysis of quantitative indicators of cell disruption applied to Saccharomyces cerevisiae processed with an industrial high pressure homogenizer, Biochemical Engineering Journal, 70 (2013) 120–126.

[17] R. Halim, R. Harun, M.K. Danquah, P.A. Webley, Microalgal cell disruption for biofuel development, Applied Energy, 91 (2012) 116–121.

[18] R. Halim, M.K. Danquah, P.A. Webley, Extraction of oil from microalgae for biodiesel production: A review, Biotechnology Advances, 30 (2012) 709–732.

[19] R. Halim, B. Gladman, M.K. Danquah, P.A. Webley, Oil extraction from microalgae for biodiesel production, Bioresource Technology, 102 (2011) 178–185.