Journal Articles

Please see Google Scholar for up-to-date publication list:   Link

2022

1. 1.Jiaojian Shi, Daehan Yoo, Ferran Vidal-Codina, Chan-Wook Baik, Kyung-Sang Cho, Ngoc-Cuong Nguyen, Hendrik Utzat, Jinchi Han, Aaron M. Lindenberg, Vladimir Bulović, Moungi G. Bawendi, Jaime Peraire, Sang-Hyun Oh* and Keith A. Nelson*
   

2. A room-temperature polarization-sensitive CMOS terahertz camera based on quantum-dot-enhanced terahertz-to-vislble photon upconversion
   

3. Nature Nanotechnology (2022) published online:   Link
   

2. 2.Hatice Altug*, Sang-Hyun Oh*, Stefan A. Maier*, and Jiri Homola*
   

3. Advances and applications of nanophotonic biosensors
   

4. Nature Nanotechnology (2022) 17, 5-16   Link (open access)
   

3. 3.Christopher T. Ertsgaard, Daehan Yoo, Peter R. Christenson, Daniel J. Klemme, and Sang-Hyun Oh*
   

4. Open-channel microfluidics via resonant wireless power transfer
   

5. Nature Communications (2022) 13, 1869   Link (open access)
   

4. 4.Kaveh Khaliji, Luis Martin-Moreno, Phaedon Avouris, Sang-Hyun Oh and Tony Low*
   

5. Twisted two-dimensional material stacks for polarization optics
   

6. Physical Review Letters (2022) 128, 193902   Link
   

5. 5.Aurelian John-Herpin, Andreas Tittl, Lucca Kühner, Felix Richter, Steven H. Huang, Gennady Shvets, Sang-Hyun Oh, and Hatice Altug*
   

6. Metasurface-enhanced infrared spectroscopy: An abundance of materials and functionalities
   

7. Advanced Materials (2022)   Link (open access)
   

6. 6.Peter R. Christenson, Manci Li, Gage Rowden, Marc D. Schwabenlander, Tiffany M. Wolf, Sang-Hyun Oh*, and Peter A. Larsen*
   

7. A field-deployable diagnostic assay for the visual detection of misfolded prions
   

8. Scientific Reports (2022) 12, 12246   Link (open access)
   

7. 7.Yu-Lung Lin, Jennifer Nhieu, Pei-Yao Liu, Gengyun Le, Dong Jun Lee, Chin-Wen Wei, Yi-Wei Lin, Sang-Hyun Oh, Dawn Lowe, Li-Na Wei*
   

8. CRABP1-CaMKII-Agrn regulates the maintenance of neuromuscular junction in spinal motor neuron
   

9. Cell Death & Differentiation (2022) 29, 1744-1756  Link
   

2021

8. 8.Daehan Yoo, Fernando de León-Pérez, Matthew Pelton, In-Ho Lee, Daniel A. Mohr, Markus B. Raschke, Joshua D. Caldwell, Luis Martín-Moreno, and Sang-Hyun Oh
   

9. Ultrastrong plasmon-phonon coupling via epsilon-near-zero nanocavities
   

10. Nature Photonics (2021) 15, 125-130  Link
    

11. U. of Minnesota news story:  Link
    

9. 9.Sang-Hyun Oh*, Hatice Altug*, Xiaojia Jin, Tony Low, Steven J. Koester, Aleksandar P. Ivanov, Joshua B. Edel, Phaedon Avouris, and Michael S. Strano*
   

10. Nanophotonic biosensors harnessing van der Waals materials
    

11. Nature Communications (2021) 12, 3824   Link (open access)
    

10. 10.Sergey G. Menabde, In-Ho Lee, Sanghyub Lee, Heonhak Ha, Jacob T. Heiden, Daehan Yoo, Teun-Teun Kim, Tony Low, Young Hee Lee, Sang-Hyun Oh, Min Seok Jang
    

11. Real-space imaging of acoustic plasmons in large-area CVD graphene
    

12. Nature Communications (2021) 12, 938  Link
    

11. 11.Daehan Yoo, Avijit Barik, Fernando de León-Pérez, Daniel A. Mohr, Matthew Pelton, Luis Martín-Moreno, and Sang-Hyun Oh
    

12. Plasmonic Split-Trench Resonator for Trapping and Sensing
    

13. ACS Nano published online (2021) Link
    

12. 12.Seon Namgung, Steven J. Koester, and Sang-Hyun Oh
    

13. Ultraflat Sub-10 Nanometer Gap Electrodes for Two-Dimensional Optoelectronic Devices
    

14. ACS Nano  15, 5276-5283 (2021)  Link
    

13. 13.David P. Nicholls and Sang-Hyun Oh
    

14. Launching graphene surface plasmon waves with vanishingly small periodic grating structures
    

15. Journal of the Optical Society of America A  38, 5560563 (2021)  Link
    

14. 14.Jun Suk Kim, Minh Dao Tran, Sung-Tae Kim, Daehan Yoo, Sang-Hyun Oh, Ji-Hee Kim, and Young Hee Lee
    

15. Escalated Photocurrent with Excitation Energy in Dual-Gated MoTe2
    

16. Nano Letters  21, 1976-1981 (2021) Link
    

15. 15.In-Ho Lee, Tony Low, Luis Martín-Moreno, Phaedon Avouris, and Sang-Hyun Oh
    

16. Toward Monoatomic-Layer Field Confinement Limit via Acoustic Graphene Plasmons
    

17. arXiv:2012.13519  Link
    

16. 16.Sang Hyun Park, Shengxuan Xia,  Sang-Hyun Oh, Phaedon Avouris, Tony Low*
    

17. Accessing the exceptional points in a graphene plasmon-vibrational mode coupled system
    

18. ACS Photonics 8, 3241 (2021)   Link
    

17. 17.Joshua D. Kolbow, Nathan C. Lindquist, Christopher T. Ertsgaard, Daehan Yoo, and Sang-Hyun Oh
    

18. Nano-Optical Tweezers: Methods and Applications for Trapping Single Molecules and Nanoparticles
    

19. ChemPhysChem (2021) 22, 1409-1420   Link
    

18. 18.Ferran Vidal-Codina, Ngoc-Cuong Nguyen, Cristian Ciracì, Sang-Hyun Oh, Jaime Peraire
    

19. A nested hybridizable discontinuous Galerkin method for computing second-harmonic generation in three-dimensional metallic nanostructures
    

20. Journal of Computational Physics (2021) 429, 110000 Link
    

19. 19.Junshan Lin, Sang-Hyun Oh, Hai Zhang
    

20. Sensitivity of resonance frequency in the detection of thin layer using nano-slit structures
    

21. IMA Journal of Applied Mathematics (2021) 86, 146-164 Link
    

22. 
    

2020

20. 20.In-Ho Lee, Mingze He, Xi Zhang, Yujie Luo, Song Liu, James H. Edgar, Ke Wang, Phaedon Avouris, Tony Low, Joshua D. Caldwell, and Sang-Hyun Oh
    

21. Image polaritons in boron nitride for extreme polariton confinement with low losses
    

22. Nature Communications (2020) 11, 3649  Link
    

21. 21.Cristian Ciracì, Ferran Vidal-Codina, Daehan Yoo, Jaime Peraire, Sang-Hyun Oh, and David R. Smith
    

22. Impact of surface roughness in nanogap plasmonic systems
    

23. ACS Photonics (2020) 7, 908-913.  Link
    

22. 22.Ye Ma, Debabrata Sikdar, Aleksandra Fedosyuk, Leonora Velleman, Daniel J Klemme, Sang-Hyun Oh, Anthony R. J. Kucernak, Alexei A. Kornyshev, and Joshua B. Edel
    

23. Electotunable nanoplasmonics for amplified surface enhanced Raman spectroscopy
    

24. ACS Nano (2020) 14, 328-336  Link
    

23. 23.Avijit Barik, Xiaoshu Chen, L. James Maher III, Arthur E. Warrington, Moses Rodriguez, Sang-Hyun Oh, and Nathan J. Wittenberg
    

