Publications

1. Schlake, E.; Kandadai, N. Laser Sintering of Various Film Compositions Used in Flexible Hybrid Electronics. In Proceedings of the Laser-based Micro-and Nanoprocessing XVIII; SPIE, 2024; Vol. 12873, pp. 325–328.

2. Schlake, E.; Kandadai, N. Laser Sintering Direct Ink Write Silver Nanoflake Ink for On-Demand Manufacturing of Electronics in Space. IEEE Journal on Flexible Electronics 2024.

3. Kandadai, N.; Duryea, D. Nanoparticle-Embedded 2d Material 2024.

4. Duryea, D.; McKibben, N.; Manzi, J.; Brennan, T.; Subbaraman, H.; Estrada, D.; Kandadai, N. Titanium Dioxide Nanomaterial Ink Production Through Laser Ablation Synthesis in Solution for Printed Electronics Applications. Advanced Engineering Materials 2024, 26, 2400721.

5. Stout, D.; Kandadai, N.; Otanicar, T.P. Experimental and Numerical Investigation of Bimodal Particle Distributions for Enhanced Thermal Conductivity in Particle Based Concentrating Solar Power Applications. Solar Energy 2023, 263, 111992.

6. Stout, D.; Corona, J.; Kandadai, N.; Otanicar, T. BIMODAL PARTICLE MIXTURES FOR ENHANCED THERMAL CONDUCTIVITY IN PACKED BED ENERGY STORAGE APPLICATIONS. In Proceedings of the International Heat Transfer Conference Digital Library; Begel House Inc., 2023.

7. Schlake, E.; Corona, J.; Kandadai, N. Laser Sintering of Various Film Compositions Used in Flexible Printed Electronics. In Proceedings of the 2023 IEEE International Flexible Electronics Technology Conference (IFETC); IEEE, 2023; pp. 1–3.

8. Pearlman, M.; Lupercio, A.; Rektor, A.; Lamb, J.; Fleming, A.; Jaques, B.; Subbaraman, H.; Kandandai, N. Infrared Thermography Method to Detect Cracking of Nuclear Fuels in Real-Time. Nuclear Engineering and Design 2023, 405, 112196.

9. Manzi, J.; Varghese, T.; Dhamala, A.; Prakasan, L.; Eixenberger, J.; Kandadai, N.; Estrada, D.; Subbaraman, H. Plasma Jet Deposition and Self-Sintering of Gold Nanoparticle Ink for Flexible Electronics. In Proceedings of the 2023 IEEE International Flexible Electronics Technology Conference (IFETC); IEEE, 2023; pp. 1–3.

10. Manzi, J.; Kandadai, N.; Gandhiraman, R.P.; Subbaraman, H. Plasma Jet Printing: An Introduction. IEEE Transactions on Electron Devices 2023, 70, 1548–1553.

11. Duryea, D.Z.; Kandadai, N. Direct Synthesis of Printable 2D Material Inks Using LASiS. In Proceedings of the 2023 IEEE International Flexible Electronics Technology Conference (IFETC); IEEE, 2023; pp. 01–03.

12. Dhamala, A.; Manzi, J.; Subbaraman, H.; Kandadai, N.; others Determination of Wavelength Pairs for Electron Temperature Calculation Using Line Intensity Ratio Method in a Helium Atmospheric Pressure Plasma Jet. In Proceedings of the 2023 IEEE International Conference on Plasma Science (ICOPS); IEEE, 2023; pp. 608–608.

13. Corona, J.; Stout, D.; Otanicar, T.; Kandadai, N. An Application of Modulated Photothermal Radiometry for Numerical Thermal Analysis of Complex Materials. In Proceedings of the International Heat Transfer Conference Digital Library; Begel House Inc., 2023.

14. Corona, J.; Kandadai, N. Thermal Conductivity of Printed Thin Metals Using Modulated Photothermal Radiometry. In Proceedings of the 2023 IEEE International Flexible Electronics Technology Conference (IFETC); IEEE, 2023; pp. 1–3.

15. Corona, J.; Kandadai, N. Recent Progress in Modulated Photothermal Radiometry. Sensors 2023, 23, 4935.

16. Subbaraman, H.; Rana, S.; Kandadai, N. Reflective Long Period Grating 2022.

17. Subbaraman, H.; Rana, S.; Kandadai, N. Reflective Long Period Grating; Idaho National Laboratory (INL), Idaho Falls, ID (United States), 2022;

18. Stout, D.; Otanicar, T.; Kandadai, N. Improved Particle Heat Transfer by Way of Bimodal Particle Distributions for High Temperature Solar Thermal Energy. In Proceedings of the SolarPACES Conference Proceedings; 2022; Vol. 1.

