Consumable Labware
Original Laboratory Bottle, amber DURAN®
DURAN® Original GL laboratory bottles have become the gold standard of multifunctional laboratory bottles since their introduction in 1972. The bottles are moulded from high-purity, amber, USP/EP Type I DURAN® borosilicate glass 3.3, renowned for its excellent thermal performance, and high resistance to chemical attack. A combination of high-performance materials and robust ISO 4796-1 design provides a long working life. The addition of a fused, external amber layer ensures that light sensitive contents are protected from the effects of photodegradation. The protection against ultra-violet light meets international USP/EP standards and lasts the lifetime of the bottle. The amber bottles feature an easy-to-read graduated volume scale, and marking field in permanent white enamel. Permanent Retrace Code on each bottle for manufacturing lot traceability. DURAN® Original amber bottles are supplied with or without iconic blue polypropylene cap and drip-free pouring ring for use up to 140 °C. All components are fully autoclavable at 121 or 134 °C.
Repligen XCell® ATF Devices and Controllers
XCell® ATF Systems simplify and fast-track upstream intensification by providing an integrated solution consisting of an XCell® ATF Device, XCell® ATF Controller, software, tubing, pressure sensors and accessories. The family of Systems supports diverse applications across development from 1L to 5000 L.
Watch Glass Dish, made from soda-lime glass
Watch Glass Dish, made from soda-lime glass
The multitude of different work steps in the laboratory environment demands a multitude of universally applicable glassware. These glass devices usually have a very simple shape and are characterized by their versatility. Watch glasses, for example, are concave curved. The small trough created in this way allows liquids or solids to be filled in.
WHEATON® CELLine™ Flask
WHEATON CELLine™ flasks are designed to enhance small scale bio-production for antibody and protein generation. Conventional in vivo or in vitro cell culture methods can be laborious, may have low cell density and require significant purification. CELLine flasks address these three areas of limitation observed in traditional cell culture flasks.
