WATER HARVEST PROJECT

 Analyzed the influence of the shape and depth of the hydrophilic part of hydrophobic surface on cooled-water collection efficiency in order to increase the possibility to collect freshwater resources using the surface in arid regions.

 Assisted preparing super hydropathy surface samples

 Conducted experiments on the collection of cooled water

 Utilized photon microscope and electronic microscope to observe and calculate the proportion of shape and superficial area of hydrophilic and hydrophobic surfaces, analyzed the relationship between various variables and the efficiency of cooled water collection of samples through graphs

Turned into research project after Aug 2020 due to leaving US result from COVID-19.