New Journal - Molecular Imprinting (opens in new window)

mips logo Go to mipdatabase.com Search this site:
Custom(Search)
Reference type: Journal
Authors: Lieberzeit PA, Afzal A, Podlipna D, Krassnig S, Blumenstock H, Dickert FL
Article Title: Printing materials in micro- and nano-scale: Systems for process control.
Publication date: 2007
Journal: Sensors and Actuators B: Chemical
Volume: 126
Issue: (1)
Page numbers: 153-158.
DOI: 10.1016/j.snb.2006.11.019
Alternative URL: http://www.sciencedirect.com/science/article/B6THH-4MKTXSM-1/2/5d9b723e8b5453d828b03882fd0dc3fd

Abstract: Imprinting polymers is an outstandingly versatile and straightforward way for generating sensor materials. Combined with mass-sensitive devices they are e.g. also highly suitable for process control. We e.g. monitored the amount of methyl iodide above a reaction mixture of this compound and triethylamine. At the titration end point, the heatable QCM device indeed shows a significant frequency response to the reactant. When monitoring oxidative degradation processes in engine lubricants, applying MIP titanate nanoparticles leads to an increase in sensitivity by a factor of 2 compared to deposited thin films of the same material. With surface-imprinted polyurethanes, we succeeded in directly measuring insulin in aqueous solution over three orders of magnitude in concentration. Furthermore, fermenting yeast cells can directly be measured. To increase the reproducibility of the sensor signal, an artificial polymer stamp for preparing the MIPs is presented
Author keywords: mass-sensitive sensors, molecular imprinting, Nano-technology, Process control

Featured products

 

MIP motivation T-shirt

 

MIP motivation mug

 

Lab chick periodic table name shirt