Due to the large contact area of the droplet, the jetting and atomizing device are widely used in many areas of national economy and daily use. There are many new applica-tions in the fields of atomization, such as nozzle spray, electromechanical process re-quired atomization, aerospace, medical and health, environmental protection, safety and energy saving. Piezoelectric ceramic atomizer is a kind of piezoelectric atomizer with simple structure, low energy consumption and high efficiency. It is often used in atomization sphere. In general, air humidifier and inhalation therapy device in daily and medical use are two typical applications. However, the lack of specific consideration to the atomized liquid properties (such as the viscosity), the loss of efficiency of the active vibrating mesh nebulizer is usually compensated by increasing the driving voltage. It not only causes extra energy consumption, more importantly, the atomized liquid/medicine will be damaged by device overheating. The task of this project is therefore to investigate the dynamic responses of the vibrating mesh of the nebulizer and find out the optimal structural parameters that can enhance the atomization efficiency for liquid with high viscosity. Three steps are taken in this project. Firstly, the vibration modes of the atomization mesh will be analyzed by simulation software and compared with an impedance measurement of real samples. Secondly, several improving approaches are proposed and real samples are manufactured. Finally, the atomization rate under the same driving power are measured and the efficiency can be increased as high as 1.7 times the original samples.