丝网印刷

丝网印刷FeS2（pyrite）薄膜的结构及光电性能

The structural optical and electrical properties of films prepared by screen print

丝网印刷制备FeS2（Pyrite）薄膜及其结构研究

Thin Pyrite ( FeS_2 ) Films Prepared by Screen Print and Study of Films ' Structure

本公司除供应质优产品外，另外还经营各种印刷器材如丝网印刷机，网纱，网框，菲林，胶刮，调墨刀等

Other than the above , we also supply Silk Screen Printing Machine , Mesh , Film , Squeegee , Spatulas etc.

丝网印刷纳米金属氧化物型固态pH电极的研制

Fabrication of Metal Oxide - based Solid pH Electrode

基于PLC控制的丝网印刷机电气控制系统的研制

The Development of Electrical Control System of Screen Printing Machine Based on PLC Control

丝网印刷与厚膜IC技术是微电子技术的核心技术之一。

Screen printing and thick film IC technology are the core of microelectronics .

最后，将自适应PID控制技术应用于滚筒式丝网印刷机的CNC控制系统。

Finally , the technology of PID self-adaptable control is applied to printer CNC system .

丝网印刷纳米ZnO薄膜阴极场致发射的研究

Study of Screen-printed ZnO Film for Field Emission Cathode

丝网印刷与厚膜IC技术

Screen Printing and Thick Film IC Technology

用UV油墨进行彩色丝网印刷

Colour Screen Printing with UV Inks

纳米六氰合铁酸铜化学修饰丝网印刷电极对H2O2电催化性能的研究

Electrocatalysis of Hydrogen Peroxide at a Screen Printed Electrode Modified by Titanic Sol-gel Doping with Copper Hexacyanoferrate Nanoparticles

利用丝网印刷技术制备纳晶多孔TiO2薄膜电极

Preparation of nano-crystalline TiO_2 porous film electrode by screen printing technique

PDP中的荧光粉是通过丝网印刷的方法涂敷的。

The phosphor in PDPs is coated by screen printing method .

采用TiO2溶胶-凝胶法在丝网印刷电极上制备了纳米六氰合铁酸铜修饰电极。

A screen-printed electrode modified by titanic sol-gel chemically doping with copper hexacyanoferrate nanoparticles as mediator was developed .

丝网印刷与PTC发热技术

Screen Printing and PTC Heat Emission Technology

制备了两种用于DNA杂交信号检测的DNA生物传感器，分别基于氧化锆掺杂的碳糊电极和氧化锆修饰的丝网印刷电极。

Two types of DNA biosensors were fabricated for detection of DNA hybridization reaction , which were respectively based on zirconia doped carbon paste electrodes and zirconia modified SPEs .

丝网印刷胶体组成中不同造孔剂对TiO2薄膜性能的影响

Effects of different materials for making pore in paste on TiO_2 films prepared by screen-printing technique

快速检测VP的丝网印刷电极酶免疫传感器研究

Study on the Enzyme Immunosensor for Rapid Detection of Vibrio Parahaemolyticus Based on Screen-Printed Electrode

基于PMAC的滚筒式丝网印刷机数控系统研究

Research of PMAC-Based Open NC System for Roll Screen Printer

丝网印刷制备YSZ电解质薄膜性能的研究

Investigation on Fabrication and Application of Screen-Printing YSZ Electrolyte Films

用sol-gel法和丝网印刷法制备多孔TiO2薄膜，溶液沉积法制备MgO/TiO2复合薄膜。

TiO2 films were prepared by sol-gel and print screen method , MgO / TiO2 films were prepared by liquid deposition method .

UV油墨可用多种方法涂布，如丝网印刷、静电喷涂、帘涂等。涂布UV油墨后将板进行曝光，再用适当的显影剂显影，将已曝光或未曝光的部分洗掉。

The UV ink may be applied by a variety of methods such as screen printing , electrostatic spray coating , curtain coating et al .

用丝网印刷结合溶胶凝胶法制备了多孔TiO2薄膜，用溶液浸渍法制备了ZnO/TiO2复合薄膜；

Porous TiO2 films were prepared by sol-gel and Screen Printing method , and ZnO / TiO2 composite films were prepared using solution dipping method .

免疫传感器的制备包括2个步骤，使用丝网印刷工艺制备一次性碳电极，然后通过戊二醛交联在电极表面固定2,4-D与多聚赖氨酸（PLL）的偶联物。

The 2,4-D / PLL conjugate was immobilized on the surface of screen printed carbon electrode via crosslinking method .

高效单晶硅太阳电池商业化生产，除了BP公司刻槽埋栅太阳电池工艺外，传统丝网印刷工艺也有了很大的提高。

In commercial production of high-efficiency monocrystalline silicon solar cells , apart from the techniques adopted by BP-laser grooving buried contact , The conventional screen printing technology is also improved greatly .

本文首先采用丝网印刷技术分别制备YSZ和SDC电解质薄膜。

In this paper , YSZ film and SDC film were fabricated by screen-printing technology .

SDC电解质膜的烧结温度也是丝网印刷的关键参数之一。

The sintering temperature of the screen-printed SDC green film is important as well .

基于纳米MnO2二茂铁修饰丝网印刷碳电极的尿酸生物传感器研究

A Uric Acid Biosensor Based on Screen Printed Carbon Electrode Modified by MnO_2 Nano-Particles and Ferrocene

在PDP显示屏生产环节中，透明电极、辅助电极、选址电极等电极的制作都用到丝网印刷设备。

In the PDP production processes , the transparent electrode , auxiliary electrode and address electrode is manufactured by screen printing .

该传感器以丝网印刷电极上修饰聚乙二醇（PEG）薄膜为基底，固定捕获抗体制备而成。

The immunosensor was constructed by coating a polyethylene glycol ( PEG ) film on a screen-printed carbon-working electrode and then immobilizing capture antibody on the film .