การเพิ่มมูลค่ากลีเซอรอลผ่านการทำปฏิกิริยากับสารตั้งต้นซิงค์เพื่อสังเคราะห์ซิงค์กลีเซอโรเลต

เลิศพงศ์ ลาภชีวะสิทธิ์. 2016. ปริมาณการนำเข้ากลีเซอรอล. แหล่งข้อมูล : https://www.scbeic. com/th/detail/product/2271. ค้นเมื่อวันที่ 22 มีนาคม 2564.

สำนักงานคณะกรรมการกำกับหลักทรัพย์และตลาดหลักทรัพย์. 2017. การผลิตกลีเซอรอลบริสุทธิ์. แหล่งข้อมูล : https://market.sec.or.th/public/ipos/IPOSGetFile.aspx?TransID=94005& TransFileSeq=217. ค้นเมื่อวันที่ 23 มีนาคม 2564.

The National Library of Medicine. 2019. Glyzinc. Available at: https://pubchem.ncbi.nlm.nih.gov/compound/Glyzinc#section=Computed-Properties. Retrieved 16 October 2020.

Alibaba. 2020. Zinc glycerolate. Available at: https://www.alibaba.com/showroom/ zinc-glycerolate.html. Retrieved 23 March 2021.

ChemSrc. 2020. Zinc glycerlate. Available at: https://m.lookchem.com/name/Zinc-1-2-3-propanetriolato-2---kO1-kO2--.html. Retrieved 16 October 2020.

Cheong, M.Y., Hassan, H.A., Hassan, Z.A.A. and Ismail, R. 2012. Zinc glycerolate: Potential active for topical application. Journal of Oil Palm Research, 24, 1287-1295.

Reginald, M. Taylor. Improvements in or relating to the formation of metal alkoxides and metal powders by the use of microwave radiation. E.P. patent no. 0295283B1. December 1991.

Huzhou City Linghu Xinwang Chemical. 2020. Zinc Glycerolate PVC stabilizer. Available at: https://xwchemical.en.alibaba.com/product/60485214065816658140/ Zinc_Glycerolate_PVC_stabilizer.html. Retrieved 16 October 2020.

Taylor, R.M. and Brock, A.J. Pharmaceutical compound zinc glycerolate complex prepared by reacting zinc oxide and glycerol. U.S. patent no. 4544761. October 1985.

Matkin, D.A., Renshaw, D.C. and Harrison, A.R. Zinc glycerolate manufacture. E.P. patent no. 0721444A1. July 1996.

Rémiás, R., Kukovecz, Á., Darányi, M., Kozma, G., Varga, S., Kónya, Z. and Kiricsi, I. 2009. Synthesis of Zinc Glycerolate Microstacks from a ZnO Nanorod Sacrificial Template. European Journal of Inorganic Chemistry, 2009(24), 3622-3627.

Phakam, B., Srion, S. and Seabpradit, A. 2009. Synthesis of Zinc Glycerolate from the reaction of zinc acetate and glycerol by product biodiesel. A special project submitted in partial fulfillment of the requirement for the degree of bachelor of science in petrochemical technology faculty of science, KMITL.

Sitthirawiphong, C., Sumetsittikul, K. and Prayunthai, P. 2010. Synthesis of Zinc Glycerolate from the reaction of Zinc oxide with glycerol by-product biodiesel. A special project submitted in partial fulfillment of the requirement for the degree of bachelor of science in petrochemical technology faculty of science, KMITL.

Dong, H. and Feldmann, C. 2012. Porous ZnO platelets via controlled thermal decomposition of zinc glycerolate. Journal of Alloys and Compounds. 513, 125-129.

Jiang, P., Song, Y., Dong, Y., Yan, C. and Liu, P. 2013. Zinc glycerolate with lanthanum stearate to inhibit the thermal degradation of poly (vinyl chloride). Journal of Applied Polymer Science, 127, 3681-3686.

Reinoso, D.M., Damiani, D.E. and Tonetto, G.M. 2014. Zinc glycerolate as a novel heterogeneous catalyst for the synthesis of fatty acid methyl esters. Applied Catalysis B: Environtal, 144, 308–316.

Zhang, P., Liu, L., Fan, M., Dong, Y. and Jiang, P. 2016. The value-added utilization of glycerol for the synthesis of glycerol carbonate catalyzed with a novel porous ZnO catalyst. RSC Advance, 6, 76223-76230.

Lau, P., Kwong, T. and Yung, K. 2016. Effective heterogeneous transition metal glycerolates catalysts for one-step biodiesel production from low grade non-refined Jatropha oil and crude aqueous bioethanol. Scientific Reports, 6, 23822.