-
[1] Barthlott W., C. Neinhuis. 1997. “The purity of sacred lotus or escape from contamination in biological surfaces". Planta 202: 1-8
-
[2] Bhattacharyya Rupsha. 2013. “Technological applications of superhydrophobic coatings: needs and challenges". Novus International Journal of Analytical Innovations 2 (4): 1-9.
-
[3] Bhushan Bharat, Yong Chae Jung. 2006. “Micro- and nanoscale characterization of hydrophobic and hydrophilic leaf surfaces". Nanotechnology 17: 2758-2772.
-
[4] Brassard J. D., D. K. Sarkar, J. Perron, A. Audibert-Hayet, D. Melot. 2015. “Nano-micro structured superhydrophobic zinc coating on steel for prevention of corrosion and ice adhesion". Journal of Colloid and Interface Science 447: 240-247.
-
[5] Cassie A.B.D., S. Baxter. 1944. “Wettability of porous surfaces". Transactions of Faraday Society 40: 546-551.
-
[6] Drelich Jaroslaw, AbrahamMarmur. 2014. “Physics and applications of superhydrophobic and superhydrophilic surfaces and coatings". Surface Innovations 2 (4): 211-227.
-
[7] Ferrari M., A. Benetti, 2015. “Superhydrophobic surfaces for applications in seawater". Advances in Colloid and Interface Science 222: 291-304
-
[8] Gu Changdong, Tong-Yi Zhang. 2008. “Electrochemical synthesis of silver polyhedrons and dendritic films". Langmuir 24 (20):12010-12016.
-
[9] Hang T., A. Hu, H. Ling, M. Li, D. Mao. 2010. “Super-hydrophobic nickel films with micro-nano hierarchical structure prepared by electrodeposition". Applied Surface Science 256: 2400-2404.
-
[10] Haghdoost A, R. Pitchumani. 2013. “Self-cleaning superhydrophobic metallic coatings". Proceedings Annual Meeting of Adhesion Society, Daytona Beach, Florida, USA 3-6.03.2013: 126-128.