19. Rana, S.; Kandadai, N.; Subbaraman, H. Experimental Validation of a Reflective Long Period Grating Design Methodology. Results in Optics 2022, 7, 100224.

20. Rana, S.; Fleming, A.; Subbaraman, H.; Kandadai, N. Real-Time Measurement of Parametric Influences on the Refractive Index and Length Changes in Silica Optical Fibers. Optics Express 2022, 30, 15659–15668.

21. Rana, S.; Fleming, A.; Subbaraman, H.; Kandadai, N. Differently Structured Fabry-Perot Interferometers for Gas Pressure Monitoring. IEEE Sensors Journal 2022, 22, 14102–14108.

22. Rana, S.; Fleming, A.D. Measurement of Macroscopic Radiation-Induced Changes in Optical Fiber; Idaho National Lab.(INL), Idaho Falls, ID (United States), 2022;

23. Rana, S. Understanding the Radiation Effects on Fiber Optic Sensors. PhD Thesis, Boise State University, 2022.

24. Hill, C.; Ledbetter, F. Space Technology Mission Directorate-Game Changing Development Program: FY22 ODME Annual Review Presentation. In Proceedings of the GCD Annual Meeting; 2022.

25. Duryea, D.; Poudrier, T.; Kandadai, N. Refractive Index Modulation of Novel Mid-Infrared Fibers Using Ultrafast Laser Ablation. In Proceedings of the Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications XVI; SPIE, 2022; Vol. 12229, pp. 15–20.

26. Duryea, D.; Kandadai, N. Laser-Induced Galfenol Embedded Multi-Layer Graphene-Oxide in Solution. AIP Advances 2022, 12.

27. Dhamala, A.; Kandadai, N. Simulation of 2D Model of a Novel Microplasma Used for Printed Flexible Hybrid Electronics. In Proceedings of the 2022 IEEE International Conference on Plasma Science (ICOPS); IEEE, 2022; pp. 1–1.

28. Corona, J.; Stout, D.; Otanicar, T.; Kandadai, N. Characterizing Particle-Based Thermal Storage Performance Using Optical Methods for Use in next Generation Concentrating Solar Power Plants. In Proceedings of the Nonimaging Optics: Efficient Design for Illumination and Solar Concentration XVIII; SPIE, 2022; Vol. 12220, pp. 65–70.

29. Rana, S.; Subbaraman, H.; Fleming, A.; Kandadai, N. Numerical Analysis of Radiation Effects on Fiber Optic Sensors. Sensors 2021, 21, 4111.

30. Rana, S.; Kandadai, N.; Subbaraman, H. Reflective Long Period Grating Based Temperature Sensor. In Proceedings of the Optical Components and Materials XVIII; SPIE, 2021; Vol. 11682, pp. 180–185.

31. Rana, S.; Kandadai, N.; Subbaraman, H. Reflective Long Period Grating Based Refractive Index Sensor. In Proceedings of the 2021 IEEE Photonics Conference (IPC); IEEE, 2021; pp. 1–2.

32. Rana, S.; Fleming, A.; Kandadai, N.; Subbaraman, H. Active Compensation of Radiation Effects on Optical Fibers for Sensing Applications. Sensors 2021, 21, 8193.

33. Dhamala, A.S.; Manzi, J.; Subbaraman, H.; Kandadai, N. Simulation of 2D Model of Dielectric Barrier Discharge for Flexible Hybrid Electronics. In Proceedings of the 2021 IEEE International Conference on Plasma Science (ICOPS); IEEE, 2021; pp. 1–1.

34. Badamchi, B. Design and Development of Optical Waveguide Architectures for Real-Time Temperature Monitoring in Extreme Environments. PhD Thesis, Boise State University, 2021.

35. Abdel Ghaffar, A.; Abdelmonem, Y.; Majid, A.; Aghjeh, M.R.; Agrawal, A.; Ahmad, A.; Akhter, S.; Alhathal Alanezi, A.; Ali, I.; Al-Kalali, N.A.; et al. Reviewer Acknowledgement Journal of Polymer. J Polym Eng 2021, 41, 83–85.

