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Handheld Near-Infrared Spectroscopy Used As An Authentication Technology For Pharmaceuticals
6/7/2010
Near infrared diffuse reflectance is a rapid, non-invasive method of investigating pharmaceutical raw materials and finished forms. By F. G. Haibach
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Detecting Counterfeit Pharmaceutical Using Handheld Neat-Infrared Spectroscopy
6/7/2010
Pharmaceutical counterfeiting is a critical issue accounting for 10 % of the world market by revenue. The impact of pharmaceutical counterfeiting can be counted in monetary loss, delayed healing, and increased morbidity and mortality. By S. Assi, R. Watt and A. Moffat, The School of Pharmacy, University of London
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Applications Note: Detecting Counterfeit Pharmaceutical Using Handheld Neat-Infrared Spectroscopy
6/7/2010
Pharmaceutical counterfeiting is a critical issue accounting for 10 % of the world market by revenue. The impact of pharmaceutical counterfeiting can be counted in monetary loss, delayed healing, and increased morbidity and mortality. By S. Assi, R. Watt and A. Moffat, The School of Pharmacy, University of London
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Estimating Return On Investment With Portable Raw Material Identification
6/7/2010
Identification of raw materials is commonly performed in many industries to ensure that the raw material feed stocks that are being put into the manufacturing process are of the correct type and quality. The pharmaceutical industry goes to great measures to control all aspects of quality, including the rigorous testing of raw materials. Pharmaceutical manufacturers are required to perform identification tests on an on-going basis to ensure product quality and safety. By Dan Klevisha, Polychromix
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Application Note: Estimating Return On Investment With Portable Raw Material Identification
6/7/2010
Identification of raw materials is commonly performed in many industries to ensure that the raw material feed stocks that are being put into the manufacturing process are of the correct type and quality. Over the last few years there have been multiple, well documented problems with substandard and adulterated raw materials which have entered both the non-pharmaceutical and pharmaceutical manufacturing sectors. By Dan Klevisha, Polychromix
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Application Note: Rapid, Quantitative Analysis Of Phthalates In PVC Plastics
6/7/2010
PVC is one of the most common plastics in use, in part because of the versatility provided by additives. Children’s toys are now required to contain less than 0.1% phthalate esters because of concerns about reproductive toxicity. Phthalate-containing PVC remains one of the most common forms of plastic in children’s toys. By F. G. Haibach and S. K. Schreyer, Thermo Fisher Scientific
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Rapid, Quantitative Analysis Of Phthalates In PVC Plastics
6/7/2010
PVC is one of the most common plastics in use, in part because of the versatility provided by additives. Children’s toys are now required to contain less than 0.1% phthalate esters because of concerns about reproductive toxicity. By By F. G. Haibach and S. K. Schreyer
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White Paper: Perspectives On Microsensor Systems: Past, Present, And Future
6/7/2010
The word Microsensor is typically used to mean a sensing device that is fabricated using microelectronic technology, either based on silicon integrated circuit technology, thin-film electroforming technology, or thick-film hybrid-circuit technology. By Stephen D. Senturia Professor of Electrical Engineeering, Emeritus, Massachusetts Institute of Technology Chairman and Chief Technology Officer, Polychromix, Inc.
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Perspectives On Microsensor Systems: Past, Present, And Future
6/7/2010
The word Microsensor is typically used to mean a sensing device that is fabricated using microelectronic technology, either based on silicon integrated circuit technology, thin-film electroforming technology, or thick-film hybrid-circuit technology. By Stephen D. Senturia Professor of Electrical Engineeering, Emeritus, Massachusetts Institute of Technology Chairman and Chief Technology Officer, Polychromix, Inc.
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MEMS-Enabled Products: A Growing Market Segment
6/7/2010
Microelectromechanical Systems, now known affectionately by the MEMS acronym, have been showing up in all kinds of places: air-bag deployment, automobile suspensions, mountain-bike altimeters, cell phones, video cameras, even computer games. By Stephen D. Senturia Professor of Electrical Engineering, Emeritus, MIT, Cambridge, MA Chairman and CTO, Polychromix, Inc., Wilmington, MA
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