24. Nanogap dielectrophoresis combined with buffer exchange for detecting protein binding to trapped bioparticles
    

25. Colloids and Surfaces A (2021) 611, 125829   Link
    

24. 24.Ferran Vidal-Codina, Luis Martín-Moreno, Cristian Ciracì, Daehan Yoo, Ngoc-Cuong Nguyen, Sang-Hyun Oh and Jaime Peraire
    

25. Terahertz and infrared nonlocality and field saturation in extreme-scale nanoslits
    

26. Optics Express (2020) 28, 8701-8715  Link
    

25. 25.Che Chen, Sang-Hyun Oh, and Mo Li
    

26. Coupled-mode theory for plasmonic resonators integrated with silicon waveguides towards mid-infrared spectroscopic sensing
    

27. Optics Express (2020) 28, 2020-2036  Link
    

26. 26.Ahsan Noor, Anoop R. Damodaran, In-Ho Lee, Stefan A. Maier, Sang-Hyun Oh, Cristian Ciracì
    

27. Mode-matching enhancement of second-harmonic generation with plasmonic nanopatch antennas
    

28. ACS Photonics (2020) 7, 3333-3340  Link
    

27. 27.A. Chaves, J. G. Azadani, H. Alsalman, D. R. da Costa, R. Frisenda, A. J. Chaves, Seung Hyun Song, Y. D. Kim, Daowei He, Jiadong Zhou, A. Castellanos-Gomez, F. M. Peeters, Zheng Liu, C. L. Hinkle, Sang-Hyun Oh, Peide D. Ye, Steven J. Koester, Young Hee Lee, Ph. Avouris, Xinran Wang, Tony Low
    

28. Bandgap engineering of two-dimensional semiconductor materials
    

29. npj 2D Materials and Applications (2020) 4:29  Link
    

2019

28. 28.In-Ho Lee, Daehan Yoo, Phaedon Avouris, Tony Low, and Sang-Hyun Oh
    

29. Graphene Acoustic Plasmon Resonator for Ultrasensitive Infrared Spectroscopy
    

30. Nature Nanotechnology (2019) 14, 313-319.  Link
    

31. News & Views ‘What momentum mismatch?’  Link
    

32. NSF research highlight  Link
    

29. 29.Binoy Paulose Nadappuram, Paolo Cadinu, Avijit Barik, Alexander J. Ainscough, Michael J. Devine, Minkyung Kang, Jorge Gonzalez-Garcia, Josef T. Kittler, Keith R. Willison, Ramon Vilar, Paolo Actis, Beata Wojciak-Stothard, Sang-Hyun Oh, Aleksandar P. Ivanov, and Joshua B. Edel
    

30. Nanoscale tweezers for single-cell biopsies
    

31. Nature Nanotechnology (2019) 14, 80-88.   Link
    

32. Highlighted by Nature Medicine “Most precise ‘surgery‘ of cell carried out on neurons”  Link
    

30. 30.Daehan Yoo, Ferran Vidal-Codina, Cristian Ciracì, Ngoc-Cuong Nguyen, David R. Smith, Jaime Peraire, and Sang-Hyun Oh
    

31. Modeling and observation of mid-infrared nonlocality in effective epsilon-near-zero ultranarrow coaxial apertures
    

32. Nature Communications (2019) 10:4476 Link
    

31. 31.Milan Vala, Christopher T. Ertsgaard, Nathan J. Wittenberg, and Sang-Hyun Oh
    

32. Plasmonic sensing on symmetric nanohole arrays supporting high-Q hybrid modes and reflection geometry
    

33. ACS Sensors (2019) 4, 3265-3274  Link
    

32. 32.Kaveh Khaliji, Sudipta Romen Biswas, Hai Hu, Xiaoxia Yang, Qing Dai, Sang-Hyun Oh, Phaedon Avouris, and Tony Low
    

33. Plasmonic-based gas sensing with graphene nanoribbons
    

34. Physical Review Applied (2020) 13, 011002  Link
    

33. 33.Yong-Sang Ryu, Hansik Yun, Taerin Chung, Jeng-Hun Suh, Sungho Kim, Kyookeun Lee, Nathan J. Wittenberg, Sang-Hyun Oh, Byoungho Lee, and Sin-Doo Lee
    

34. Kinetics of lipid raft formation at lipid monolayer-bilayer junction probed by surface plasmon resonance
    

35. Biosensors and Bioelectronics (2019) 142, 111568. Link
    

34. 34.In-Ho Lee, Gang Li, Bo-Yeon Lee, Se-Um Kim, Byoungho Lee, Sang-Hyun Oh, and Sin-Doo Lee
    

35. Selective photonic printing based on anisotropic Fabry-Perot resonators for dual-image holography and anti-counterfeiting
    

36. Optics Express (2019) 27, 24512-24523  Link
    

2018

35. 35.Sang-Hyun Oh and Hatice Altug
    

36. Performance metrics and enabling technologies for nanoplasmonic biosensors
    

37. Nature Communications (2018) 9, 5263  Link
    

36. 36.Daniel Rodrigo, Andreas Tittl, Nadine Ait-Bouziad, Aurelian John-Herpin, Odeta Limaj, Christopher Kelly, Daehan Yoo, Nathan J. Wittenberg, Sang-Hyun Oh, Hilal A. Lashuel, Hatice Altug
    

37. Resolving Molecule-Specific Information in Dynamic Lipid Membrane Processes with Multi-Resonant Infrared Metasurfaces
    

38. Nature Communications (2018) 9, 2160.  Link
    

37. 37.Daehan Yoo, Kargal L. Gurunatha, Han-Kyu Choi, Daniel A. Mohr, Christopher T. Ertsgaard, Reuven Gordon, and Sang-Hyun Oh
    

38. Low-Power Optical Trapping of Nanoparticles and Proteins with Resonant Coaxial Nanoaperture using 10 nm gap
    

39. Nano Letters (2018) 18, 3637-3642.  Link
    

38. 38.Daehan Yoo, Daniel A. Mohr, Ferran Vidal-Codina, Aurelian John-Herpin, Minsik Jo, Sunghwan Kim, Joseph R. Matson, Joshua D. Caldwell, Heonsu Jeon, Ngoc Cuong Nguyen, Luis Martin-Moreno, Jaime Peraire, Hatice Altug, and Sang-Hyun Oh
    

39. High-Contrast Infrared Absorption Spectroscopy via Mass-Produced Coaxial Zero-Mode Resonators with Sub-10 nm Gaps
    

40. Nano Letters (2018) 18, 1930-1936.  Link
    

39. 39.Christopher T. Ertsgaard, Nathan J. Wittenberg, Daniel J. Klemme, Avijit Barik, Wei-Chuan Shih, and Sang-Hyun Oh
    

40. Integrated Nanogap Platform for Sub-Volt Dielectrophoretic Trapping and Real-Time Raman Imaging of Biological Nanoparticles
    

41. Nano Letters (2018) 18, 5946-5953.   Link
    

40. 40.Che Chen, Daniel A. Mohr, Han-Kyu Choi, Daehan Yoo, Mo Li, and Sang-Hyun Oh
    

41. Waveguide-Integrated Compact Plasmonic Resonators for On-Chip Mid-Infrared Laser Spectroscopy
    

42. Nano Letters (2018) 18, 7601-7608.   Link    Supplementary Cover Image
    

41. 41.Seon Namgung, Daniel A. Mohr, Daehan Yoo, Palash Bharadwaj, Steven J. Koester, Sang-Hyun Oh
    

42. Ultrasmall Plasmonic Single Nanoparticle Light Source Driven by a Graphene Tunnel Junction
    

43. ACS Nano (2018) 12, 2780-2788  Link
    

42. 42.In-Ho Lee, Luis Martin-Moreno, Daniel A. Mohr, Kaveh Khaliji, Tony Low, and Sang-Hyun Oh
    

