REFERENCES
- Ikeda, T.; Sugimoto, T.; Nojiri, M.; Magara, K.; Hosoya, S.; Shimada, K. Alkali pre-treatment for the bioethanol fuel production from woody biomasses. Part 1: Soda cooking conditions as an alkali pre-treatment. Japan TAPPI Journal 2007, 61(9), 1102–1111.
- Aïtcin, P.-C. Cements of yesterday and today: Concrete of tomorrow. Cement and Concrete Research 2000, 30(9), 1349–1359.
- Yoshioka, K.; Sakai, E.; Daimon M.; Kitahara, A. Role of steric hindrance in the performance of superplasticizers for concrete. Journal of the American Ceramic Society 1997, 80(10), 2667–2671.
- Ohta, A.; Uomoto, K. Fundamental study on the chemical structures of advanced superplasticizers and their effect on flowability of mortar. Seisan Kenkyu 1997, 49(12), 637–640.
- Li, C.-Z.; Feng, N.-Q.; Li, Y.-D.; Chen, R.-J. Effects of polyethlene oxide chains on the performance of polycarboxylate-type water-reducers. Cement and Concrete Research 2005, 35(5), 867–873.
- Takahashi, S.; Hattori, M.; Morimoto, M.; Uraki, Y.; Yamada T. Performance of softwood soda-anthraquinone lignin as water-reducing chemical admixture in concrete. Journal of Wood Chemistry and Technology 2014, 34(1), 31–38.
- Homma, H.; Kubo, S.; Yamada, T.; Koda, K.; Matsushita, Y.; Uraki, Y. Conversion of technical lignins to amphiphilic derivatives with high surface activity. Journal of Wood Chemistry and Technology 2010, 30, 164–174.
- Aso, T.; Koda, K.; Kubo, S.; Yamada, T.; Nakajima, I.; Uraki, Y. Preparation of novel lignin-based cement dispersants from isolated lignins. Journal of Wood Chemistry and Technology 2013, 33(4), 286–298.
- Lin, S.Y.; Dence, C.W. Methods in Lignin Chemistry; Springer-Verlag: New York, 1992.
- Sakai, E.; Yamada, K.; Ohta, A. Molecular structure and dispersion-adsorption mechanisms of comb-type superplasticizers used in Japan. Journal of Advanced Concrete Technology 2003, 1(1), 16–25.