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ActiveCount100 Portable Microbial Sampler

ActiveCount100 Portable Microbial Sampler

ActiveCount100 is a high performance portable microbial sampler suitable for use in cleanrooms and aseptic environments. Continuous and periodic sampling enables complete control on sampling cycles and intervals.

Autoclavable impactor head and sanitizable stainless steel enclosure ensure ActiveCount100 does not contaminate your sampling environment. Use the optional gas sampler attachment to monitor compressed gasses.

 

Find more information about the ActiveCount100 Portable Microbial Sampler here.

ActiveCount100H Microbial Sampler with Hepa Filtered Exhaust

ActiveCount100H is a high performance portable active air sampler suitable for use in cleanrooms and asceptic environments. The ActiveCount100H is truly ISO 14698 compliant with a d50 collection efficiency of 1 micron and HEPA filtered exhaust ports designed to avoid re-aspiration of sampled air.

ActiveCount100H offers self-adjusting flow control to ensure accurate sampling as well as continuous & periodic sampling modes for optimum sampling flexibility. The autoclavable impactor head, dust cover and adjustable baseplate together with a sanatizable stainless steel enclosure and HEPA filtered exhaust; ensure ActiveCount100H will not contaminate your critical environments.

The optional remote sample head minimizes disturbance of unidirectional airflow within a BSC or laminar flow bench and the gas sample option provides the versatility needed to accomplish all your critical sampling requirements.

 

Find more information about the ActiveCount100H Microbial Sampler here.

Polyethylene Glycol

BP21, BP20, SolGel-WAX™

(PEG) ‘wax’ type phases where the main separation mechanisms are hydrogen bonding or dipole interactions.

The wax phases are often considered as ideal for mixtures of chemically different components such as those contained in essential oils.

Cyanopropyl Polysilphenylene Siloxane

BPX70, BPX90

High cyanopropyl substituted phases, are more difficult to make as efficient, thermally stable phases.

BPX70 is equivalent to and behaves like a 70% cyanopropyl siloxane but with siphenyl end substituted backbone for stability which was introduced in 1987 and remained the most polar thermally stable phase for a long time.

BPX90 which is equivalent to a 90% cyanopropyl siloxane and stable to 300 °C which is excellent for such a polar phase. The prominent interaction for BPX90 is π – π bonding with the cyano group; the cyano groups become almost entirely responsible for the partitioning.

Cyanopropylphenyl Siloxane

BP225, BP10, BP624, BPX-Volatiles

‘Polar’ phases with <50% cyanopropyl substituted dimethylpolysiloxane.

Polycarborane Siloxane

HT5, HT8

The carborane phases were originally developed as very high thermal stability phases for high temperature work to 460 °C. The functionality of the carboranes is diffi cult to explain – they end up with pentavalent bonds with shared sigma bonds rather than π – bonds. The bonds are transient like a benzene with a ball of shared electrons.

HT5 and HT8 are low π – bonding purely due to the low concentration of carborane in the polymer, otherwise it would be high.

Phenyl Polysilphenylene Siloxane (Silphenylene substituted Polydimethylsiloxane)

BPX5, BPX35, BPX608, BPX50

Silphenylene phases have become fairly common now with many manufacturers offering at least some phases of this type, SGE has a full range.

Phases with the “X” notation have a silphenylene backbone (exception is the BPX1). Phenyl substituted polymers are relatively non-polar and rely for their different functionality on π – bonding with the aromatic phenyl groups.

SGE was the first GC capillary column manufacturer to introduce this type of phase commercially in the 1980s with the intention of improving the thermal stability to give higher maximum temperatures and reduced bleed.

Polysiloxane

BP1, BP1 PONA, BPX1, SolGel-1ms

Polydimethylsiloxane (PDMS) “non-polar” type phases which rely on Van der Waals interactions between molecules and separate primarily based on “boiling point” type separation.

Useful chromatographic space is usually considered in terms of modifications to non-polar retention. This is understandable because the GC is useful for volatile compounds and that usually means organics. Organics that can be vaporized are generally high in non-polar (alkane or hydrocarbon) character. It is this part of their surface that allows them to be soluble in a non-polar phase. It is also this characteristic that makes the BP1 (dimethylsiloxane) a universal phase.

Industrial

We have been supplying the industrial sector with premium quality reference materials and proficiency testing schemes for more than 35 years.

Forensic and Toxicology

Whichever drug or metabolite you are analysing, we can provide the reference materials for all your clinical, forensic and sports testing needs.
We have solutions, powders and matrix materials, with analytes and at concentrations appropriate for you and your laboratory workflow. To help you source just the reference material you need, we bring together a unique and comprehensive range of standards for prescription drugs, drugs of abuse, new psychoactive substances (NPS), steroids/sports drugs, antibiotics, stable isotope labelled drugs, drug metabolites, alcohol standards, derivatizing reagents and phytochemicals.

Environmental

As a leading global provider of reference materials, we aim to support your environmental analytical testing to help ensure your results are reliable and fit for purpose. Our ever-evolving portfolio continues to expand and adapt to changing requirements and technology, with a portfolio of products devoted to crucial global regulations, alongside leading ranges of pesticide, aqueous inorganic and stable isotope labelled reference materials.