Published date: 21 September 2017

Closed opportunity - This means that the contract is currently closed. The buying department may be considering suppliers that have already applied, or no suitable offers were made.


Closing: 6 October 2017

Contract summary

Industry

  • Magnetic resonance unit - 33111610

  • Magnetic resonance imaging equipment - 33113000

  • Magnetic resonance scanners - 33113100

    • Nuclear magnetic resonance scanners - 33113110

Location of contract

HD1 3DH

Value of contract

£0

Procurement reference

HUD-AS-010

Published date

21 September 2017

Closing date

6 October 2017

Contract start date

13 October 2017

Contract end date

31 January 2018

Contract type

Supply contract

Procedure type

Open procedure (below threshold)

Any interested supplier may submit a tender in response to an opportunity notice.

This procedure can be used for procurements below the relevant contract value threshold.

Contract is suitable for SMEs?

No

Contract is suitable for VCSEs?

No

Description

The University of Huddersfield seeks to purchase a Benchtop NMR system for optically generated hyperpolarization studies.

A benchtop nuclear magnetic resonance (NMR) system is required for research into a new method of signal enhancement in NMR spectroscopy, which is dependent upon optical illumination of the liquid sample prior to measurement. The research project will include an investigation of the effects of illumination at different magnetic field strengths prior to transfer to the detection field.

The key requirement of the system is therefore that optical access must be possible to illuminate the sample at a variable height within the magnet bore where the static magnetic field is ≥ 350 mT, and that rapid flow from the illumination region to the NMR detection coil is possible (transfer time to be short compared to T1, maximum transfer time 0.5 s). Minimum permissible clearance around sample tubing in magnet bore for insertion of fibre optics is 6 mm radially.

NMR spectrometer specifications:

1H and 13C detection at a magnetic field of around 1 T (approx. 43 MHz and 11 MHz NMR frequencies)

High 1H sensitivity (at least 50:1 in single scan on 1% ethyl benzene or similar)
Linewidth < 0.5 Hz at 50% and < 20Hz at 0.55%

Field stability better than 0.01 ppm

Deuterium free lock for experiments on non-deuterated solvents

Ability to shim on user sample in addition to any manufacturer specified standard sample

Demonstration that shimming is stable during laser illumination (min. 1 W at 532 nm) for up to 10 s within magnet bore

Desirable: Magnet temperature readout to indicate if laser illumination has caused magnet heating

Ability to write user-defined pulse programmes or scripts triggering a minimum of two separate TTL outputs for synchronisation with laser equipment at a defined time relative to NMR acquisition. Low jitter level for TTL outputs required, 0.1 s max.

Available pulse sequences to include standard 1D and 2D experiments for each nucleus, reaction monitoring, relaxation measurements (T1 and T2), and 13C detection with 1H decoupling.

Flow system:
Pump and all connecting tubing supplied for continuous or intermittent flow of sample solutions through spectrometer

Spectrometer stand to be supplied to allow easy access for insertion of optical components into a vertical magnet bore from below

Flow system made from optically transparent (T > 90% 400-700 nm) material (e.g. glass or quartz) in the accessible illumination region (≥ 350 mT) within the magnet bore

Computer control of sample flow for synchronisation with user-defined NMR pulse programmes or reaction monitoring scripts

System requirements:

Cryogen-free system

No external cooling water needed

Computing:

Spectrometer to be supplied with control computer and all standard peripherals (monitor, keyboard, mouse); minimum hard ...

More information

Links

Additional text

Please apply for this tender through our In Tend platform which is available through the below link

https://in-tendhost.co.uk/universityofhuddersfield/aspx/Home

Is a Recurrent Procurement Type? : No

About the buyer

Contact name

Joe Byrne

Address

University of Huddersfield
Queensgate
Huddersfield
HD1 3DH
United Kingdom

Telephone

01484472113

Email

j.j.byrne@hud.ac.uk