Development of Piezoelectric Oscillation-Based Microarray Spotting System
10.11895/j.issn.0253-3820.160928
- VernacularTitle:基于压电振荡原理的微阵列点样系统的研制
- Author:
Wei WANG
;
Zhenbang LIU
;
Guoyu ZHANG
;
Zhenxin WANG
;
Dongxue HAN
;
Li NIU
;
Yu BAO
- Keywords:
Piezoelectric oscillation;
Microarray spotting system;
Glass capillary spotting needle;
Patterned interface fabrication
- From:
Chinese Journal of Analytical Chemistry
2017;45(4):620-625
- CountryChina
- Language:Chinese
-
Abstract:
A new type of piezoelectric oscillation-based non-contact spotting mode has been developed to overcome the disadvantages of traditional non-contact spotting modes including complicated operation procedure, cleaning difficulty of spotting needle, large sample consumption of electromagnetic microvalve and high spotting cost of piezoelectric inkjet based non-contact spotting mode. In the device, the capillary spotting needle and the piezoelectric driving device are two independent units used for replacing and cleaning capillary spotting needle. The glass capillary spotting needle is prepared by the laser melting method with adjustable diameter and low cost. The sample spotting volume of the device can be easily adjusted in the range of 10Symbolm_10-10Symbolm_9 by changing the amplitude and frequency of piezoelectric ceramic. A microarray spotting system is developed by the combination of the piezoelectric oscillation-based non-contact spotting mode and three dimensional precision displacement control technology. The multiple parameters of as-prepared microarray spotting system have been tested including spotting volume, density of spot and spotting precision. The experimental results indicate that the minimum volume of single spot with 320 pL and the highest density of spot with 4000 spots/cm2 can be achieved by the as-prepared microarray spotting system. Furthermore, the as-prepared microarray spotting system can also be employed to fabricate patterned interface.
