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  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-047.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-077.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-064.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-057.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-028.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-027.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-026.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-011.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-067.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-060.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-025.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-013.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-005.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-010.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-008.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    NMR_2007-078.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5487.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5446.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5515.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5459.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5416.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5518.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5507.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5499.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5494.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5489.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5485.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5468.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5454.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5450.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5444.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5437.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5418.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5417.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5402.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5501.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5477.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5475.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5472.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5465.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5451.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5430.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5424.tif
  • Henry Wellcome Building, Bimolecular NMR (Nuclear magnetic resonance) Facility, University of Birmingham is a £10m national resource based in Birmingham, providing scientists with insights into the molecular basis of human health, cancer progression and infectious diseases. The advantages of the NMR method include the ability to obtain information at atomic resolution using aqueous solutions, biological fluids and tissue extracts that resemble physiological conditions. HWB?NMR is the UK's largest NMR facility, providing academic and industrial users with open access to six NMR spectrometers operating at 500-900 MHz, four cryogenic probes and high throughput autosamplers.
    1F1U5409.tif
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