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Biomolecular image analysis creates new perspectives for scientific communities such as chemists, biophysicists, and computer scientists. Data processing changes our understanding about the manner in which biosensing devices function. This information can be used for biological and medical applications alike. A key challenge in the field of nanoscience is to gain an understanding of conjugated polyelectrolyte...
A 'nanocavity' protein biosensor fabricated using the molecular imprinting technique has been developed. We employed microcontact printing to form molecular imprints in a polymer thin-film to act as 'artificial antibodies' for protein recognition. Proteins considered to be important biomarkers in clinical diagnosis were chosen as our templates, namely: Creactive protein, ribonuclease, lysozyme and...
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