1) microwave plasma enhanced CVD system
微波等离子体增强型
2) after glow Microwave plasma enhanced CVD system
隔离行微波等离子体增强型
3) microwave plasma enhanced
微波等离子体增强
1.
According to the character of VO2 taking phase transition at near 68 ℃,using the mixture gas of high pure hydrogen and high pure nitrogen as precursor,VO2-xNy thin films are synthesized at low temperature by microwave plasma enhanced procesesses using V2O5 as molecular precursors through coating film on glass slice.
选用V2O5为前驱物,通过在玻璃片上镀膜,利用高纯氢和高纯氮作为气源,采用微波等离子体增强法,在低温条件下合成了氮杂二氧化钒(VO2-xNy)样品。
4) enhancement of wave
等离子体波增强
5) microwave plasma enhance chemical vapor deposition (MPCVD)
微波等离子体增强化学气相沉积
1.
In the thesis, carbon nano-tubes (CNTs) are synthesized by microwave plasma enhance chemical vapor deposition (MPCVD).
本论文利用微波等离子体增强化学气相沉积(MPCVD)法制备了碳纳米管薄膜,并以此为阴极开发了二极型七段FED数码管和点阵式FED显示屏的驱动电路。
6) plasma enhanced MOCVD
等离子体增强型MOCVD
1.
The as grown, ZnO films annealed after growth and annealed during growth(denoted as S1, S2 and S3, respectively) were grown on C plane sapphire substrate by plasma enhanced MOCVD and characterized by XRD and X ray photoelectron energy spectra.
利用等离子体增强型MOCVD设备 ,在C面蓝宝石上生长出了C轴取向的未退火、生长后一次退火和生长过程中多次退火的ZnO薄膜样品 ,并通过X光衍射和X光电子能谱对样品进行了表征 ,结果表明生长过程中多次退火的样品具有较高的质量 ,O/Zn原子比较大 ,且受空气中氧和水汽的影响最小。
补充资料:电感耦合微波等离子体焰炬
分子式:
CAS号:
性质: 由微波感生、用于发射光谱分析的等离子体光源。将发生等离子体焰炬的石英管,置于微波谐振腔中,以2450MHz的微波激发。产生的光谱简单,背景低,耗气与耗电量小。
CAS号:
性质: 由微波感生、用于发射光谱分析的等离子体光源。将发生等离子体焰炬的石英管,置于微波谐振腔中,以2450MHz的微波激发。产生的光谱简单,背景低,耗气与耗电量小。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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