36. Unruh, T. In-Pile Instrumentation (I2)(2018 Report); Idaho National Lab.(INL), Idaho Falls, ID (United States), 2020;

37. Rana, S.; Kandadai, N.; Subbaraman, H. Towards the Design of a Wideband Reflective Long Period Grating Distributed Sensor. Journal of Physics Communications 2020, 4, 065015.

38. Rana, S.; Badamchi, B.; Subbaraman, H.; Kandadai, N. A Simple and Cost-Effective Metal Coating Method for Reflective Long Period Grating Sensors. In Proceedings of the Infrared Sensors, Devices, and Applications X; SPIE, 2020; Vol. 11503, pp. 82–87.

39. Huff, J.S.; Davis, P.H.; Christy, A.; Kellis, D.L.; Kandadai, N.; Yurke, B.; Knowlton, W.B.; Pensack, R.D. Optical Properties and Nonradiative Decay in Solutions of DNA-Templated Dye Aggregates. In Proceedings of the 17th Annual Conference on Foundations of Nanoscience: Self-Assembled Architectures and Devices, FNANO 2020; 2020.

40. Huff, J.S.; Davis, P.H.; Christy, A.; Kellis, D.L.; Kandadai, N.; Toa, Z.S.; Scholes, G.D.; Yurke, B.; Knowlton, W.B.; Pensack, R.D. DNA-Templated, Strongly-Coupled Cyanine Dye Aggregates: Nonradiative Decay Governs Exciton Lifetimes. In Proceedings of the 17th Annual Conference on Foundations of Nanoscience: Self-Assembled Architectures and Devices, FNANO 2020; 2020.

41. Guidara, N.; Lamb, J.; Pearlman, M.; Rektor, A.; Kandadai, N. Biomedical Applications of Near-Infrared Thermography. 2020.

42. Subbaraman, H.; Hua, Z. Resolution Limits of Near IR and IR Thermography Applied to Imaging Thermal Heterogeneities in Nuclear Fuel Surrogate Materials; Idaho National Lab.(INL), Idaho Falls, ID (United States), 2019;

43. Rivera, A.E.; Rana, S.; Badamchi, B.; others Ellipsometry Measurement of Novel Optical Materials. 2019.

44. Rana, S.; Subbaranman, H.; Kandadai, N.; McCary, K.M.; Fleming, A.D.; Daw, J.E. Out-of-Pile Testing of Radiation Hard Optical Fibers; Idaho National Lab.(INL), Idaho Falls, ID (United States); Boise State Univ …, 2019;

45. Rana, S.; Subbaraman, H.; Kandadai, N. Role of Metal Coating Parameters on the Reflective Long Period Grating Spectrum. In Proceedings of the Optics and Photonics for Sensing the Environment; Optica Publishing Group, 2019; pp. ETh1A-5.

46. Rana, S.; Subbaraman, H.; Kandadai, N. Fiber Optic Sensors for Real Time Temperature Monitoring in Harsh Environments. 2019.

47. Rana, S.; Badamchi, B.; Joshi, B.; Daw, J.; Calderoni, P.; Smith, J.; Subbaraman, H.; Kandadai, N. Towards a Time Stable Fiber Optic Sensors for Harsh Environments. In Proceedings of the 11th Nuclear Plant Instrumentation, Control, and Human-Machine Interface Technologies, NPIC and HMIT 2019; American Nuclear Society, 2019; pp. 581–587.

48. Kramer, K.; Carlson, J.; McCarver, J.; Ravenscroft, C.; Croteau, A.; White, A.; Kennedy, Z.; Kandadai, N.; Estrada, D.; Plumlee, D.; et al. Understanding the Effects of Plasma Parameters on Plasma-Jet Printed Material Films. 2019.

49. Huff, J.S.; Davis, P.H.; Christy, A.; Kellis, D.L.; Kandadai, N.; Toa, Z.S.; Scholes, G.D.; Yurke, B.; Knowlton, W.B.; Pensack, R.D. DNA-Templated Aggregates of Strongly Coupled Cyanine Dyes: Nonradiative Decay Governs Exciton Lifetimes. The journal of physical chemistry letters 2019, 10, 2386–2392.

