Emerging Materials for Nanophotonics and Plasmonics: Roads Ahead

By Alexandra Boltasseva

Electrical and Computer Engineering, Purdue University, West Lafayette, IN

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Abstract

The fields of nanophotonics and plasmonics have taught us unprecedented ways to control the flow light at the nanometer scale, unfolding new optical phenomena and redefining centuries-old optical elements. As we continue to transfer the recent advances into applications, the development of new material platforms has become one of the centerpieces in the field of nanophotonics. In this presentation, I will discuss emerging material platforms including transparent conducting oxides, transition metal nitrides, oxides and carbides as well as two- and quasi-two-dimensional materials for future practical optical components across the fields of on-chip optics and optoelectronics, sensing, spectroscopy and energy conversion.

Bio

Alexandra Boltasseva Alexandra Boltasseva is a Professor at the School of Electrical & Computer Engineering and Birck Nanotechnology Center, Purdue University. She received her PhD in electrical engineering at Technical University of Denmark, DTU in 2004. Boltasseva specializes in nanophotonics, nanofabrication, optical materials, plasmonics and metamaterials. She is 2018 Blavatnik National Award for Young Scientist Finalist, and received the 2013 IEEE Photonics Society Young Investigator Award, 2013 Materials Research Society (MRS) Outstanding Young Investigator Award, the MIT Technology Review Top Young Innovator (TR35) award that "honors 35 innovators under 35 each year whose work promises to change the world", the Purdue College of Engineering Early Career Research Award, the Young Researcher Award in Advanced Optical Technologies from the University of Erlangen-Nuremberg, Germany, and the Young Elite-Researcher Award from the Danish Council for Independent Research. She is a Fellow of the Optical Society of America (OSA) and SPIE. Alexandra authored more than 130 journal articles with a total number of citations above 11000. She served on MRS Board of Directors and is Editor-in-Chief for OSA’s Optical Materials Express.

Sponsored by

Materials Engineering MSE 690 Graduate Seminar Series

Cite this work

Researchers should cite this work as follows:

  • Alexandra Boltasseva (2018), "Emerging Materials for Nanophotonics and Plasmonics: Roads Ahead," https://nanohub.org/resources/29114.

