Fabrication of polymer monoliths within the confines of non-transparent 3D-printed polymer housings.

@article{Abdulhussain2020FabricationOP,
  title={Fabrication of polymer monoliths within the confines of non-transparent 3D-printed polymer housings.},
  author={N. Abdulhussain and Suhas Nawada and S. Currivan and Marta Passamonti and P. Schoenmakers},
  journal={Journal of chromatography. A},
  year={2020},
  volume={1623},
  pages={
          461159
        }
}
  • N. Abdulhussain, Suhas Nawada, +2 authors P. Schoenmakers
  • Published 2020
  • Chemistry, Medicine
  • Journal of chromatography. A
  • In the last decade, 3D-printing has emerged as a promising enabling technology in the field of analytical chemistry. Fused-deposition modelling (FDM) is a popular, low-cost and widely accessible technique. In this study, RPLC separations are achieved by in-situ fabrication of porous polymer monoliths, directly within the 3D-printed channels. Thermal polymerization was employed for the fabrication of monolithic columns in optically non-transparent column housings, 3D-printed using two different… CONTINUE READING

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