New Dual Wavelength X-ray Diffractometer from Oxford Diffraction, now a part of Varian, Inc., Allows Increased Throughput for Challenging Single Crystal Analyses
03 September 2010
Agilent Technologies Ships Milestone 300th, 301st X-Ray Crystallography Systems

SANTA CLARA, Calif., September 1, 2010 – Agilent Technologies, Inc. (NYSE: A) today announced that it has shipped the 300th and 301st X-ray crystallography systems manufactured by Oxford Diffraction Limited, part of Varian, Inc. which was acquired by Agilent in May, 2010.

> MORE INFO
17 May 2010
Agilent Technologies Completes Acquisition of Varian, Inc
Agilent Technologies Inc. (NYSE: A) today announced that its acquisition of scientific-equipment maker Varian, Inc. is now final... > MORE INFO
18 December 2009
Oxford Diffraction holds second annual EU User Meeting

Oxford Diffraction recently held its annual EU user meeting at its UK headquarters in Yarnton, Oxford...

 

> MORE INFO
08 December 2008
Oxford Diffraction hold Europe Region Small Molecule User Meeting

To coincide with the opening of our new UK demonstration facilities and the recent launch of the SuperNova product, Oxford Diffraction will be hosting a Europe region user meeting during the 8th and 9th December.

> MORE INFO
18 November 2008
Oxford Diffraction builds on User Community with launch of User Forum

Oxford Diffraction have designed a web based user forum to provide their global users with a resource for the exchange of ideas and tips relating to their X-ray diffraction systems, and to encourage scientific collaborations and crystallographic discussion.

> MORE INFO
24 August 2008
New Dual Wavelength X-ray Diffractometer from Oxford Diffraction, now a part of Varian, Inc., Allows Increased Throughput for Challenging Single Crystal Analyses

Oxford, UK - Oxford Diffraction, Now a part of Varian, Inc. (NasdaqGS: VARI) introduced its new dual wavelength X-ray diffractometer for the analysis of small molecules and proteins. The SuperNova is the first dual wavelength diffraction system to use entirely high intensity micro-source X-ray technology. It includes innovations in both X-ray technology and data analysis, enabling faster results even for the most challenging crystals.

> MORE INFO
30 March 2007
King's College London to invest in state-of-the-art equipment for structural biology

The Randall Division of Cell and Molecular Biophysics at King's College London have confirmed their investment in an Oxford Diffraction PX Scanner and an Xcalibur Nova system.

> MORE INFO
11 July 2007
'LIVE' PX SCANNER DEMO AT ACA BOOTH 203

Oxford Diffraction continues to innovate and push the boundaries in everything we do. This time we're running a 'Live' demo of our in situ X-ray diffraction product PX Scanner. From the 21st July until the 25th, we'll have a 'working' PX Scanner on our exhibition booth no. 203 at the American Crystallographic Association (ACA) annual meeting in Salt Lake City, Utah.

> MORE INFO
23 August 2007
Ultimate quality X-ray data from ATLAS - the fastest commercially available CCD detector

The all new Atlas CCD detector from Oxford Diffraction is the ideal detector for high speed, high resolution data collections on small molecules. As the fastest commercially available CCD detector the Atlas is up to 3.5 times faster than other CCD detectors.

> MORE INFO
09 November 2007
Max Plank Institute celebrate opening of a state-of-the-art Protein Structural Biology Laboratory.

Guests from the Martinsried Max Planck Institutes mingled with structural biologists from the nearby research centres in both Munich (Gene Center, Technical University and GSF) and T-bingen, as well as with representatives of local companies from the Martinsried Biotech campus.

> MORE INFO
07 April 2008
Varian, Inc. Acquires Oxford Diffraction, Ltd.

Palo Alto, CA - Varian, Inc. (NasdaqGS: VARI) announced today that it has acquired Oxford Diffraction, Ltd., a privately owned company based in Abingdon, U.K. Oxford Diffraction is a leader in x-ray crystallography, an analytical technique used by scientists in pharmaceutical research and other research laboratories to determine the structure of both small molecules and large molecules such as proteins.

> MORE INFO
30 March 2009
$21.5 billion Extra for US Science through American Recovery and Re-investment Act (ARRA) 2009

Following the announcement of the $787 billion funding package by President Obama, these key facts relate to the allocation for scientific research...

> MORE INFO
 

New Dual Wavelength X-ray Diffractometer from Oxford Diffraction, now a part of Varian, Inc., Allows Increased Throughput for Challenging Single Crystal Analyses

24 August 2008

Oxford, UK - Oxford Diffraction, Now a part of Varian, Inc. (NasdaqGS: VARI) introduced its new dual wavelength X-ray diffractometer for the analysis of small molecules and proteins. The SuperNova is the first dual wavelength diffraction system to use entirely high intensity micro-source X-ray technology. It includes innovations in both X-ray technology and data analysis, enabling faster results even for the most challenging crystals.

Single crystal X-ray diffraction is used to determine the structure of small molecules and proteins at high resolution. Applications include chemistry, geology, physics, structural biology and pharmaceutical research. The trend in crystallography is towards the ability to analyze smaller, poorer crystal samples and to increase the speed of sample throughput. The significant improvement in the intensity of X-ray radiation placed on the sample from the dual Nova and Mova X-ray micro-sources makes both higher resolution and higher throughput possible.

The system is ideal for the study of challenging samples in small molecule and protein crystallography. It includes co-mounted, dual wavelength and high intensity X-ray micro-sources of both molybdenum and copper wavelength. It is the first dual wavelength system incorporating purely high intensity Mo and Cu micro-source X-ray technology.

The system improves throughput in several ways. The high intensity X-ray radiation allows for shorter X-ray exposure, as does the high sensitivity, large area Atlas CCD (charge-coupled device). In addition, the duty cycle (the dead time required for the CCD detector to transfer data to the computer), has been substantially reduced. As important, the AutoChem software automates crystal structure solution, refinement and report generation. Data analysis is concurrent with data collection, significantly reducing the time spent by the user to solve and refine the crystal structure.

"The SuperNova allows for high-throughput, information-rich, X-ray analysis of proteins and small molecules," said Martin O'Donoghue, Senior Vice President, Scientific Instruments, Varian, Inc. "This solution complements our NMR products, strengthening our strategy of giving our customers ease of use while gathering extremely detailed structural information on large numbers of samples."