Marten Darmawan, S.T., Ph.D.

01/31/2020 00:00:00

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Nama        NIK / NIDN Jabatan Akademik Jabatan E-mail    Kantor

:   Marten Darmawan, S.T., Ph.D. :   120171753 / 0304038802 :   Lektor :   Kepala Laboratorium Aerodinamika dan Mekanika Fluida :   marten.darmawan@atmajaya.ac.id     martendarmawan@gmail.com :   Laboratorium Aerodinamika dan Mekanika Fluida     Gedung A Lantai 4     Program Studi Teknik Mesin, Fakultas Teknik     Universitas Katolik Indonesia Atma Jaya     BSD City, Jl. Cisauk, Sampora, Tangerang, Banten 15345     Telp.: +62-21 570 8826

 

Pendidikan

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• S3 - Philosophy of Doctor (Ph.D.), Department of Mechanical Engineering, Sungkyunkwan University, Korea
• S1 - Sarjana Teknik (S.T.), Departemen Teknik Fisika, Universitas Gadjah Mada, Indonesia 

 

 

Bidang Keahlian

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Microfluidics, additive manufacturing, acoustofluidics

 

 

Pengajar Mata Kuliah

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• Pemodelan sistem
• Analisis teknik dasar
• Metode elemen berhingga
• Perpindahan panas
• Mekanika Fluida
• Fisika

 

 

Publikasi Ilmiah

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1. Parikesit, G. O. F., Darmawan, M., Faisal, A. (2010). Quantitative low-cost webcambased microscopy. Optical Engineering 49:113205-113205-113209.
2. Jo, W., Darmawan, M., Kim, J., Ahn, C. W., Byun, D., Baik, S. H., Kim, M. J. (2013). Electrical property measurements of metallized flagella-templated silica nanotube networks. Nanotechnology 24:135704.
3. Darmawan, M., Jeon, K., Ju, J. M., Yamagata, Y., Byun, D. (2014). Deposition of poly (3, 4-ethylenedioxythiophene)–poly (styrenesulfonate)(PEDOT-PSS) particles using standing surface acoustic waves and electrostatic deposition method for the rapid fabrication of transparent conductive film. Sensors and Actuators A: Physical 205:177185.
4. Darmawan, M. and Byun, D. (2014). Focused surface acoustic wave induced jet formation on superhydrophobic surfaces. Microfluidics and Nanofluidics 18: 1107-1114. 
5. Darmawan, M., Lee, J.-H., Kim, J.-H., Byun, D.-Y. (2015). Rapid and Sustainable Surface Acoustic Wave Atomizer System. Aerosol Science and Technology 49: 12711280. 
6. Darmawan, M., William, C., Gunawan, H. Low-cost, reliable, and easy-to-use low speed water tunnel as a platform for studying fluid flow. 2019 (under review)