The application of scientific camera in life science
Hamamatsu, for most people, is mostly regarded as a company of photoelectric detection products. But in fact, we also have a wealth of products in the field of imaging, including sCMOS cameras, CCD cameras, and TDI cameras under CCD technology.
When it comes to imaging, you may think of some civilian cameras, but what we are going to talk about here is a scientific camera that is quite different from them. In the field of biological research, research-grade cameras have a wide range of applications, such as bio-fluorescence, cell-level and neuro-level research, gene sequencing, and super-resolution imaging, including the current collection of scientific research forces in China, Europe, and the United States. Large-scale research project - the human brain plan.
Gene sequencing, super-resolution imaging, and human brain planning are currently the hottest topics. Gene sequencing, the determination of the genome, the sensation of Angelina Jolie's removal of the breast to prevent breast cancer, the cause is also through the genetic test, knowing that it is more likely to have cancer, and adopted this sensational response. It is also because of this event that genetic sequencing has quickly entered the public's field of vision; super-resolution imaging was derived from 2002 and won the Nobel Prize in Chemistry in 2014. It is widely recognized; it looks quite sci-fi. The "human brain plan" of color is actually a large-scale scientific research project on human brain that has been set up around the world since 2010.
At present, Hamamatsu's cameras have cooperated with well-known domestic research institutes such as the Chinese Academy of Sciences, Peking University, and Huazhong University of Science and Technology, and are fully committed to the development of these three types of applications. In Hamamatsu imaging technology, sCMOS technology and TDI camera technology have the biggest point of view.
sCMOS camera
ORCA-Flash4.0 sCMOS camera
The Hamamatsu sCMOS camera is a high-sensitivity scientific camera that was promoted worldwide in 2010. Before that, the EM-CCD camera, commonly known as the electron multiplier CCD camera, was commonly used. The EM-CCD camera is deep-cooled and has high sensitivity. From the beginning of the last century, gene sequencing, most of which were used in this category. However, with the introduction of sCMOS technology, more and more applications are biased towards the use of sCMOS cameras, including the Nobel Prize-winning super-resolution imaging research in 2014. Today, many researchers in China are engaged in research in this area. Some of the choices are also sCMOS cameras.
TDI camera
TDI camera C10000-801
The TDI camera, which is different from our widely known area array camera, is a line camera that scans fluorescence for imaging. TDI technology was actually used on satellites for remote sensing imaging, but with the development of genetic ranging technology, including the current “human brain plan†project, this technology is increasingly used in the field of life sciences. . TDI cameras also have superior performance in imaging due to their high sensitivity and fast scanning speed.
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