Nanoanalysis is the study of the physical and chemical properties of matter on the nanometer scale. This includes the use of various analytical methods to characterize nanomaterials, as well as the study of their behavior in biological and environmental systems.
What do Oxford Instruments do?
Oxford Instruments designs, manufactures and supplies world-leading technology solutions for industry and research.
The company has three main product areas:
1. Magnetic resonance imaging (MRI)
2. Nanotechnology
3. Nuclear magnetic resonance (NMR)
MRI is a medical imaging technique used to produce detailed images of the human body. Oxford Instruments' MRI products are used by hospitals and clinics around the world.
Nanotechnology is the study of extremely small objects, and is used in a wide range of applications from medical devices to solar energy. Oxford Instruments' nanotechnology products are used by researchers and manufacturers across the globe.
NMR is a scientific technique used to study the structure and properties of molecules. Oxford Instruments' NMR products are used in research laboratories worldwide. Where is Oxford Instruments located? Oxford Instruments is located in the United Kingdom.
Who bought Oxford Instruments?
In September of 2014, Oxford Instruments was acquired by Japanese company Tokyo Electron Limited (TEL) for $1.3 billion. TEL is a leading manufacturer of semiconductor production equipment, and the acquisition of Oxford Instruments allows TEL to expand its portfolio into the nanotechnology space. Oxford Instruments is a world-leader in nanotechnology research and development, and the acquisition by TEL will no doubt accelerate the pace of innovation in this burgeoning field. How many people work for Oxford Instruments? The company Oxford Instruments employs around 3,600 people in 25 countries.
What innovation did Oxford Instruments develop?
In the 1960s, Oxford Instruments developed the first commercial scanning electron microscope (SEM). This microscope uses a focused beam of electrons to scan a sample, which produces a high-resolution image of the surface of the sample.
In the 1970s, Oxford Instruments developed the first commercial atomic force microscope (AFM). This microscope uses a sharp tip to scan a sample, which produces a high-resolution image of the surface of the sample.
In the 1980s, Oxford Instruments developed the first commercial electron beam lithography (EBL) system. This system uses a focused beam of electrons to pattern a sample, which can be used to create nanometer-scale features on the surface of the sample.
In the 1990s, Oxford Instruments developed the first commercial nanofabrication system. This system uses a focused beam of electrons to pattern a sample, which can be used to create nanometer-scale features on the surface of the sample.