Priyadarshini, et al.
           53.  Zheng L, Cai  G,  Wang S, et  al.,  2019,  A  Microfluidic   3D Printed Microfluidic Devices with Integrated Contactless
               Colorimetric Biosensor for Rapid Detection of Escherichia   Conductivity Detection. Anal Chim Acta, 1071:36–43.
               coli O157:  H7 Using Gold Nanoparticle  Aggregation  and   60.  Zhu Y, Huang X, Xie X, et al., 2018, Propidium Monoazide
               Smart Phone Imaging. Biosens Bioelectron, 124:143–9.  Pretreatment  on  a  3D-Printed  Microfluidic  Device  for
           54.  Lee W, Kwon D, Chung B, et al., 2014, Ultrarapid Detection   Efficient PCR Determination of “Live Versus Dead’microbial
               of Pathogenic Bacteria Using a 3D Immunomagnetic Flow   Cells. Environ Sci, 4:956–63.
               Assay. Anal Chem, 86:6683–8.                    61.  Wilson L, Iqbal  K M, Simmons-Ehrhardt  T, et  al., 2019,
           55.  Park C, Lee J, Kim Y, et al., 2017, 3D-printed Microfluidic   Customizable 3D Printed Diffusion Chambers for Studies of
               Magnetic Preconcentrator  for the Detection  of Bacterial   Bacterial Pathogen Phenotypes in Complex Environments. J
               Pathogen Using an  ATP Luminometer  and  Antibody-  Microbiol Methods, 162:8–15.
               conjugated  Magnetic  Nanoparticles.  J Microbiol  Methods,   62.  Achinas S, Euverink GJ, 2019, Development of an  Anaerobic
               132:128–33.
           56.  Chen J,  Zhou  Y,  Wang D,  et al.,  2015, UV-nanoimprint   Digestion Screening System Using 3D-Printed Mini-Bioreactors. In:
                                                                   New Advances on Fermentation Processes. IntechOpen, London.
               Lithography as a Tool to Develop Flexible Microfluidic Devices
               for Electrochemical Detection. Lab Chip, 15:3086–94.  63.  Elliott  O, Gray S, McClay  M, et  al., 2017, Design and
           57.  Cox CA,  2016,  A Multi-Channel 3D-Printed Bioreactor   Manufacturing of High Surface  Area 3D-Printed Media
               for Evaluation of Growth and Production in the microalga   for  Moving  Bed  Bioreactors  for  Wastewater  Treatment.  J
               Dunaliella sp.  Available  from: https://digitalcommons.  Contemp Water Res Educ, 160:144–56.
               library.umaine.edu/etd/2560.                    64.  Koch AL, 2009, Microbial Growth Measurement, Methods.
           58.  Lee S, Thio SK, Park SY, et al., 2019, An Automated 3D-printed   Encyclopedia  of Industrial Biotechnology:  Bioprocess,
               Smartphone  Platform  Integrated  with  Optoelectrowetting   Bioseparation, and  Cell Technology. Willy,  Hoboken,  New
               (OEW) Microfluidic Chip for on-site Monitoring of Viable   Jersey, pp. 1–11.
               Algae in Water. Harmful Algae, 88:101638.       65.  Okoh AI, Odjadjare EE, Igbinosa EO, et al., 2007, Wastewater
           59.  Duarte LC, Figueredo F, Ribeiro LE, et al., 2019, Label-free   Treatment  Plants as a Source of Microbial Pathogens in
               Counting of Escherichia coli Cells in Nanoliter Droplets Using   Receiving Watersheds. Afr J Biotechnol, 6:2932–44.








































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