43. Anisotropic Acoustic Plasmons in Black Phosphorus
    

44. ACS Photonics (2018) 5, 2208-2216.  Link
    

43. 43.Ye Ma, Cristian Zagar, Daniel J. Klemme, Debabrata Sikdar, Leonora Velleman, Yunuen Montelongo, Sang-Hyun Oh, Anthony R. Kucernak, Joshua B. Edel, Alexei A. Kornyshev
    

44. Tunable nanoplasmonic mirror at electrochemical interface
    

45. ACS Photonics (2018) 5, 4604-4616.   Link
    

44. 44.Milan Vala, Luke R. Jordan, Arthur E. Warrington, L. James Maher III, Moses Rodriguez, Nathan J. Wittenberg, and Sang-Hyun Oh
    

45. Surface plasmon resonance sensing on naturally derived membranes: A remyelination-promoting human antibody binds myelin with extraordinary affinity
    

46. Analytical Chemistry (2018) 90, 12567-12573.  Link
    

45. 45.Daniel A. Mohr, Daehan Yoo, Che Chen, Mo Li, and Sang-Hyun Oh
    

46. Waveguide-integrated mid-infrared plasmonics with high-efficiency coupling for ultracompact surface-enhanced infrared absorption spectroscopy
    

47. Optics Express (2018) 26, 23540-23549.  Link
    

46. 46.Yong-Sang Ryu, Luke R. Jordan, Nathan J. Wittenberg, Sang Moon Kim, Daehan Yoo, Cherlhyun Jeong, Arthur E. Warrington, Moses Rodriguez, Sang-Hyun Oh, and Sin-Doo Lee
    

47. Curvature elasticity-driven leaflet asymmetry and interleaflet raft coupling in supported membranes
    

48. Advanced Materials Interfaces (2018) 5, 1801290.  Link
    

47. 47.Nazila Haratipour,  Yue Liu, Ryan J. Wu, Seon Namgung, P. Paul Ruden, K. Andre Mkhoyan, Sang-Hyun Oh, and Steven J. Koester
    

48. Mobility Anisotropy in Black Phosphorus MOSFETs with HfO2 Gate Dielectrics
    

49. IEEE Transactions on Electron Devices (2018) 65, 4093-4101.   Link
    

48. 48.Sudipta Romen Biswas, Cristian E. Gutierrez, Andrei Nemilentsau, In-Ho Lee, Sang-Hyun Oh, Phaedon Avouris, and Tony Low
    

49. Tunable graphene metasurface reflectarray for cloaking, illusion, and focusing
    

50. Physical Review Applied (2018) 9, 034021  Link
    

49. 49.Mihee Kim, Milan Vala, Christopher T. Ertsgaard, Sang-Hyun Oh, Timothy P. Lodge, Frank S. Bates, Benjamin J. Hackel
    

50. Surface Plasmon Resonance Study of the Binding of PEO-PPO-PEO Triblock Copolymer and PEO Homopolymer to Supported Lipid Bilayers
    

51. Langmuir (2018) 34, 6703  Link
    

52. 
    

2017

50. 50.Aijit Barik, Yao Zhang, Roberto Grassi, Binoy Paulose Nadappuram, Joshua B. Edel, Tony Low, Steven J. Koester, and Sang-Hyun Oh
    

51. Graphene-Edge Dielectrophoretic Tweezers for Trapping of Biomolecules
    

52. Nature Communications (2017) 8, 1867.  Link
    

53. *University of Minnesota Press Release:  Link
    

54. *National Science Foundation (NSF) news:  Link
    

51. 51.Che Chen, Nathan Youngblood, Ruoming Peng, Daehan Yoo, Daniel A. Mohr, Timothy W. Johnson, Sang-Hyun Oh, and Mo Li
    

52. Three-Dimensional Integration of Black Phosphorus Photodetector with Silicon Photonics and Nanoplasmonics
    

53. Nano Letters (2017) 17, 985-991.   Link
    

52. 52.Haichao Yu, Themistoklis P. H. Sidiropoulos, Wei Liu, Carsten Ronning, Peter K. Petrov, Sang-Hyun Oh, Stefan A. Maier, Peng Jin, and Rupert F. Oulton
    

53. Influence of Silver Film Quality on the Threshold of Plasmonic Nanowire Lasers
    

54. Advanced Optical Materials (2017) 5, 1600856.   Link
    

53. 53.Matthew C. Robbins, Seon Namgung, Sang-Hyun Oh, Steven J. Koester
    

54. Cyclical Thinning of Black Phosphorus with High Spatial Resolution for Heterostructure Devices
    

55. ACS Applied Materials & Interfaces (2017) 9, 12654-12662.  Link
    

54. 54.Nazila Haratipour, Seon Namgung, Roberto Grassi, Tony Low, Sang-Hyun Oh, Steven J. Koester
    

55. High-Performance Black Phosphorus MOSFETs using Crystal Orientation Control and Contact Engineering
    

56. IEEE Electron Device Letters (2017) 38, 685-688.  Link
    

55. 55.Kriti Agarwal, Chao Liu, Daeha Joung, Hyeong-Ryeol Park, Sang-Hyun Oh, Jeong-Hyun Cho
    

56. Three-Dimensional Anisotropic Metamaterials as Triaxial Optical Inclinometers
    

57. Scientific Reports (2017) 7, 2680.  Link
    

56. 56.Zhen Hu, Junshan Lin, Ya Yan Lu, and Sang-Hyun Oh
    

57. Fast Vertical Mode Expansion Method for the Simulation of Extraordinary Terahertz Field Enhancement in an Annular Nanogap
    

58. Journal of the Optical Society of America B (2018) 35, 30-38.  Link
    

57. 57.F. Vidal-Codina, N.C. Nguyen, S.-H. Oh, J. Peraire
    

58. A hybridizable discontinuous Galerkin method for computing nonlocal electromagnetic effects in three-dimensional metallic nanostructures
    

59. Journal of Computational Physics (2017)  published online  Link
    

2016

58. 58.Kevin J. Freedman, Lauren Otto, Aleksandar P. Ivanov, Avijit Barik, Sang-Hyun Oh, Joshua B. Edel
    

59. Nanopore Sensing at Ultra-low Concentrations using Single-Molecule Dielectrophoretic Trapping
    

60. Nature Communications  (2016) 7:10217.  Link
    

61. *Imperial College news release: Link
    

59. 59.Xiaoshu Chen, Nathan C. Lindquist, Daniel J. Klemme, Prashant Nagpal, David J. Norris, Sang-Hyun Oh
    

60. Split-Wedge Antennas with Sub-5 nm Gaps for Plasmonic Nanofocusing
    

61. Nano Letters (2016) 16, 7849-7856.  Link
    

60. 60.Avijit Barik, Xiaoshu Chen, and Sang-Hyun Oh
    

61. Ultralow-Power Electronic Trapping of Nanoparticles with Sub-10 nm Gold Nanogap Electrodes
    

62. Nano Letters (2016) 16, 6317-6324.  Link
    

63. *News story on the Institute of Physics nanotechweb
    

61. 61.Daehan Yoo, Ngoc-Cuong Nguyen, Luis Martin-Moreno, Daniel A. Mohr, Sol Carretero-Palacios, Jonah Shaver, Jaime Peraire, Thomas W. Ebbesen, and Sang-Hyun Oh
    

62. High-Throughput Fabrication of Resonant Metamaterials with Ultra-Small Coaxial Apertures via Atomic Layer Lithography
    

63. Nano Letters (2016) 16, 2040-2046.   Link
    

64. *News story on the Institute of Physics nanotechweb:  Link
    

62. 62.Odeta Limaj, Dordaneh Etezadi, Nathan J. Wittenberg, Daniel Rodrigo, Daehan Yoo, Sang-Hyun Oh,  Hatice Altug
    

63. Infrared Plasmonic Biosensor for Real-time and Label-free Monitoring of Lipid Membranes
    

64. Nano Letters  (2016) 16, 1502-1508.   Link
    

63. 63.Seon Namgung, Jonah Shaver, Sang-Hyun Oh, and Steven J. Koester
    

64. Multimodal Photodiode and Phototransistor Device Based on Two-Dimensional Materials
    

65. ACS Nano (2016) 10, 10500-10506.  Link
    

64. 64.Nazila Haratipour, Seon Namgung, Sang-Hyun Oh, and Steven J. Koester
    

65. Fundamental Limits on the Subthreshold Slope in Schottky Source/Drain Black Phosphorus Field-Effect Transistors
    

66. ACS Nano (2016) 10, 3791-3800.   Link
    

65. 65.Shailabh Kumar, Timothy W. Johnson, Christopher K. Wood, Tao Qu, Nathan J. Wittenberg, Lauren M. Otto, Jonah Shaver, Nicholas J. Long, Randall H. Victora, Joshua B. Edel, and Sang-Hyun Oh
    

66. Template-stripped Multifunctional Wedge and Pyramid Arrays for Magnetic Nanofocusing and Optical Sensing
    

67. ACS Applied Materials & Interfaces (2016) 8, 9319-9326.   Link
    

68. *Selected for ACS Editor’s Choice
    

69. *Cover paper for the April issue.
    

