FABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION
In this research we did fabrication of hybrid polymer micro-channel for Young Interferometer biochemical optic sensor application. To optimize this biochemical optic sensor design, we did simulation about surface Plasmon polariton propagation which propagates on the sensor surface. Hybrid polymer pr...
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id-itb.:154912017-09-27T11:45:07ZFABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION DWI INDARI (NIM : 10208034); Dosen Pembimbing : Dr. Rahmat Hidayat ; Co-Pembimbing : Dr. Priastu, EFI Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/15491 In this research we did fabrication of hybrid polymer micro-channel for Young Interferometer biochemical optic sensor application. To optimize this biochemical optic sensor design, we did simulation about surface Plasmon polariton propagation which propagates on the sensor surface. Hybrid polymer produced by TMSPMA (3-(Trimethoxysilyll) propyl methacrylate) monomer by sol gel method. Micro-channel pattern created by photolithography technique. The resulted micro-channel pattern still broken because of imperfect photo-polymerization. By using Mathcad 14 software, we get sensor design which have possibility to create bound surface Plasmon polariton. Simulation results shows that by layering hybrid polymer with 50 nm of silver and vacuum, air, hexane, and water, we can get bound mode surface Plasmon polariton. This phenomenon can be used to detect biochemical compound. text |
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In this research we did fabrication of hybrid polymer micro-channel for Young Interferometer biochemical optic sensor application. To optimize this biochemical optic sensor design, we did simulation about surface Plasmon polariton propagation which propagates on the sensor surface. Hybrid polymer produced by TMSPMA (3-(Trimethoxysilyll) propyl methacrylate) monomer by sol gel method. Micro-channel pattern created by photolithography technique. The resulted micro-channel pattern still broken because of imperfect photo-polymerization. By using Mathcad 14 software, we get sensor design which have possibility to create bound surface Plasmon polariton. Simulation results shows that by layering hybrid polymer with 50 nm of silver and vacuum, air, hexane, and water, we can get bound mode surface Plasmon polariton. This phenomenon can be used to detect biochemical compound. |
| format |
Final Project |
| author |
DWI INDARI (NIM : 10208034); Dosen Pembimbing : Dr. Rahmat Hidayat ; Co-Pembimbing : Dr. Priastu, EFI |
| spellingShingle |
DWI INDARI (NIM : 10208034); Dosen Pembimbing : Dr. Rahmat Hidayat ; Co-Pembimbing : Dr. Priastu, EFI FABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION |
| author_facet |
DWI INDARI (NIM : 10208034); Dosen Pembimbing : Dr. Rahmat Hidayat ; Co-Pembimbing : Dr. Priastu, EFI |
| author_sort |
DWI INDARI (NIM : 10208034); Dosen Pembimbing : Dr. Rahmat Hidayat ; Co-Pembimbing : Dr. Priastu, EFI |
| title |
FABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION |
| title_short |
FABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION |
| title_full |
FABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION |
| title_fullStr |
FABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION |
| title_full_unstemmed |
FABRICATION MIKROKANAL HYBRID POLYMER FOR SENSOR OPTICAL BIOCHEMICAL APPLICATIONS AND ANALYSIS PLASMON POLARITON WAVE PROPAGATION |
| title_sort |
fabrication mikrokanal hybrid polymer for sensor optical biochemical applications and analysis plasmon polariton wave propagation |
| url |
https://digilib.itb.ac.id/gdl/view/15491 |
| _version_ |
1822017856817070080 |