quantum biology
英 [ˈkwɒntəm baɪˈɒlədʒi]
美 [ˈkwɑːntəm baɪˈɑːlədʒi]
网络 量子生物学
双语例句
- You are developing a form of quantum biology.
你们正发展一种量子生物学形式。 - The Quantum Chemistry Study of the Drug Molecules and the Functional Coordination Compounds; Structure-based drug molecule design and organic synthesis; Chemical biology.
药物分子及功能配合物的量子化学研究药物小分子合成;计算机辅助药物设计;化学生物学。 - Quantum dots as cellular probes in plant cell biology
量子点标记及其在植物细胞生物学中的应用 - Quantum dots ( QD) are fluorescence labels, whose research fields involve biomedical imaging, disease diagnosis, and cell biology.
量子点(QD)是一种荧光标记物,其研究领域涉及生物医学成像、疾病诊断和细胞生物学。 - Curricular Construction of Quantum Biology for Biomedical Engineering Major
生物医学工程专业量子生物学课程建设的探索 - By using the potential well model, study on the organism coloring is presented in terms of quantum biology.
利用势阱模型研究了量子生物学中有机物的着色问题。 - It possesses unique properties including surface effect, volume effect and quantum confinement effect different from bulk materials and single molecular, and can be applied in many fields such as electronics, optics, chemistry, ceramics, biology and medicine.
纳米材料具有明显不同于体材料和单个分子的独特性质,比如表面效应、体积效应、量子尺寸效应和宏观量子隧道效应,广泛的应用于电子学、光学、化工、陶瓷、生物和医药等领域。 - Research Progress of Quantum Dots in Biology
量子点在生物学中的研究进展 - Progress in application of quantum dot labeling to biology
量子点荧光标记应用于生物学的研究进展 - The theory support of physics in Quantum Biology, Biology Cybernetics, Biology Information Theory, Nerve Biophysics is analyzed in the fourth part.
第四章从理论生物物理学的角度对量子生物学、生物控制论与生物信息论与神经生物物理的物理支撑作系统的分析。 - Iri this paper, the probable structures of NO has been studied with method of quantum biology and it had been suggested that NO be in its form of double molecule.
本文用量子生物学方法研究了NO的存在形式,建议体内NO具有双分子形式。 - Quantum dynamics study of polyatomic reaction and accurate quantum mechanical calculation for biological molecules such as proteins are very important topics in computational chemistry and biology.
用量子力学的方法理解化学反应的动力学规律、研究分子的物理化学特性是原子分子物理研究的重要课题之一。 - The water-soluble porphyrins, with high fluoresence quantum yield, have attracted much attention due to their potential applications in chemistry, medicine, biology and biotechnology.
具有较高荧光量子效率的水溶性卟啉化合物在化学、医学、生物学以及生物技术等领域具有广泛的应用前景。 - With the constant improvement of quantum chemistry and the rapid development of computer technology, density functional theory method has become a conventional research method in the fields of physics, chemistry, biology and so on.
量子化学理论的不断完善和计算机技术的迅猛发展,使密度泛函理论方法成为了物理、化学、生物等领域中的常规研究手段。 - The control of quantum path has applications in a wide range, which include high order harmonic generation ( HHG) and attosecond pulse production, the ultrafast imaging in biology, tomographic imaging of molecular orbitals and molecule alignment.
量子轨道的操控有着极为广泛的应用,这包括高次谐波及阿秒脉冲的产生,生物学的快速成像,分子轨道断层成像,分子排列等等。 - Now, nanoscience continues to advance at a dramatic pace and is making revolutionary contributions in diverse fields, including electronics, optoelectronics, quantum electronics, materials science, chemistry, and biology.
目前,纳米科学正以惊人的步伐向前迈进,并在不同领域取得了巨大的革命性的贡献,包括电子、光电子、量子电子、材料科学、化学、生物学领域。 - With the continuing development and synthesis of quantum mechanics technology, modern analytical technology and testing, coordination chemistry has developed rapidly, has become a physics, chemistry, biology, materials, information science and other academic research focus.
随着现代合成技术、测试技术的不断发展及量子力学理论技术的应用,配位化学发展迅速,已经成为物理、化学、生物、材料、信息等学科研究的热点。 - Quantum dots not only in immune biology and clinical laboratory science and other research areas are excellent fluorescent markers of biological materials, but also show excellent advantages in the LED lighting area.
荧光量子点不仅在免疫生物学和临床检验学等研究领域是优秀的生物荧光标记材料,在LED照明领域也展示出卓越的优势。 - In the past decades, the applications of quantum chemistry to various problems in chemistry, physics, and biology have increased rapidly.
近几十年来,量子化学在化学,物理和生物问题中的应用迅速增加。 - Quantum dots have many potential usages in many fields such as biochemistry, cell biology, immuno-biology etc. Especially, quantum dots can be used as labels for biological systems.
量子点在生物化学、细胞生物学、免疫生物学等学科的研究中显示了巨大的发展潜力,特别是量子点作为标记物用于生物分析,很有应用前途。 - Although accurate full quantum calculations can be made currently on reaction systems for four-or-less-atom molecules, what biology and chemistry concerns most are large molecules containing more than four atoms.
当前,人们已经能够对四原子以内的反应体系进行全量子的严格计算。然而化学和生物所感兴趣的绝大多数是大分子(多于4个原子)。 - Because semiconductor quantum dots have unique quantum effects, it can play an important role in other disciplines research such as optics, biology, chemistry, medicine and so on.
半导体量子点具备独特的量子效应,与其他学科的交叉成为一种研究趋势,可以广泛地应用到光学、生物、化学、医学等众多领域。 - Coumarin-based dyes known by their excellent spectroscopic properties of large molar extinctions coefficient and high fluorescence quantum yield, have wildly used in the field of molecular biology sciences, medicine sciences.
香豆素是一种性能优越的染料,其系列衍生物通常具有较大的摩尔吸光系数及较高的量子产率,作为荧光标记物,分子生物学和医学领域己有广泛的应用。