66. 66.Timothy W. Johnson, Daniel J. Klemme, and Sang-Hyun Oh
    

67. Size-Reduction Template Stripping of Smooth Curved Metallic Tips for Adiabatic Nanofocusing of Surface Plasmons
    

68. ACS Applied Materials & Interfaces (2016) 8, 13624-13629.  Link
    

67. 67.Avijit Barik, Sudhir Cherukulappurath, Nathan J. Wittenberg, Timothy W. Johnson, Sang-Hyun Oh
    

68. Dielectrophoresis-assisted Raman Spectroscopy of Intravesicular Analytes on Metallic Pyramids
    

69. Analytical Chemistry (2016) 88, 1704-1710.    Link
    

68. 68.Kevin J. Freedman, Colin R. Crick, Pablo Albella, Avijit Barik, Aleksandar P. Ivanov, Stefan A. Maier, Sang-Hyun Oh, and Joshua B. Edel
    

69. On-Demand Surface- and Tip-enhanced Raman Spectroscopy using Dielectrophoretic Trapping and Nanopore Sensing
    

70. ACS Photonics (2016) 3, 1036-1044.  Link
    

69. 69.Stephen A. O. Olson, Daniel A. Mohr, Jonah Shaver, Timothy W. Johnson, and Sang-Hyun Oh
    

70. Plasmonic Cup Resonators for Single-Nanohole-Based Sensing and Spectroscopy
    

71. ACS Photonics (2016) 3, 1202-1207.  Link
    

70. 70.Mohammadreza S. Nezami, Daehan Yoo, Ghazal Hajisalem, Sang-Hyun Oh, and Reuven Gordon
    

71. Gap Plasmon Enhanced Metasurface Third-Harmonic Generation in Transmission Geometry
    

72. ACS Photonics (2016) 3, 1461-1467.  Link
    

71. 71.Daniel J. Klemme, Timothy W. Johnson, Daniel A. Mohr, and Sang-Hyun Oh
    

72. Template-Stripped Metal Pyramids with Self-Aligned Grating Couplers via Nanostencil Lithography
    

73. Applied Physics Letters (2016) 108, 213106  Link
    

72. 72.David Nicholls, Sang-Hyun Oh, Timothy W. Johnson, Fernando Reitich
    

73. Launching Surface Plasmon Waves via Vanishingly Small Periodic Gratings
    

74. Journal of the Optical Society of America A (2016) 33, 276-285.  Link
    

73. 73.Daeha Joung, Kriti Agarwal, Hyeong-Ryeol Park, Chao Liu, Sang-Hyun Oh, and Jeong-Hyun Cho
    

74. Self-Assembled Multifunctional Three-Dimensional Microdevices
    

75. Advanced Electronic Materials (2016) 2, 1500459.  Link
    

74. 74.Bharath Wootla, Jens O. Watzlawik, Nikolaos Stavropoulos, Nathan J. Wittenberg, Harika Dasari, Murtada A. Abdelrahim, John R. Henley, Sang-Hyun Oh, Arthur E. Warrington, and Moses Rodriguez
    

75. Recent Advances in Monoclonal Antibody Therapies for Multiple Sclerosis
    

76. Expert Opinion on Biological Therapy (Review) (2016) 16, 827-839.  Link
    

75. 75.Yong-Sang Ryu, Nathan J. Wittenberg, Jeng-Hun Suh, Sang-Wook Lee, Youngjoo Sohn, Sang-Hyun Oh, Atul N. Parikh, and Sin-Doo Lee
    

76. Continuity of Monolayer-Bilayer Junctions for Localization of Lipid Raft Microdomains in Model Membranes
    

77. Scientific Reports (2016) 6, 26823.  Link
    

76. 76.Joshua A. Jackman, Eric Linardy, Daehan Yoo, Jeongeun Seo, WeiBeng Ng, Daniel J. Klemme, Nathan J. Wittenberg, Sang-Hyun Oh, and Nam-Joon Cho
    

77. Plasmonic Nanohole Sensor for Capturing Single Virus-like Particles towards Virucidal Drug Evaluation
    

78. Small  (2016) 12, 1159-1166.  Link
    

79. 
    

2015

77. 77.Xiaoshu Chen, Cristian Ciracì, David R. Smith, and Sang-Hyun Oh
    

78. Nanogap-enhanced Infrared Spectroscopy with Template-stripped Wafer-scale Arrays of Buried Plasmonic Cavities
    

79. Nano Letters (2015) 15, 107-113.   Link
    

80. *News article by the Institute of Physics “Nanogaps enhance IR spectroscopy”   Link
    

78. 78.Daehan Yoo, Timothy W. Johnson, Sudhir Cherukulappurath, David J. Norris, and Sang-Hyun Oh
    

79. Template-stripped Tunable Plasmonic Devices on Stretchable and Rollable Substrates
    

80. ACS Nano  (2015) 9, 10647-10654.  Link
    

81. *Highlighted by the Institute of Physics website: Link
    

79. 79.Yong-Sang Ryu, Daehan Yoo, Nathan J. Wittenberg, Luke R. Jordan, Sin-Doo Lee, Atul N. Parikh, and Sang-Hyun Oh
    

80. Lipid Membrane Deformation Accompanied by Disk-to-Ring Shape Transition of Cholesterol-rich Domains
    

81. Journal of the American Chemical Society (JACS)  (2015)  137, 8692-8695.  Link
    

80. 80.Hyeong-Ryeol Park, Seon Namgung, Xiaoshu Chen, Nathan C. Lindquist, Vincenzo Giannini, Yan Francescato, Stefan A. Maier, and Sang-Hyun Oh
    

81. Perfect extinction of terahertz waves in monolayer graphene over 2-nm-wide metallic apertures
    

82. Advanced Optical Materials (2015) 3, 667-673.   Link
    

83. *Cover image    *Highlighted in Materials View: Link
    

84. *Selected for the Best of Advanced Optical Materials - 2015 edition   Link
    

81. 81.Hyeong-Ryeol Park, Xiaoshu Chen, Ngoc-Cuong Nguyen, Jaime Peraire, and Sang-Hyun Oh
    

82. Nanogap-enhanced Terahertz Sensing of 1-nm-thick (λ/1000000) Dielectric Films
    

83. ACS Photonics (2015) 2, 417-424.  Link
    

82. 82.Francesco Mazzotta, Timothy W. Johnson, Andreas B. Dahlin, Jonah Shaver, Sang-Hyun Oh, and Fredrik Höök
    

83. Influence of the evanescent field decay length on the sensitivity of plasmonic nanodisks and nanoholes
    

84. ACS Photonics (2015) 2, 256-262.  Link
    

83. 83.Shailabh Kumar, Gregory Wolken, Nathan J. Wittenberg, Edgar Arriaga, Sang-Hyun Oh
    

84. Nanohole Array-Directed Trapping of Mammalian Mitochondria Enabling Single Organelle Analysis
    

85. Analytical Chemistry (2015) 87, 11973-11977  Link
    

84. 84.Jasmine Sze, Shailabh Kumar, Aleksandar P. Ivanov, Sang-Hyun Oh, and Joshua Edel
    

