Ferry Iskandar

TL;DR: In this paper, a theoretical analysis indicates that the structural stability of the droplet and the hydrodynamic effects during the drying process play important roles in controlling the morphology of the resulting particles.

TL;DR: In this paper, the penetration of nanoparticles through the electrospun filter media could be reduced by increasing the filter thickness, which is controlled by the collection time during the electro-spinning process.

Abstract: The removal of hazardous organic compounds from water has become an issue of serious concern. [1–3] Efficient waste-water treatment is essential in the face of increasing population, industrial activity, and decreasing energy resources. Currently used methods for the removal of organic compounds from wastewater include biological, physical, and chemical treatment. However, traditional wastewater treatment meth-ods have several disadvantages. [3,4] Photooxidation is an attractive alternative method for wastewater treatment because it utilizes solar energy (free and inexhaustible), does not produce secondary product waste since the organic waste is decomposed to harmless chemicals during process, [3] and can eliminate toxic, bioresistant, and inorganic compounds from wastewater. [4]

TL;DR: A PL mechanism for hydrothermally synthesized GQDs is proposed on the basis of energy electron loss spectroscopy (EELS) and UV-Vis spectroscope analyses, which attributed enhanced PL intensity to delocalized π electrons from pyridinic-N contributing to the C system of the G QDs.