Preparation of Ni-induced Crystallized SiGe Film and Study on Thermoelectric Hydrogen Sensor;
Ni诱导SiGe薄膜晶化烧结制备与热电势氢传感器件
Progress of SAW hydrogen sensor;
SAW氢传感器的研究进展
Establishing the mathematical model of inspection, the project was realized by using an HR electrochemical atomic hydrogen sensor and SCM.
讨论了管道/压力容器内部腐蚀速率原位在线检测原理,构建了检测数学模型,并对利用HR电化学原子氢传感器及单片机系统实现上述检测过程的实施方案进行了研究和探讨。
The relationship,that temperature and diaphragm material with electromotive force and internal resistance of cell system of atomic hydrogen sensor,was studied by the thermodynamic means,then a static mathematical model of sensor cell system was formulated.
利用热力学方法 ,讨论了温度、隔膜材料对原子氢传感器电池体系电动势、内电阻的影响 ,构建了传感器电池体系静态数学模型 。
Various quantum chemical methods, including MNDO, AM1, HF/3-21G, HF/6-31G~**, were employed to investigate the intramolecular hydrogen transfer (IHT) process of 9-hydroxyphenalen-1-one (9-HPO), the result was compared with X-ray structure data.
借助MNDO、AM 1、HF/ 3 2 1G、HF/ 6 31G 量子化学理论计算方法 ,对 9 羟基苯并萘酮 (9 HPO)的分子内氢传递过程进行了理论探讨 ,并与X射线衍射的结构数据作了比较。
Research on new type micro-mirror optical fiber hydrogen sensor;
一种新型微镜式光纤氢传感器的研究
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