Widely used for industry radiation inspection, medical care, chemical imaging, currency detector and stage lighting, etc.
广泛地应用于工业辐射检查、医疗、化学成像、验钞和舞台照明等领域。
Silver halides photographic materials, as a traditional photo-chemical imaging system widely used, possesses high sensitivity and resolving power, but are weak for real-time presentation.
传统的光化学成像体系:银盐感光材料应用范围广泛,感光应、分辨率高。但缺少实时性。非银盐感光材料具有实时性,分辨率极高,但大部分产品感光度极低。
Shapiro then earned a PhD at MIT, where he developed a noninvasive imaging technology for observing chemical messengers in the brain.
夏皮罗在麻省理工大学拿到了博士学位,在那里,他发明了无创成像技术,用以观察大脑里的化学反应。
Currently, they are being probed through biochemical, chemical-genetic, modeling and imaging methods.
目前,他们正在探讨通过生化,遗传,化学建模和成像方法。
The new method takes multiple images of a print from many different surfaces, using a technology called Mass Spectrometry Imaging to produce a detailed chemical signature.
新方法使用一种名为“大量光谱成像”的技术生成详细的化学特征,从多个不同的表面采集多种指纹图像。
Magnetic resonance imaging; in phase; Opposed phase; Signal intensity; VertebraL; Chemical shift.
脊椎;化学位移成像;同相位;反相位;磁共振成像;信号强度。
PET, a nuclear medical imaging modality, is ideally suited to produce such kinds of images by use of positron-emitting chemical entities.
宠物,一个核医学成像形态,很适合于透过使用发出正电子的化学实体产生这样的多种图像。
Their excellent optical and chemical properties make gold NPs an attractive contrast agent for cellular imaging.
良好的光学和化学能力揭示了纳米金颗粒在细胞成像作为对比剂的潜力。
Monomers and polymers in need were synthesized, and chemical and physical properties of these polymers and imaging performance of the photo-sensitive imaging system were investigated.
对所需的单体、聚合物等进行了合成,并对合成聚合物的基本物化性能及其用于光敏成像体系的成像性能进行较系统的研究。
The research result shows microscopical imaging spectrometer will get extensive applications in biological, medical, chemical and material fields as a new analytical method.
研究结果表明,显微成像光谱技术作为一种新的技术手段,必将在临床医学、生物学、材料学以及分析化学等领域得到广泛的应用。
This dissertation discussed their optical, chemical and biologic optical characteristics, and did some research in bio-imaging and solar cell applications with these nanoparticles.
本论文对它们的光学、化学及生物特性进行了探讨,并将这些纳米颗粒应用于癌症细胞的光学生物成像和有机太阳能电池的研究。
This dissertation discussed their optical, chemical and biologic optical characteristics, and did some research in bio-imaging and solar cell applications with these nanoparticles.
本论文对它们的光学、化学及生物特性进行了探讨,并将这些纳米颗粒应用于癌症细胞的光学生物成像和有机太阳能电池的研究。
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