85. Fine Tuning of Nanopipettes using Atomic Layer Deposition for Single Molecule Sensing
    

86. Analyst (2015) 140, 4828-4834.   Link
    

85. 85.Xiaohua Xu, Aleksandar Denic, Luke R. Jordan, Nathan J. Wittenberg, Arthur Warrington, Bharath Wootla, Louisa M. Papke, Laurie J. Zoecklein, Daehan Yoo, Jonah Shaver, Sang-Hyun Oh, Larry R. Pease, and Moses Rodriguez
    

86. A Natural Human IgM that Binds to Gangliosides is Therapeutic in Murine Models of Amyotrophic Lateral Sclerosis
    

87. Disease Models & Mechanisms (2015) 8, 831-842.  Link
    

86. 86.Bharath Wootla, Jens O. Watzlawik, Arthur E. Warrington, Nathan J. Wittenberg, Aleksandar Denic, Xiaohua Xu, Luke R. Jordan, Louisa M. Papke, Laurie J. Zoecklein, Mabel L. Pierce, Sang-Hyun Oh, Orhun H. Kantarci, and Moses Rodriguez
    

87. Naturally Occurring Monoclonal Antibodies and Their Therapeutic Potential for Neurologic Diseases
    

88. JAMA Neurology (2015) 72, 1346-1353.  Link
    

87. 87.Hyeong-Ryeol Park, Seon Namgung, Xiaoshu Chen, and Sang-Hyun Oh
    

88. High-density metallic nanogap arrays for sensitive detection of single-walled carbon nanotube thin films
    

89. Faraday Discussions (2015) 178, 195-201.  Link
    

88. 88.Sriharsha V. Jayanti, Jong Hyuk Park, Alexandr Dejneka, Dagmar Chvostova, Kevin M. McPeak, Xiaoshu Chen, Sang-Hyun Oh, David J. Norris
    

89. Low-temperature enhancement of plasmonic performance in silver films
    

90. Optical Materials Express (2015) 5, 1147-1155.  Link
    

89. 89.Juliane Junesch, Gustav Emilsson, Kunli Xiong, Marta Bally, Hudson Pace, Shailabh Kumar, Sang-Hyun Oh, Janos Vörös, and Andreas B. Dahlin
    

90. Location-Specific Nanoplasmonic Sensing of Biomolecular Binding to Lipid Membranes with Negative Curvature
    

91. Nanoscale (2015) 7, 15080-15085.  Link
    

90. 90.Lauren M. Otto, Daniel A. Mohr, Timothy W. Johnson, Sang-Hyun Oh, and Nathan C. Lindquist
    

91. Polarization interferometry for real-time spectroscopic plasmonic sensing
    

92. Nanoscale (2015) 7, 4226-4233.  Link
    

91. 91.Hyungrae Cha, Jeongkug Lee, Luke R. Jordan, Si Hoon Lee, Sang-Hyun Oh, Hyo Jin Kim, Juhun Park, Seunghun Hong, and Heonsu Jeon
    

92. Surface passivation of photonic crystal band-edge laser by atomic layer deposition of SiO2 and its application for biosensing
    

93. Nanoscale (2015) 7, 3565-3571.   Link
    

92. 92.Xiaohua Xu, Sher May Ng, Eamonn Hassouna, Arthur Warrington, Sang-Hyun Oh, and Moses Rodriguez
    

93. Human-derived natural antibodies: biomarkers and potential therapeutics
    

94. Future Neurology (2015) 10, 25-39  Link
    

2014

93. 93.Avijit Barik, Lauren M. Otto, DaeHan Yoo, Jincy Jose, Timothy W. Johnson, and Sang-Hyun Oh
    

94. Dielectrophoresis-enhanced plasmonic sensing with gold nanohole arrays
    

95. Nano Letters (2014) 14, 2006-2012  Link
    

94. 94.Yong-Sang Ryu, In-Ho Lee, Jeng-Hun Suh, Seung Chul Park, Soojung Oh, Luke R. Jordan, Nathan J. Wittenberg, Sang-Hyun Oh, Noo Li Jeon, Byoungho Lee, Atul N. Parikh, and Sin-Doo Lee
    

95. Reconstituting ring-rafts in bud-mimicking topography of model membranes
    

96. Nature Communications (2014) 5, 4507   Link
    

95. 95.Ryan Beams, Luiz Gustavo Cançado, Sang-Hyun Oh, Ado Jorio, and Lukas Novotny
    

96. Spatial coherence in near-field Raman scattering
    

97. Physical Review Letters (2014) 113, 186101  Link
    

96. 96.Jincy Jose, Stephan Kress, Avijit Barik, Lauren M. Otto, Jonah Shaver, Timothy W. Johnson, Zachary J. Lapin, Palash Bharadwaj, Lukas Novotny, and Sang-Hyun Oh
    

97. Individual template-stripped conductive gold pyramids for tip-enhanced dielectrophoresis
    

98. ACS Photonics (2014) 1, 464-470.   Link
    

97. 97.J. Britt Lassiter, Xiaoshu Chen, Xiaojun Liu, Cristian Ciracì, Thang B. Hoang, Stéphane Larouche, Sang-Hyun Oh, Maiken H. Mikkelsen, and David R. Smith
    

98. Third-harmonic generation enhancement by film-coupled plasmonic stripe resonators
    

99. ACS Photonics (2014) 1, 1212-1217   Link
    

98. 98.Xiaoshu Chen, Hyeong-Ryeol Park, Nathan C. Lindquist, Jonah Shaver, Matthew Pelton, and Sang-Hyun Oh
    

99. Squeezing millimeter waves through a single, nanometer-wide, centimeter-long slit
    

100. Scientific Reports (2014) 4, 6722   Link
     

99. 99.Shailabh Kumar, Sudhir Cherukulappurath, Timothy W. Johnson, and Sang-Hyun Oh
    

100. Millimeter-sized suspended plasmonic nanohole arrays for surface-tension-driven flow-through SERS
     

101. Chemistry of Materials (2014) 26, 6523-6530   Link
     

100. 100.Sudhir Cherukulappurath, Si Hoon Lee, Antonio Campos, Christy L. Haynes, Sang-Hyun Oh
     

101. Rapid and sensitive in situ SERS detection using dielectrophoresis
     

102. Chemistry of Materials (2014)  26, 2445-2452.  Link
     

101. 101.Cristian Ciracì, Xiaoshu Chen, Jack J. Mock, Felicia McGuire, Xiaojun Liu, Sang-Hyun Oh, and David R. Smith
     

102. Film-coupled nanoparticles by atomic layer deposition: comparison with organic spacing layers
     

103. Applied Physics Letters (2014) 104, 023109  Link
     

102. 102.Junshan Lin, Sang-Hyun Oh, Hoai-Minh Nguyen, and Fernando Reitich
     

103. Field enhancement and saturation of millimeter waves inside a metallic nanogap
     

104. Optics Express (2014) 22, 14402-14410  Link
     

103. 103.David P. Nicholls, Fernando Reitich, Timothy W. Johnson, and Sang-Hyun Oh
     

104. Fast high-order perturbation of surfaces (HOPS) methods for simulation of multi-layer plasmonic devices and metamaterials
     

105. Journal of the Optical Society of America A (2014) 31, 1820-1831.  Link
     

104. 104.Nathan J. Wittenberg, Timothy W. Johnson, Luke R. Jordan, Xiaohua Xu, Arthur E. Warrington, Moses Rodriguez, and Sang-Hyun Oh
     

105. Formation of biomembrane microarrays with a squeegee-based assembly method
     

106. Journal of Visualized Experiments (2014) e51501  doi:10.3791/51501  Video Link
     

105. 105.N. J. Wittenberg, B. Wootla, L. R. Jordan, A. Denic, A. E. Warrington, S.-H. Oh, M. Rodriguez
     

106. Applications of Surface Plasmon Resonance for Characterization of Molecules Important in the Pathogenesis and Treatment of Neurodegenerative Diseases
     

