这是生物成像研究中心的网页。
原子力显微镜(afm)是目前最新的生物成像技术之一。
Atomic force microscope (AFM) is one of the newest imaging techniques in the field of biomedicine.
半导体量子点作为新型高灵敏的荧光探针被广泛用于生物成像中。
As novel ultrasensitive optical probes, semiconductor quantum dots has been currently used in fluorescent imaging techniques.
很清楚,受激拉曼散射将在未来的生物成像与医学诊断中扮演一个重要的角色。
It's now clear that stimulated Raman scattering will play an important role in the future of biological imaging and medical diagnostics.
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.
信号处理、成像、医学成像、地质学、生物信息学、编码理论、信息论、控制系统……它几乎已经扩散到每一个工程学科与领域。
Signal processing, imaging, medical imaging, geology, bioinformatics, coding theory, information theory, control systems... It has been disseminated to almost every engineering field.
磁共振力显微镜的分辨率接近于电子显微镜(10倍以内),这是目前生物学家所用到的最灵敏的成像技术。
MRFM resolution is nearly as good (within a factor of 10) of the resolution of electron microscopy, the most sensitive imaging technique that biologists use today.
按照传统的见解,包括海绵、水母和珊瑚在内的简单动物按部就班发生演变,以线性方式形成像哺乳动物一样的更加复杂的生物体。
According to conventional thinking, simple animals, including sponges, jellyfish and corals, evolved step-by-step in a linear fashion into those with more complex bodies, such as mammals.
1991年,理论物理学家约翰·赛德斯首次提出了将原子力显微技术与MRI相结合用以对微小生物结构成像的想法。
In 1991, theoretical physicist John Sidles first proposed the idea of combining MRI with atomic force microscopy to image tiny biological structures.
在生物医学成像和生物工程的国家研究所所取得的图像。
Image via the National Institute of Biomedical Imaging and Bioengineering.
这些方程是进行生物电流检测和组织功能成像的理论基础。
These equations are the base of the bioelectric currents detecting and the function imaging of tissue.
PET是一项非损伤的成像技术,它将示踪迹注入血液利用其放射性来检测生物活性并成像。
PET is a non-invasive imaging technique that uses radioactivity emitted from injected tracer chemicals to measure and image biological activity.
他们说,新的颇具前途的成像技术和生物标记物血液检测均在研究当中。
Promising new imaging techniques and blood tests for biomarkers that would reveal cancer are in the works, they said.
借助生物医学成像与生物工程研究所提供的资金支持,起初hamad -Schifferli和她的同事们着手研究一种能够阻止转化的系统。
With funding from the Institute of Biomedical Imaging and Bioengineering, Hamad-Schifferli and her co-workers initially set out to design a system that would prevent translation.
一种基于声场、电场和磁场相互正交耦合作用的新方法为生物电流检测和医学功能成像提供了新的思路。
A novel method based on the coupling effect of orthogonal sound field - electric field and magnetic field is used for the bioelectric currents detecting and the function imaging of tissue.
根据这个原理,在外加磁场的情况下声场、电场相互正交耦合作用的生物电流检测和组织功能成像方法的提出为医学诊断提供了新的思路。
Basing on this theory, novel methods for the bioelectric currents detecting and the function imaging of tissue had been presented and have hoped to apply to medical diagnosis.
利用这三种成像方法对多种生物组织,特别对正常和病变的生物组织进行非线性参量成像。
The experimental imaging by using these methods are performed on several kinds of soft tissues, especially for normal and pathological biological tissues.
这支研究团队来自生物和临床心理学学院。他们用核磁共振成像仪观察人们听到与疼痛相关的词汇时的脑部反应。
The team from the department of Biological and Clinical Psychology used magnetic resonance tomography to investigate how individuals processed words associated with experiencing pain.
他解释说,这些研究发现强调了需要对RBD患者进行纵向综合性评估,其中类似123i - FP -CIT SPECT成像等生物标志物将是关键性的检测。
These findings underscore the need for longitudinal comprehensive evaluations of patients with RBD, in which biomarkers such as 123i-fp-cit SPECT imaging will be key measures, he explained.
用粒子成像测速技术(PIV)和稳态法分别测量均相流体在热管生物反应器中湍流时的流场、温度场;
The flow field and temperature field of the uniformity phase fluid were measured by PIV and the steadystate method during the state of onflow.
扫描离子电导显微镜技术是在纳米尺度进行非导电的生物样品成像的一种新型扫描探针显微镜技术。
As a new kind of scanning probe microscopy, scanning ion conductance microscopy (SICM) is designed for imaging non-conducting biological sample at the nanometer scale.
指纹成像是一种名为“生物统计学”的相对较新的技术的组成部分,该技术通过个人的生物学特征识别身份。
Finger imaging is part of a relatively new technology called "biometrics", which identifies people by using their individual biological traits.
将微波成像应用于生物医学领域中具有许多潜在应用优势。
There are many potential advantages in the biomedical applications of microwave imaging.
新近诞生的利用抗体的方法可应用于体外成像并给生物医学领域研究者带来了便利。
A new line of antibody conjugates for in vitro imaging applications is now available for biomedical researchers.
对生物组织进行了超谐波成像,并与基波、二次谐波图像对比。
Superharmonic imaging is made for biological tissues and compared with the results from fundamental and second harmonic imaging.
本文优化设计了磁声电相互耦合生物组织电特性成像的实验装置。
In the dissertation, a new experimental system is optimized to image bio tissue coupling of magnetic, acoustic and electric fields.
进而建立表面等离激元共振生物传感成像。
Furthermore, imaging surface plasmon resonance for biosensors analysis is established.
通过大量生物体dNA分子成像,光学标测可以相对廉价的绘制该生物体的基因组图。
By imaging large Numbers of an organism's DNA molecules, optical mapping can produce a map of its genome at a relatively low cost.
通过大量生物体dNA分子成像,光学标测可以相对廉价的绘制该生物体的基因组图。
By imaging large Numbers of an organism's DNA molecules, optical mapping can produce a map of its genome at a relatively low cost.
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