Publikasi Scopus 2024 per tanggal 31 Maret 2024 (233 artikel)

Utomo M.S.; Tandri C.; Yahya L.A.; Budi E.; Susilo A.B.; Darsono N.
Utomo, Muhammad S. (56180933900); Tandri, Chintya (57340267000); Yahya, Loviya A. (57989416300); Budi, Esmar (36719932600); Susilo, Anggoro B. (58381374700); Darsono, Nono (23096854500)
56180933900; 57340267000; 57989416300; 36719932600; 58381374700; 23096854500
Ease fabrication of serpentine microchannel as passive microreactor for nanoparticle production by stereolithography
2024
AIP Conference Proceedings
3003
1
020097
0
Research Center for Metallurgy, National Research and Innovation Agency, Banten, 15314, Indonesia; Faculty of Medicine, Universitas Indonesia, Jakarta, 10430, Indonesia; Faculty of Mathematics and Science, State University of Jakarta, Jakarta, 13220, Indonesia; Research Center for Advanced Materials, National Research and Innovation Agency, Banten, 15314, Indonesia
Utomo M.S., Research Center for Metallurgy, National Research and Innovation Agency, Banten, 15314, Indonesia, Faculty of Medicine, Universitas Indonesia, Jakarta, 10430, Indonesia; Tandri C., Faculty of Mathematics and Science, State University of Jakarta, Jakarta, 13220, Indonesia; Yahya L.A., Faculty of Mathematics and Science, State University of Jakarta, Jakarta, 13220, Indonesia; Budi E., Faculty of Mathematics and Science, State University of Jakarta, Jakarta, 13220, Indonesia; Susilo A.B., Faculty of Mathematics and Science, State University of Jakarta, Jakarta, 13220, Indonesia; Darsono N., Research Center for Advanced Materials, National Research and Innovation Agency, Banten, 15314, Indonesia
Recently, utilization of nanoparticles has been increasing due to their wide range of capability to act as catalyst in chemical reactions, carrier for certain molecules, or additives that would alter certain materials' properties. One way to produce nanoparticles is by utilizing microfluidics technology. Passive micromixing using serpentine microchannel can be utilized to generate nanoparticles in a simple, automated, and high-throughput manner. Here, we design and validate a serpentine microchannel in computational simulation environment prior to realization by stereolithography. The serpentine microchannel has a footprint area of 2 cm x 2 cm with 300 micrometer-wide microchannel. Simulation result shows that the serpentine microchannel is capable of operating under the specified fluid flow parameters. The serpentine microchannel has been successfully realized by stereolithography using standard resin. Metrological measurement shows that the geometrical tolerance is around 18% which is still acceptable for DLP product. Chip assembling is performed by bonding between the serpentine microchannel with rigid transparent acrylic plate. Functional flow test demonstrates the product can perform successfully. © 2024 Author(s).
Badan Riset dan Inovasi Nasional, BRIN; Research Center for Metallurgy
Authors would like to gratefully acknowledge support from Research Center for Metallurgy, National Research and Innovation Agency (BRIN) for the research facilities.
American Institute of Physics
0094243X
978-073544812-4
Conference paper
-
164
21059