107. Expert Review of Neurotherapeutics (2014) 14, 449-463.  Link
     

106. 106.Hyungsoon Im and Sang-Hyun Oh
     

107. Oxidation sharpening, template stripping, and stabilization of ultra-sharp pyramidal tips
     

108. Small (2014) 10, 680-684.  Link
     

2013

107. 107.Xiaoshu Chen, Hyeong-Ryeol Park, Matthew Pelton, Xianji Piao, Nathan C. Lindquist, Hyungsoon Im, Yun Jung Kim, Jae Sung Ahn, Kwang Jun Ahn, Namkyoo Park, Dai-Sik Kim, and Sang-Hyun Oh
     

108. Atomic layer lithography of wafer-scale nanogap arrays for extreme confinement of electro-magnetic waves
     

109. Nature Communications (2013) 4, 2361  Link
     

110. *Featured image for Nature Communications:  Link  
     

111. University of Minnesota press release (Link),  DARPA website (Link)
     

112. Institute of Physics news story “Nanogaps intensify terahertz waves” (Link)
     

108. 108.Sudhir Cherukulappurath, Timothy W. Johnson, Nathan C. Lindquist, and Sang-Hyun Oh
     

109. Template-stripped asymmetric metallic pyramids for tunable plasmonic nanofocusing
     

110. Nano Letters (2013) 13, 5635-5641  Link
     

109. 109.Ryan Beams, Dallas Smith, Timothy W. Johnson, Sang-Hyun Oh, Lukas Novotny, Nick Vamivakas
     

110. Nanoscale fluorescence lifetime imaging with a single diamond NV center
     

111. Nano Letters (2013) 13, 3807-3811  Link
     

110. 110.Hyungsoon Im, Kyle C. Bantz, Si Hoon Lee, Timothy W. Johnson, Christy L. Haynes, Sang-Hyun Oh
     

111. Self-assembled plasmonic nanoring cavity arrays for SERS and LSPR biosensing
     

112. Advanced Materials (2013) 25, 2678-2685   Link   *Featured as a frontispiece article
     

111. 111.Jincy Jose, Luke R. Jordan, Timothy W. Johnson, Si Hoon Lee, Nathan J. Wittenberg, Sang-Hyun Oh
     

112. Topographically flat substrates with embedded nanoplasmonic devices for biosensing
     

113. Advanced Functional Materials (2013)  23, 2812-2820   Link    *Cover article
     

112. 112.Jong Hyuk Park, Prashant Nagpal, Kevin M. McPeak, Nathan C. Lindquist, Sang-Hyun Oh, and David J. Norris
     

113. Fabrication of smooth patterned structures of refractory metals, semiconductors, and oxides via template stripping
     

114. ACS Applied Materials & Interfaces (2013) 5, 9701-9708  Link
     

113. 113.Fernando Reitich, Timothy W. Johnson, Sang-Hyun Oh, and Gary Meyer
     

114. A fast and high-order accurate surface perturbation method for nanoplasmonic simulations: basic concepts, analytic continuation and applications
     

115. Journal of the Optical Society of America A (2013) 30, 2175-2187   Link
     

116. *Highlighted article in Spotlight on Optics   Link
     

114. 114.Xiaohua Xu, Nathan J. Wittenberg, Luke R. Jordan, Shailabh Kumar, Jens Watzlawik, Arthur Warrington, Sang-Hyun Oh, Moses Rodriguez
     

115. A patterned recombinant human IgM guides neurite outgrowth of CNS neurons
     

116. Scientific Reports (2013) 3, 2267  Link
     

115. 115.Nathan C. Lindquist, Timothy W. Johnson, Prashant Nagpal, David J. Norris, and Sang-Hyun Oh
     

116. Plasmonic nanofocusing with a metallic pyramid and an integrated C-shaped aperture
     

117. Scientific Reports (2013) 3, 1857  Link
     

116. 116.Shailabh Kumar, Nathan J. Wittenberg, and Sang-Hyun Oh
     

117. Nanopore-induced spontaneous concentration for optofluidic sensing and particle assembly
     

118. Analytical Chemistry (2013) 85, 971-977   Link
     

117. 117.Nathan C. Lindquist, Jincy Jose, Sudhir Cherukulappurath, Xiaoshu Chen, Timothy W. Johnson, and Sang-Hyun Oh
     

118. Tip-Based Plasmonics: Squeezing light with metallic nanoprobes
     

119. Laser & Photonics Reviews (2013) 7, 453-477   Link
     

118. 118.Andreas Dahlin, Nathan J. Wittenberg, Fredrik Höök, and Sang-Hyun Oh
     

119. Promises and challenges of nanoplasmonic devices for refractometric biosensing
     

120. Nanophotonics (2013) 2, 83-101    Link
     

119. 119.N. Joy, B. Janiszewski, S. Novak, T. W. Johnson, S.-H. Oh, A. Raghunathan, J. Hartley, and M. A. Carpenter
     

120. Thermal stability of gold nanorods for high-temperature plasmonic sensing
     

121. Journal of Physical Chemistry C (2013) 117, 11718-11724   Link
     

120. 120.A. Musbach, G. W. Meyer, F. Reitich, and S. H. Oh
     

121. Full Wave Modelling of Light Propagation and Reflection
     

122. Computer Graphics Forum (2013) 32, 24-37   Link
     

123. 
     

2012

121. 121.Timothy W. Johnson, Zachary J. Lapin, Ryan Beams, Nathan C. Lindquist, Sergio G. Rodrigo, Lukas Novotny, and Sang-Hyun Oh
     

122. Highly reproducible near-field optical imaging with sub-20-nm resolution based on template-stripped gold pyramids
     

123. ACS Nano (2012) 6, 9168-9174   Link   *Cover article
     

122. 122.Robert L. Olmon, Brian Slovick, Timothy W. Johnson, David Shelton, Sang-Hyun Oh, Glenn D. Boreman, and Markus B. Raschke
     

123. Optical dielectric function of gold
     

124. Physical Review B (2012) 86, 235147  Link
     

123. 123.Jong Hyuk Park, Palak Ambwani, Michael Manno, Nathan C. Lindquist, Prashant Nagpal, Sang-Hyun Oh, Chris Leighton, and David J. Norris
     

124. Single-crystalline silver films for plasmonics
     

125. Advanced Materials (2012)  24, 3988-3992  Link
     

124. 124.Si Hoon Lee, Timothy W. Johnson, Nathan C. Lindquist, Hyungsoon Im, David J. Norris, and Sang-Hyun Oh
     

125. Linewidth-optimized extraordinary optical transmission in water via template-stripped metallic nanohole arrays with tunable hole sizes
     

126. Advanced Functional Materials (2012) 22, 4439-4446  Link
     

125. 125.Nathan C. Lindquist, Timothy W. Johnson, Jincy Jose, Lauren M. Otto, and Sang-Hyun Oh
     

126. Ultrasmooth metallic films with buried nanostructures for backside reflection-mode plasmonic biosensing
     

127. Annalen der Physik (2012)  524, 687-696  Link   *Back Cover
     

126. 126.Nathan J. Wittenberg, Timothy W. Johnson, and Sang-Hyun Oh
     

127. High-density arrays of sub-micron spherical supported lipid bilayers
     

128. Analytical Chemistry (2012)  84, 8207-8213  Link
     

127. 127. Si Hoon Lee, Nathan C. Lindquist, Nathan J. Wittenberg, Luke R. Jordan, and Sang-Hyun Oh
     

128. Real-time full-spectral imaging and affinity measurements from 50 microfluidic channels using nanohole surface plasmon resonance
     

129. Lab on a Chip: Emerging Investigators Special Issue (2012) 12, 3882-3890  Link  *Back Cover
     

128. 128.Mustafa H. Chowdhury, Nathan C. Lindquist, Antoine Lesuffleur, Sang-Hyun Oh, Joseph R. Lakowicz, and Krishanu Ray
     

129. Effect of nanohole spacing on the self-imaging phenomenon created by the three-dimensional propagation of light through periodic nanohole arrays
     

