Thursday, 23 August 2007
A new IRMS costs money to run. First the correct environment needs to be put in place which means a good clean power supply, temperature control (usually air conditioning), plenty of space to allow all round access to the equipment and high purity helium, oxygen and probably reference gases on tap. High quality consumables (quartz glassware, various chemical packings, combustion boats/cups) have to bought from specialist suppliers and are used in the analysis of each and every sample and reference material. While some reference materials can be bought in, it is necessary to set up at some cost a wide range of reliable, traceable working laboratory standards that need to be used on a daily basis. The equipment needs to be serviced which often means taking out an annual service contract with the manufacturer. Finally and probably most importantly there is the cost of the technician to prepare the samples (including any pre-analysis work up) run and maintain the instrument and analyze the data to check that it is both good and true. Despite the best efforts of IRMS manufacturers, the instruments today are still a long way from being (and probably never will be) black box technology so the right operator is of paramount importance.
Getting the best out of the instrument
Mass spectrometers, especially the isotope ratio variety, break down quite a lot. While service contracts are designed to help the user, the response time for an engineer to visit may be quite slow compared to more common scientific instruments. This is quite normal for a 'specialist' instruments because there are only a few 'specialist' engineers to go round. Quite often they have to visit you direct from the factory and therefore the further your lab is away from the factory, the longer the response time will be. In order to minimize instrument down time it is best if you can diagnose and fix the common failures yourself and this also means having access to some testing equipment and a stock of some expensive spare parts. While a single instrument can be fitted with a variety of sample preparation interfaces e.g. elemental analyser, gas handling device, dual-inlet and GC combustion interface, this in itself can lead to instrument down time. Switching from one interface to another often involves some manual work, connections have to be checked for leaks and there is always a 'settling' time while you wait for the new set up to become stable. Even apparently simple procedures of changing the elemental analyser from analysing one isotope to another, can lead to one or more days of downtime and the waste of expensive consumables if there are only a few samples that require a particular isotope measured.
Using an Analytical Service instead
The service we provide removes all of the above worries ensuring that you get your data on time and that the grant money is spent on publishing those results rather than buying an expensive piece of equipment. The key to providing this is our ability to keep the equipment running and having the facility to run different samples for different isotopes on five dedicated IRMS systems. Not to mention that the analysis is done by highly experienced operators and support staff that know how to deal with many different types of sample and how to obtain the best results for each. With the discount we provide for academic research and the potential for sending samples in part-state of readiness (e.g. pre-capsulated), you may be suprised just how far your research grant might stretch.
Wednesday, 22 August 2007
Monday, 20 August 2007
Over recent months we have prepared and calibrated a new set of working laboratory water standards and are making them available for sale to others that have a need for them. The deuterium and oxygen-18 abundances of the standards have been measured against (and are therefore traceable to) the new V-SMOW2 and SLAP2 international reference waters that are distributed by the IAEA. Each standard was subjected to our full calibration procedure which involves analysis of multiple replicates over a number of days.
The set of 5 standards covers a broad range of water isotope abundances making them suitable as working references for both natural and tracer studies. Details of the five standards are and their delta values vs V-SMOW2/SLAP2 in permil notation are (2H value, 18O value):
- IA-R052 (low abundance natural water) -157.12, -19.64
- IA-R053 (mid abundance natural water) -61.97, -10.18
- IA-R054 (zero abundance natural water) +4.93, +0.56
- IA-R055 (mid abundance enriched water) +843.43, +108.59
- IA-R056 (high abundance enriched water) +1701.83, +266.83
Each standard is provided in a 30 mL re-useable robust glass bottle (although we advise removing aliquots to prevent accidental contamination) and is accompanied by a 'report of analysis'. Although we have prepared large quantities of each, customers will be limited to purchasing 5 bottles of each standard. Customers that need to set up large quantities of working laboratory standards may wish to consider using our 'Standards calibration service' as an alternative.