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Time

Location

1010 Armstrong, Purdue University, West Lafayette, IN

Tags

  1. nanophotonics
  2. NCN Group - Photonics
  3. optical properties
  4. optoelectronics
  5. photonics
  6. plasmonics
  7. sensors/sensing
  8. Spectroscopy
Emerging Materials for Nanophotonics and Plasmonics: Roads Ahead
  • Emerging Materials for Nanophotonics and Plasmonics: Roads Ahead 1. Emerging Materials for Nanopho… 0
    00:00/00:00
  • OUTLINE 2. OUTLINE 68.0347013680347
    00:00/00:00
  • BASIC LAWS OF OPTICS 3. BASIC LAWS OF OPTICS 192.02535869202538
    00:00/00:00
  • PLASMONICS/NANOPHOTONICS 4. PLASMONICS/NANOPHOTONICS 358.49182515849185
    00:00/00:00
  • POTENTIAL TECHNOLOGY IMPACT 5. POTENTIAL TECHNOLOGY IMPACT 763.063063063063
    00:00/00:00
  • PLASMONICS & LOSS 6. PLASMONICS & LOSS 811.47814481147816
    00:00/00:00
  • LOSS CAN BE USEFUL! 7. LOSS CAN BE USEFUL! 870.970970970971
    00:00/00:00
  • PLASMONICS FOR HYBRID ON-CHIP CIRCUITRY 8. PLASMONICS FOR HYBRID ON-CHIP … 910.14347681014351
    00:00/00:00
  • PLASMONICS FOR HYBRID ON-CHIP CIRCUITRY 9. PLASMONICS FOR HYBRID ON-CHIP … 1032.3990657323991
    00:00/00:00
  • PLASMONIC NANOTWEEZERS 10. PLASMONIC NANOTWEEZERS 1061.5281948615282
    00:00/00:00
  • FROM SOLAR STEAM TO WATER SPLITTING 11. FROM SOLAR STEAM TO WATER SPLI… 1184.1841841841842
    00:00/00:00
  • MATERIALS BUILDING BLOCKS 12. MATERIALS BUILDING BLOCKS 1267.867867867868
    00:00/00:00
  • OUTLINE 13. OUTLINE 1388.7554220887555
    00:00/00:00
  • PLASMONIC MATERIALS RESEARCH 14. PLASMONIC MATERIALS RESEARCH 1397.2305638972307
    00:00/00:00
  • METALS TO 'LESS-METALS' 15. METALS TO 'LESS-METALS' 1451.851851851852
    00:00/00:00
  • OUTLINE 16. OUTLINE 1527.2605939272607
    00:00/00:00
  • TITANIUM NITRIDE 17. TITANIUM NITRIDE 1531.8318318318318
    00:00/00:00
  • TMNs HIGHLIGHTS/RESULTS 18. TMNs HIGHLIGHTS/RESULTS 1569.9032365699034
    00:00/00:00
  • POTENTIAL OF PLASMONIC CERAMIC MATERIALS 19. POTENTIAL OF PLASMONIC CERAMIC… 1658.8588588588589
    00:00/00:00
  • Photonic Spin Hall Effect in TiN Metasurface 20. Photonic Spin Hall Effect in T… 1712.7460794127462
    00:00/00:00
  • PLASMON-ENHANCED WATER SPLITTING 21. PLASMON-ENHANCED WATER SPLITTI… 1715.2152152152153
    00:00/00:00
  • THERMOPLASMONIC TiN NANOFURNACE 22. THERMOPLASMONIC TiN NANOFURNAC… 1758.7253920587255
    00:00/00:00
  • Biomimetic TiN as Broadband Absorbers 23. Biomimetic TiN as Broadband Ab… 1819.1524858191526
    00:00/00:00
  • OUTLINE 24. OUTLINE 1863.7637637637638
    00:00/00:00
  • APPROACHES TO SWITCHING/TUNING 25. APPROACHES TO SWITCHING/TUNING 1876.3763763763764
    00:00/00:00
  • GRAPHENE AS TUNABLE PLATFROM 26. GRAPHENE AS TUNABLE PLATFROM 1911.644978311645
    00:00/00:00
  • TCOs AS DYNAMIC MATERIALS 27. TCOs AS DYNAMIC MATERIALS 1984.884884884885
    00:00/00:00
  • ULTRAFAST NONLINEARITIES 28. ULTRAFAST NONLINEARITIES 2051.117784451118
    00:00/00:00
  • ENZ ENHANCED NONLINERITIES 29. ENZ ENHANCED NONLINERITIES 2091.1911911911911
    00:00/00:00
  • TCO HIGHLIGHTS/RESULTS 30. TCO HIGHLIGHTS/RESULTS 2157.023690357024
    00:00/00:00
  • OUTLINE 31. OUTLINE 2185.5522188855525
    00:00/00:00
  • TUNING THE PROPERTIES OF METALS? 32. TUNING THE PROPERTIES OF METAL… 2208.2749416082752
    00:00/00:00
  • ULTRA-THIN PLASMONIC FILMS 33. ULTRA-THIN PLASMONIC FILMS 2268.6686686686689
    00:00/00:00
  • QUANTUM CONFINEMENT ENHANCED NONLINEARITIES 34. QUANTUM CONFINEMENT ENHANCED N… 2327.1271271271271
    00:00/00:00
  • PLASMONIC ULTRATHIN TiN FILMS 35. PLASMONIC ULTRATHIN TiN FILMS 2328.2949616282949
    00:00/00:00
  • OPTICAL PROPERTIES OF ULTRATHIN TiN 36. OPTICAL PROPERTIES OF ULTRATHI… 2336.3697030363696
    00:00/00:00
  • CONFINEMENT FACTOR CALCULATIONS 37. CONFINEMENT FACTOR CALCULATION… 2345.7457457457458
    00:00/00:00
  • EFFECT ON PLASMA FREQUENCY 38. EFFECT ON PLASMA FREQUENCY 2364.9983316649982
    00:00/00:00
  • ULTRATHIN TiN: TUNABLE METAL?! 39. ULTRATHIN TiN: TUNABLE METAL?! 2366.966966966967
    00:00/00:00
  • OUTLINE 40. OUTLINE 2378.9789789789793
    00:00/00:00
  • MAX Phases 41. MAX Phases 2382.7494160827496
    00:00/00:00
  • MAX/MXenes 42. MAX/MXenes 2438.7387387387389
    00:00/00:00
  • Ti3C2Tx MXene thin FILMS 43. Ti3C2Tx MXene thin FILMS 2487.7877877877877
    00:00/00:00
  • MXene BROADBAND ABSORBER 44. MXene BROADBAND ABSORBER 2520.3536870203538
    00:00/00:00
  • MXenes FOR RANDOM LASING 45. MXenes FOR RANDOM LASING 2563.6636636636636
    00:00/00:00
  • OUTLINE 46. OUTLINE 2643.8104771438107
    00:00/00:00
  • SWITCHABLE/DURABLE/FLEXIBLE PHOTONICS 47. SWITCHABLE/DURABLE/FLEXIBLE PH… 2648.5151818485151
    00:00/00:00
  • TEAM AND SUPPORT 48. TEAM AND SUPPORT 2725.0917584250919
    00:00/00:00
  • TEAM AND SUPPORT 49. TEAM AND SUPPORT 2729.7630964297632
    00:00/00:00
  • SWITCHABLE/DURABLE/FLEXIBLE PHOTONICS 50. SWITCHABLE/DURABLE/FLEXIBLE PH… 2740.9409409409409
    00:00/00:00
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