130. Journal of Physical Chemistry C (2012)  116, 19958-19967  Link
     

129. 129.Nathan J. Wittenberg, Hyungsoon Im, Xiaohua Xu, Bharath Wootla, Jens Watzlawik, Arthur E. Warrington, Moses Rodriguez, and Sang-Hyun Oh
     

130. High-affinity binding of remyelinating natural autoantibodies to myelin-mimicking lipid bilayers revealed by nanohole surface plasmon resonance
     

131. Analytical Chemistry (2012)  84, 6031-6039  Link
     

130. 130.Nathan C. Lindquist, Prashant Nagpal, Kevin M. McPeak, David J. Norris, and Sang-Hyun Oh
     

131. Engineering metallic nanostructures for plasmonics and nanophotonics
     

132. Reports on Progress in Physics (2012) 75, 036501 (61 pp).  Link
     

131. 131.Jong Hyuk Park, Prashant Nagpal, Sang-Hyun Oh, and David J. Norris
     

132. Improved dielectric functions in metallic films obtained via template stripping
     

133. Applied Physics Letters (2012) 100, 081105.  Link
     

132. 132.Hyungsoon Im, Jamie N. Sutherland, Jennifer A. Maynard, and Sang-Hyun Oh
     

133. Nanohole-based SPR instruments with improved spectral resolution quantify a broad range of antibody-ligand binding kinetics
     

134. Analytical Chemistry  (2012) 84, 1941-1947.  Link
     

133. 133.Hyungsoon Im, Nathan J. Wittenberg, Nathan C. Lindquist and Sang-Hyun Oh
     

134. Atomic Layer Deposition (ALD): A versatile technique for plasmonics and biotechnology
     

135. Journal of Materials Research  (2012) 27, 663-671.  Link
     

2011

134. 134.Nathan C. Lindquist, Timothy W. Johnson, David J. Norris, and Sang-Hyun Oh
     

135. Monolithic integration of continuously tunable plasmonic nanostructures
     

136. Nano Letters (2011) 11, 3526-3530.   Link
     

137. *Highlighted on NanotechWeb from the Institutes of Physics: “Nanoscale copy, cut and paste”  Link
     

135. 135.Nathan J. Wittenberg, Hyungsoon Im, Timothy W. Johnson, Xiaohua Xu, Arthur E. Warrington, Moses Rodriguez and Sang-Hyun Oh
     

136. Facile assembly of micro- and nanoarrays for sensing with natural cell membranes
     

137. ACS Nano (2011) 5, 7555-7564.   Link
     

136. 136.Hyungsoon Im, Si Hoon Lee, Nathan J. Wittenberg, Timothy W. Johnson, Nathan C. Lindquist, Prashant Nagpal, David J. Norris, and Sang-Hyun Oh
     

137. Template-stripped smooth Ag nanohole arrays with silica shells for surface plasmon resonance biosensing
     

138. ACS Nano (2011) 5 (8), 6244-6253.  Link
     

139. *Highlighted on NanotechWeb from the Institutes of Physics: “Template stripping produces nanohole arrays”  Link
     

137. 137.Wade A. Luhman, Si Hoon Lee, Timothy W. Johnson, Russell J. Holmes, and Sang-Hyun Oh
     

138. Self-assembled plasmonic electrodes for high-performance organic photovoltaic cells
     

139. Applied Physics Letters (2011) 99, 103306.   PDF
     

138. 138.Kyle C. Bantz, Audrey F. Meyer, Nathan J. Wittenberg, Hyungsoon Im, Ozge Kurtulus, Si Hoon Lee, Nathan C. Lindquist, Sang-Hyun Oh and Christy L. Haynes
     

139. Recent Progress in SERS for Biosensing
     

140. Physical Chemistry Chemical Physics (PCCP) (2011) 13, 11551-11567. *Cover article Link
     

141. *Among top 25 most-read articles for Q2 2011 and top ten most-read articles in July 2011.
     

2010

139. 139.Hyungsoon Im, Kyle C. Bantz, Nathan C. Lindquist, Christy L. Haynes, and Sang-Hyun Oh
     

140. Vertically Oriented Sub-10 nm Plasmonic Nanogap Arrays
     

141. Nano Letters 10 (6), 2231-2236 (2010)   Link
     

142. Highlighted in Nature Photonics  Aug. 2010 issue   Link
     

140. 140. Nathan C. Lindquist, Prashant Nagpal, Antoine Lesuffleur, David J. Norris, and Sang-Hyun Oh
     

141. Three-Dimensional Plasmonic Nanofocusing
     

142. Nano Letters  10 (4) 1369-1373 (2010)   Link
     

141. 141.Hyungsoon Im, Nathan C. Lindquist, Antoine Lesuffleur and Sang-Hyun Oh
     

142. Atomic Layer Deposition of Dielectric Overlayers for Enhancing the Optical Properties and Chemical Stability of Plasmonic Nanoholes
     

143. ACS Nano  4 (2), pp. 947-954 (2010)   Link
     

142. 142.Hyungsoon Im, Nathan J. Wittenberg, Antoine Lesuffleur, Nathan C. Lindquist, Sang-Hyun Oh
     

143. Membrane protein biosensing with plasmonic nanopore arrays and pore-spanning lipid membranes
     

144. Chemical Science  (2010) 1, 688-696. *Cover article   Link
     

2009

143. 143.Prashant Nagpal, Nathan C. Lindquist, Sang-Hyun Oh, David J. Norris
     

144. Ultrasmooth Patterned Metals for Plasmonics and Metamaterials
     

145. Science 325, 594-597 (2009)   Link
     

146. *News in Physics World (Link), Discovery Channel (Link), Nature Photonics, Nature Nanotechnology, MIT Technology Review.
     

144. 144.Jennifer A. Maynard, Nathan C. Lindquist, Jamie N. Sutherland, Antoine Lesuffleur, Arthur E. Warrington, Moses Rodriguez and Sang-Hyun Oh
     

145. Surface plasmon resonance for high-throughput ligand screening of membrane-bound proteins
     

146. Biotechnology Journal  4 (11), pp. 1542-1558 (2009). *Cover Article   PDF
     

145. 145.Si Hoon Lee, Kyle C. Bantz, Nathan C. Lindquist, Sang-Hyun Oh, Christy L. Haynes
     

146. Self-assembled plasmonic nanohole arrays
     

147. Langmuir 25 (23), 13685-13693 (2009)   Link
     

146. 146.M. Mansuripur, A.R. Zakharian, A. Lesuffleur, Sang-Hyun Oh, R.J. Jones, N.C. Lindquist, Hyungsoon Im, A. Kobyakov, and J. V. Moloney
     

147. Plasmonic Nano-structures for Optical Data Storage
     

148. Optics Express  17, 14001-14014 (2009)    PDF
     

147. 147.Hyungsoon Im, Antoine Lesuffleur, Nathan C. Lindquist and Sang-Hyun Oh
     

148. Plasmonic nanoholes in a multichannel microarray format for parallel kinetic assays and differential sensing
     

149. Analytical Chemistry  81 (8), p. 2854 (2009)   PDF
     

148. 148. Nathan C. Lindquist, Antoine Lesuffleur, Hyungsoon Im, and Sang-Hyun Oh
     

149. Sub-micron resolution surface plasmon resonance imaging enabled by nanohole arrays with surrounding Bragg mirrors for enhanced sensitivity and isolation
     

150. Lab on a Chip 9, 382-387 (2009). *Cover article  PDF
     

151. Featured as a ‘Hot Article’; One of top 10 downloaded articles in Jan. 2009.
     

2008

149. 149.Nathan C. Lindquist, Wade A. Luhman, Sang-Hyun Oh, Russell J. Holmes
     

150. Plasmonic nanocavity arrays for enhanced efficiency in organic photovoltaic cells
     

151. Applied Physics Letters 93, 123308 (2008)  PDF
     

152. One of Top 20 Most Downloaded Articles in October 2008.
     

150. 150.Antoine Lesuffleur, Hyungsoon Im, Nathan C. Lindquist, Kwan Seop Lim, Sang-Hyun Oh
     

