250608-58-3Relevant articles and documents
Signal amplifying conjugated polymer-based solid-state DNA sensors
Pun, Ching-Chin,Lee, Kangwon,Kim, Jinsang,Kim, Hyong-Jun
, p. 7461 - 7463 (2006)
The design principle of conjugated polymer-based signal amplifying DNA sensory film was experimentally investigated. A conjugated poly(p- phenyleneethylene) (PPE), which has carboxylic acid side chains for bioconjugation with DNAs and alternative hydropho
CONDUCTING POLYMERS AND USES THEREOF
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Page/Page column 68; 70; 71, (2018/03/28)
The present invention generally relates to the field of conducting polymers. More specifically, the present invention relates to polymerisable monomers comprising a probe capable of binding one or more nucleic acids or comprising a nucleic acid or an analogue thereof, conducting polymers comprising monomer units of such monomers, and methods of making such polymers. The present invention also relates to sensors comprising the polymers, sensor systems comprising the sensors, methods of making the sensors, and methods for determining the presence or absence or amount of targets employing the sensors. The present invention also relates to methods, systems and apparatuses for amplifying nucleic acids employing the conducting polymers.
Side chain and backbone structure-dependent subcellular localization and toxicity of conjugated polymer nanoparticles
Mendez, Eladio,Moon, Joong Ho
, p. 6048 - 6050 (2013/07/27)
The subcellular localization and toxicity of conjugated polymer nanoparticles (CPNs) are dependent on the chemical structure of the side chains and backbone. Primary amine-containing CPNs exhibit high Golgi localization with no toxicity. Incorporation of
