Topic Agilent Technologies

Software Agilent Technologies

50.000 HPLC Columns and UHPLC Columns from one source

With the new HPLC Column Configurator you find the HPLC Column you are looking for. Compare Columns of over 20 manufacturers from Agilent to Waters more

News Agilent Technologies

• Agilent to Acquire Dako for $2.2 Billion

  Agilent Technologies Inc. and EQT, the Sweden-based private equity group,  announced the execution of a definitive agreement for Agilent to acquire Dako, the Denmark-based cancer diagnostic company. The $2.2 billion acquisition (on a debt-free basis) is the largest in Agilent’s history. “In the rapi more

• Agilent Technologies and Universiti Putra Malaysia to Collaborate on Halal Food Research

  Agilent Technologies Inc. and Universiti Putra Malaysia announced a collaboration to strengthen Malaysia’s research capabilities for halal food products, with particular emphasis on food authentication and food safety.“Halal” is an Arabic word meaning lawful or allowable. Any product deemed halal is more

• Agilent Technologies and FDA Collaborate to Improve Testing for Salmonella

  Agilent Technologies Inc. announced that it has entered into a Cooperative Research and Development Agreement with the U.S. Food and Drug Administration to develop new tools to detect and analyze pathogens in food. The joint R&D effort will also seek to improve DNA-based tools for confirming that se more

White papers Agilent Technologies

• Real-Time PCR Quality Control for Gene Expression
  

  Quantitative real-time PCR (qPCR) has become the de facto standard for nucleic acid quantification. This achievement is due in large part to its sensitivity, specificity, accuracy, large dynamic range of linear quantification, and its speed. The qPCR technology has matured to a ready-to-use commonly available method in most molecular biology laboratories. Nevertheless, the reliability of the final quantification result depends heavily on all elements in the workflow, such as the quality of the input template (integrity and absence of inhibitors), the PCR assay (specificity, efficiency, limit of detection), and normalization strategy (validated reference genes). more

• Half a Century of Chromatography with Agilent and Predecessors
  

  Twsett originated the chromatography with his work about the separation of chlorophyll in 1903. For some time it was relatively quite around this new technology. Exceptions were the workings of Kuhn and Lederer (1931) as well as of Hesse (1936 and 1942). A break through succeeded to E. Cremer during the 40ies, but hardly considered caused by the war events, what however in the years 1950/51 by the conception of the gas chromatography suddenly changed and involved a rapid development more