Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation
Near infrared (NIR) photodetectors (PDs) have attracted great attention for their applications in the field of optical telecommunication. Ge is one of the most attractive materials for the active region of the NIR PDs due to complementary metal oxide semiconductor (CMOS) compatibility and lower band...
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sg-ntu-dr.10356-1693182023-07-14T15:39:51Z Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation Kim, You Jin An, Shu Liao, Yikai Huang, Po-Rei Son, Bongkwon Tan, Chuan Seng Chang, Guo-En Kim, Munho School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Active Regions Band Gap Energy Near infrared (NIR) photodetectors (PDs) have attracted great attention for their applications in the field of optical telecommunication. Ge is one of the most attractive materials for the active region of the NIR PDs due to complementary metal oxide semiconductor (CMOS) compatibility and lower bandgap energy compared to those of Si. However, they suffer from significantly reduced responsivity in the wavelength region above 1.55 μm. Here, we develop a new scheme to boost the responsivity of Ge PDs by integrating TiN and Ge on flexible platforms. Responsivity is further modified by controlling the bandgap energy via applying various tensile and compressive strains. TiN is used as a responsivity booster, showing improvement of 63% compared to flat Ge PDs due to increased absorption via plasmon resonance and reduced reflection on the surface. Moreover, a further increase in responsivity is achieved by applying 0.30% tensile strain in the active region, reaching a responsivity of 11.5 mA W−1 at 1.55 μm. This work provides an efficient way to enhance the responsivity of flexible Ge PDs via heterogeneous integration of dissimilar materials. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Published version This work was supported by the A*STAR, Singapore, Advanced Manufacturing and Engineering (AME) Individual Research Grant (IRG) under the Project M21K2c0107, and Ministry of Education, Singapore, under the Grant ACRF Tier 2 grant (MOE-T2EP50120-0001, T2EP50121-0001 (MOE-000180-01)) and AcRF Tier 1 grant (2021-T1-002-031 (RG112/21)). G. E. C. acknowledges the support from Ministry of Science and Technology, Taiwan under Project number MOST 111-2636-E-194- 002. The authors also acknowledge the support from the Nanyang NanoFabrication Centre (N2FC). 2023-07-12T06:34:41Z 2023-07-12T06:34:41Z 2023 Journal Article Kim, Y. J., An, S., Liao, Y., Huang, P., Son, B., Tan, C. S., Chang, G. & Kim, M. (2023). Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation. Journal of Materials Chemistry C, 11(13), 4520-4525. https://dx.doi.org/10.1039/d3tc00228d 2050-7526 https://hdl.handle.net/10356/169318 10.1039/d3tc00228d 2-s2.0-85152434838 13 11 4520 4525 en M21K2c0107 MOE-T2EP50120-0001 MOE-T2EP50121-0001 MOE-000180-01 2021-T1-002-031 (RG112/21) Journal of Materials Chemistry C © 2023 The Royal Society of Chemistry. This article is licensed under a Creative Commons Attriubton-NonCommercial 3.0 Unported Licence. application/pdf |
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Engineering::Electrical and electronic engineering Active Regions Band Gap Energy Kim, You Jin An, Shu Liao, Yikai Huang, Po-Rei Son, Bongkwon Tan, Chuan Seng Chang, Guo-En Kim, Munho Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation |
| description |
Near infrared (NIR) photodetectors (PDs) have attracted great attention for their applications in the field of optical telecommunication. Ge is one of the most attractive materials for the active region of the NIR PDs due to complementary metal oxide semiconductor (CMOS) compatibility and lower bandgap energy compared to those of Si. However, they suffer from significantly reduced responsivity in the wavelength region above 1.55 μm. Here, we develop a new scheme to boost the responsivity of Ge PDs by integrating TiN and Ge on flexible platforms. Responsivity is further modified by controlling the bandgap energy via applying various tensile and compressive strains. TiN is used as a responsivity booster, showing improvement of 63% compared to flat Ge PDs due to increased absorption via plasmon resonance and reduced reflection on the surface. Moreover, a further increase in responsivity is achieved by applying 0.30% tensile strain in the active region, reaching a responsivity of 11.5 mA W−1 at 1.55 μm. This work provides an efficient way to enhance the responsivity of flexible Ge PDs via heterogeneous integration of dissimilar materials. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Kim, You Jin An, Shu Liao, Yikai Huang, Po-Rei Son, Bongkwon Tan, Chuan Seng Chang, Guo-En Kim, Munho |
| format |
Article |
| author |
Kim, You Jin An, Shu Liao, Yikai Huang, Po-Rei Son, Bongkwon Tan, Chuan Seng Chang, Guo-En Kim, Munho |
| author_sort |
Kim, You Jin |
| title |
Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation |
| title_short |
Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation |
| title_full |
Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation |
| title_fullStr |
Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation |
| title_full_unstemmed |
Flexible TiN/Ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation |
| title_sort |
flexible tin/ge photodetectors with enhanced responsivity via localized surface plasmon resonance and strain modulation |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169318 |
| _version_ |
1772825305954648064 |