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=== Company Description === | === Company Description === | ||
- | LEAP Technologies, Inc. was founded in 1989 as an autosampler | + | LEAP Technologies, Inc. was founded in 1989 as an autosampler[http://leapwiki.com/mediawiki/index.php?title=Category:PAL] |
company serving the GC and GC–MS markets. Since then, LEAP | company serving the GC and GC–MS markets. Since then, LEAP | ||
has expanded into front-end sample handling for all areas of | has expanded into front-end sample handling for all areas of | ||
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well as robotics for proteomics and fiber optic UV technology for | well as robotics for proteomics and fiber optic UV technology for | ||
tablet dissolution. LEAP strives to find total solutions for analytical | tablet dissolution. LEAP strives to find total solutions for analytical | ||
- | lab automation. | + | lab automation. One of the major components in LEAPS approach to automation solutions is with the PAL[http://leapwiki.com/mediawiki/index.php?title=Category:PAL] X,Y,Z robot. |
=== Overview === | === Overview === |
Revision as of 02:29, 1 May 2009
Welcome to the LEAP Technologies wiki, a digital brochure of LEAP applications.
Contents |
Company Description
LEAP Technologies, Inc. was founded in 1989 as an autosampler[1] company serving the GC and GC–MS markets. Since then, LEAP has expanded into front-end sample handling for all areas of chromatography and mass spectroscopy, including MALDI-MS as well as robotics for proteomics and fiber optic UV technology for tablet dissolution. LEAP strives to find total solutions for analytical lab automation. One of the major components in LEAPS approach to automation solutions is with the PAL[2] X,Y,Z robot.
Overview
LEAP is experienced in providing automation solutions for any process that gathers, treats and delivers samples to an analytical process. Liquid Handling is in most cases involved but we are not limited to that. We can also move, weigh and image objects. Liquid handling includes spraying and printing besides the usual measuring, pipetting, injecting, mixing, heating or sampling of a variety of liquids. We have the ability to design, engineer, deliver and support simple but unique or complex but simple to use systems. The LEAP Shell 3[3] software lets us create solution-specific sample lists and Shell 3 methods that synchronize all instruments involved. We can provide complete locked-down systems to Value Added Resellers (VARs). Combinations of instruments that we can supply are robotic sampling devices and LC pumps as front-end to LC-MS systems. Single and dual channel LC to one MS that save cycle time and therefore increase throughput are becoming standard Frontend Automation Bundles (FABs).
Chief Chromatographic Techniques Supported:
- LC-Fraction Collection for purification (semi-prep)
- LC–MS Sample Handlers providing sample just before injection
- GC and GC–MS Sample Prep such as headspace, SPME, and 96-well SPE with different injection techniques
- LC pumps for 50nl-2ml flow rates applicable to standard, micro and capillary columns
- 2D LC systems with sample handlers (PALs) for nano spray, nano fractionation to MALDI and other fraction collection schemes
Markets Served:
- Pharma / Biotech
- Polymer / Chemical
- Proteomics
- Forensic
- Food and Beverage
- Fragrance
- Environmental
Application Solutions
LEAP strives to find solutions for all industries using analytical processes for small and large molecules in extracted liquids, solids, and in human, animal and plant tissues. We provide the precise robotics and efficient sample prep required by modern measurement techniques such as mass spectroscopy.
LEAP Integrated Components
PAL Accessories and Options - a concept you can grow with
Examples of Special Solutions
Examples of some customized applications we have provided. We call them "LEAP Specials". They are custom made to suit your exact needs. Let us show you how automation can make your life in the laboratory easier, more efficient, and more rewarding.
For more details, contact the LEAP office and provide the project code.
Glossary
Contact LEAP
For additional information about this technique please contact LEAP Technologies for detailed information