Corning Launches New LSE™ Line
3 May 2010Corning Incorporated introduces a new LSE™ line that includes liquid-handling, shaker, centrifugation, and constant-temperature equipment. The LSE line is a natural extension to the broad array of Corning and Axygen consumable laboratory products that exists today. It also provides global customers with a full range of synergistic equipment and consumable-product options to help maximize their research efforts.
“The new LSE line is the first new product line to be developed and launched following our strategic acquisition of Axygen,” said Robb D’Amore, business director, Corning Life Sciences. “This launch supports our commitment to supply customers with a comprehensive and innovative line of laboratory research products.”
Corning’s LSE line will consist of the following product categories:
• Liquid Handling: Variable volume pipettors and pipette controllers, complementing Corning’s full line of pipette tips.
• Centrifugation: Mini centrifuge and high-speed microcentrifuge products, complementing Corning’s existing centrifuge tube products.
• Shakers: Vortex mixers, low-speed shakers, orbital shakers, and microplate shakers, complementing Corning centrifuge tubes, glass and plastic Erlenmeyer flasks, and cell-culture sample containers.
• Constant Temperature: Digital dry baths, complementing Corning microtubes, centrifuge tubes, and 0.2 mL to 50 mL sample tubes.
All LSE equipment options will be commercially available in North America beginning in May 2010, and available globally later this year. The line options will have input voltages of 115V and 230V and will feature plug types for the U.S., European, and UK markets. They will also include the required Conformité Européenne (CE) and Waste Electrical and Electronic Equipment (WEEE) marks.
Corning Life Sciences brings new and innovative laboratory technologies to researchers worldwide and helps customers succeed by providing innovative, high-quality products and services in the areas of polymer science, biochemistry and molecular biology, glass melting and forming, surface modification, and characterization science.