151. Plasmonic nanohole arrays for real-time multiplex biosensing
     

152. (Invited paper) Proceedings of SPIE  Vol. 7035, 703504 (2008)  PDF
     

151. 151.Antoine Lesuffleur, Hyungsoon Im, Nathan C. Lindquist, Kwan Seop Lim, Sang-Hyun Oh
     

152. Laser-illuminated nanohole arrays for multiplex plasmonic microarray sensing
     

153. Optics Express 16, No. 1, 219 (2008)  PDF
     

2007

152. 152.Nathan C. Lindquist, Antoine Lesuffleur, and Sang-Hyun Oh
     

153. Lateral confinement of surface plasmons and polarization-dependent optical transmission using nanohole arrays with a surrounding rectangular Bragg resonator
     

154. Applied Physics Letters 91, 253105 (2007)  PDF
     

153. 153. Nathan C. Lindquist, Antoine Lesuffleur, and Sang-Hyun Oh
     

154. Periodic modulation of extraordinary optical transmission through subwavelength hole arrays using surrounding Bragg mirrors
     

155. Physical Review B 76, 155109 (2007)  PDF
     

154. 154. Antoine Lesuffleur, Hyungsoon Im, Nathan C. Lindquist and Sang-Hyun Oh
     

155. Periodic nanohole arrays with shape-enhanced plasmon resonance as real-time biosensors
     

156. Applied Physics Letters 90, 243110 (2007)  PDF
     

Before independent career

155. 155. Sang-Hyun Oh, Sang-Ho Lee, Sophia A. Kenrick, Patrick S. Daugherty and H. T. Soh
     

156. Cell-based microfluidic protein sensor
     

157. Journal of Proteomic Research  5 (2006) 3433.
     

158. Highlighted in Lab on a Chip 7 (2007), p. 163  PDF
     

156. 156. Sang-Hyun Oh, Amarendra Singh, Paul H. Bessette, Sophia A. Kenrick, Jeffrey J. Rice, Jiangrong Qian, Patrick S. Daugherty, and H. T. Soh
     

157. Screening of molecular libraries using the continuous-flow micro-magnetic cell sorter
     

158. MicroTAS 2006 p. 975.
     

157. 157. D. K. Wood, S.-H. Oh, S.-H. Lee, H. T. Soh and A. N. Cleland
     

158. High-bandwidth radiofrequency Coulter counter
     

159. Applied Physics Letters  87, 184106 (2005)
     

158. 158. Sang-Hyun Oh and Dan M. Marom
     

159. Attenuation mechanism effect on filter shape in channelized dynamic spectral equalizers
     

160. Applied Optics  43, No. 1, p. 127 (2004)
     

159. 159.Dennis S. Greywall, Chien-Shing Pai, Sang-Hyun Oh, Chorng-Ping Chang, Dan M. Marom, Paul A. Busch, Raymond A. Cirelli, J. Ashley Taylor, Fred P. Klemens, Thomas W. Sorsch, John E. Bower, Warren Y.-C. Lai, Hyongsok T. Soh
     

160. Monolithic fringe-field-activated crystalline silicon tilting-mirror devices
     

161. IEEE Journal of Microelectromechanical Systems 12 (5) p. 702 (2003).
     

160. 160. D.M. Marom et al.
     

161. Wavelength-selective 1x4 switch for 128 WDM channels at 50 GHz spacing
     

162. Optical Fiber Communication Conference (OFC 2002) post-deadline paper FB-7.
     

161. 161. J.M. Hergenrother, Sang-Hyun Oh, T. Nigam, D. Monroe, F.P. Klemens and A. Kornblit
     

162. The Vertical Replacement-Gate (VRG) MOSFET
     

163. Solid-State Electronics  46 (7), 939-950 (2002).  PDF
     

162. 162. J. M. Hergenrother et al., 50 nm Vertical Replacement-Gate (VRG) nMOSFETs with ALD HfO2 and Al2O3 Gate Dielectrics
     

163. IEEE IEDM Tech. Digest  (2001)  Link
     

163. 163. Sang-Hyun Oh, J.M. Hergenrother, T. Nigam, D. Monroe, F.P. Klemens, A. Kornblit, W.M. Mansfield, M.R. Baker, D.L. Barr, F.H. Baumann, K.J. Bolan, T. Boone, N.A. Ciampa, R.A. Cirelli, D.J. Eaglesham, E.J. Ferry, A.T. Fiory, J. Frackoviak, J.P. Garno, H.J. Gossmann, J.L. Grazul, M.L. Green, S.J. Hillenius, R.W. Johnson, R.C. Keller, C.A. King, R.N. Kleiman, J.T-C. Lee, J.F. Miner, M.D. Morris, C.S. Rafferty, J.M. Rosamilia, K. Short, T.W. Sorsch, A.G. Timko, G.R. Weber, G.D. Wilk, and J.D. Plummer
     

164. 50-nm Vertical Replacement-Gate (VRG) pMOSFET
     

165. IEEE IEDM Tech. Digest  p. 65 (2000).  PDF
     

164. 164. Sang-Hyun Oh, Don Monroe, and J.M. Hergenrother
     

165. Analytic Description of Short-Channel Effects in Fully-Depleted Double-Gate and Cylindrical, Surrounding-Gate MOSFETs
     

166. IEEE Electron Device Letters  Vol. 21, p. 445, Sept. (2000)  PDF
     

165. 165. J. M. Hergenrother et al. The Vertical Replacement-Gate (VRG) MOSFET: a 50-nm vertical MOSFET with lithography-independent gate length
     

166. IEEE IEDM Tech. Digest doi: 10.1109/IEDM.1999.823850 (1999)  Link
     

Patents

1. 1. Sang-Hyun Oh, In-Ho Lee, Tony Low, “Graphene plasmon resonators,” US Patent App. 16/894,314, 2020 (pending)
   

2. 2.Nathan C. Lindquist, Wade A. Luhman, Russell J. Holmes, and Sang-Hyun Oh, “Plasmonic nanocavity devices and methods for enhanced efficiency in organic photovoltaic cells,” US20100206380 A1.
   

3. 3. David J. Norris, Sang Eon Han, Aditya Bhan, Prashant Nagpal, Nathan C. Lindquist, and Sang-Hyun Oh, “Replication of patterned thin-film structures for use in plasmonics and metamaterials,” PCT/US2009/006255
   

4. 4. Patrick S. Daugherty, Sang-Hyun Oh, and Hyongsok Soh “Screening Molecular Libraries Using Microfluidic Devices,” WO2008127292 A3.
   

5. 5. Sang-Hyun Oh, Amarendra Singh, Yanting Zhang, Dharmakirthi Nawarathna, Unyoung Kim, Patrick Daugherty, Hyongsok Soh, Brian Ferguson, “Microfluidic magnetophoretic device and methods for the same,” PCT/US2007/022105.
   

6. 6. P.S. Daugherty, H.T. Soh, S.-H. Oh, A. Singh, K. Nawarathna, and U. Kim, “Continuous Flow Microfluidic Magnetic Separation Device,” U.S. patent pending.
   

7. 7. Huajie Chen, Dureseti Chidambarrao, Sang-Hyun Oh, Siddhartha Panda, Werner A. Rausch, Tsutomu Sato, Henry K. Utomo, “Strained channel FET using sacrificial spacer,” PCT/US2005/034948.
   

8. 8. Huajie Chen, Dureseti Chidambarrao, Sang-Hyun Oh, Siddhartha Panda, Werner A. Rausch, Tsutomu Sato, Henry K. Utomo, “Structure and method for making strained channel field effect transistor using sacrificial spacer,” US patent #7135724.
   

9. 9. Huajie Chen, Dureseti Chidambarrao, Siddhartha Panda, Sang-Hyun Oh, Henry Utomo, and Werner Rausch, “In-Situ Doped Embedded SiGe Source/Drain for Enhanced pMOSFET Performance,” U.S. patent 7176481 B2.