PLEASANTON, CA--(Marketwired - Jul 29, 2015) - The first laboratory-based diffraction contrast tomography (DCT) system for 3D grain imaging was launched today by Carl Zeiss X-ray Microscopy, a pioneer ...

Fluorescence microscopy techniques are powerful tools for probing very small signals and revealing three-dimensional (3D) structural and functional properties of biological samples with high ...

For pharmaceuticals, knowing the chemical composition is not enough - molecular geometry and crystal structure also play an important role in a drug's activity. By using a method based on electron ...

(Nanowerk News) Metal-Organic Frameworks (MOFs) are porous crystalline materials whose structure resembles a scaffold of beams around a large empty space; this internal space can be used to store ...

What do you do if you want to look inside a biological cell, hoping to see objects that are well beyond the diffraction limit of a microscope – roughly 200nm? One solution is to use the ...

Could you start by explaining your background in crystallography and how you began using the Rigaku Synergy-ED system? Fraser: I began my journey into crystallography at the University of Edinburgh in ...

The first laboratory-based diffraction contrast tomography (DCT) system for 3D grain imaging was launched by Carl Zeiss X-ray Microscopy, a pioneer in bringing synchrotron imaging capabilities to the ...

The first laboratory-based diffraction contrast tomography (DCT) system for 3D grain imaging was launched by Carl Zeiss X-ray Microscopy, a pioneer in bringing synchrotron imaging capabilities to the ...