A comparative investigation on the effects of nanocellulose from bacteria and plant-based sources for cementitious composites. Ashraf W, Haque MI, Khan RI, Shah S. MI Haque, W Ashraf, RI Khan, S Shah - Cement and Concrete Composites, 2022 - Elsevier GSID: KgQ855SEgtYJ
Cellulose nanomaterials as additives for cementitious materials. Fu T, Moon RJ, Youngblood J, Zavattieri P. T Fu, RJ Moon, P Zavattieri, J Youngblood… - Cellulose-Reinforced …, 2017 - Elsevier GSID: 2hHxq93KBTkJ
Nanomaterials synthesis through microfluidic methods: an updated overview. Bîrcă AC, Chircov C, Grumezescu AM, Niculescu AG. AG Niculescu, C Chircov, AC Bîrcă, AM Grumezescu - Nanomaterials, 2021 - mdpi.com GSID: 3IlqDiAXOTQJ
Recent review on synthesis, evaluation, and SWOT analysis of nanostructured cellulose in construction applications. Aziz MA, Manzar MS, Nasir M, Zubair M. M Nasir, MA Aziz, M Zubair, MS Manzar… - Journal of Building …, 2022 - Elsevier GSID: tUBuV9IbLiEJ
Comparison of unique effects of two contrasting types of cellulose nanomaterials on setting time, rheology, and compressive strength of cement paste. Haider MM, Jian G, Nassiri S, Zhong T. S Nassiri, Z Chen, G Jian, T Zhong, MM Haider… - Cement and Concrete …, 2021 - Elsevier GSID: JcwEBdYjX94J