50. Da Silver, T.H.; Butler, D.; Biaggne, A.; Kandadai, N.; Subbaraman, H.; Daw, J.; Li, L. First-Principles Studies of Dopant and Radiation Defect Effects on Optical Fiber Sensors. In Proceedings of the 11th Nuclear Plant Instrumentation, Control, and Human-Machine Interface Technologies, NPIC and HMIT 2019; American Nuclear Society, 2019; pp. 448–458.

51. Badamchi, B.; Kandadai, N.; Simon, A.; Mitkova, M.; Subbaraman, H. A Novel High Temperature Optical Waveguide Sensor for Nuclear Reactors. 2019.

52. Agarwal, K. Infrared Thermography for In-Pile Imaging of Nuclear Fuel Cracking. Master’s Thesis, The Ohio State University, 2019.

53. Wilson, B.A.; Rana, S.; Subbaraman, H.; Kandadai, N.; Blue, T.E. Modeling of the Creation of an Internal Cladding in Sapphire Optical Fiber Using the 6 Li (n, α) 3 H Reaction. Journal of Lightwave Technology 2018, 36, 5381–5387.

54. Rana, S.; Kandadai, N.; Subbaraman, H. A Highly Sensitive, Polarization Maintaining Photonic Crystal Fiber Sensor Operating in the THz Regime. In Proceedings of the Photonics; MDPI, 2018; Vol. 5, p. 40.

55. Daw, J.; Calderoni, P.; Smith, J.; Fleming, A.; Kandadai, N.; Subbaraman, H.; Li, L. Radiation Tolerant Optical Fibers and Sensors: FY 2018 Report. Idaho National Laboratory, INL/EXT-18-51463 2018.

56. Badamchi, B.; Kandadai, N.; Ahmed Simon, A.-A.; Mitkova, M.; Subbaraman, H. A Novel High Temperature Sensor Architecture for Harsh Environments. 2018.

57. Hurley, D.; Jensen, C.; Schley, R.; Khafizov, M.; Kandadai, N.; Long, M.; Subbaraman, H. FY17 Status Report for the Development of Infrared Thermography for In-Pile Fuel Behavior Applications; Idaho National Lab.(INL), Idaho Falls, ID (United States), 2017;

58. Hurley, D.; Hallbert, B.; Calderoni, P. In-Pile Instrumentation Initiative: A Multidisciplinary Scientific Approach for Characterization of Fuels and Materials; Idaho National Lab.(INL), Idaho Falls, ID (United States), 2017;

59. Ditmire, T. High Intensity Femtosecond XUV Pulse Interactions with Atomic Clusters; Univ. of Texas, Austin, TX (United States). Center for High Energy Density …, 2016;

60. Wang, C.; Wagner, C.; Dyer, G.; Gaul, E.; Kandadai, N.; Riley, N.; Kuk, D.; McCary, E.; Meadows, A.; Pomerantz, I.; et al. Full-Aperture Backscatter Diagnostics and Applications at the Texas Petawatt Laser Facility. Chinese Optics Letters 2014, 12.

61. Kuk, D. Experimental Studies of Laser Driven Proton Acceleration from Ultrashort and Highly Intense Laser Pulse Interaction with Overdense Plasma. PhD Thesis, 2014.

62. Gaul, E.; Kandadai, N.; Dyer, G.; Borger, T.; Martinez, M.; Spinks, M.; Donovan, M.; Ditmire, T. Pulse Contrast Measurements of the Texas Petawatt Laser. In Proceedings of the High Intensity Lasers and High Field Phenomena; Optica Publishing Group, 2014; pp. JW2A-23.

63. Timneanu, N.; Iwan, B.; Andreasson, J.; Bergh, M.; Seibert, M.; Bostedt, C.; Schorb, S.; Thomas, H.; Rupp, D.; Gorkhover, T.; et al. Fragmentation of Clusters and Recombination Induced by Intense and Ultrashort X-Ray Laser Pulses. In Proceedings of the Damage to VUV, EUV, and X-ray Optics IV; and EUV and X-ray Optics: Synergy between Laboratory and Space III; SPIE, 2013; Vol. 8777, pp. 112–119.

64. Thomas, H.; Helal, A.; Hoffmann, K.; Kandadai, N.; Keto, J.; Andreasson, J.; Iwan, B.; Seibert, M.; Timneanu, N.; Hajdu, J.; et al. Explosions of Xenon Clusters in Ultraintense Femtosecond X-Ray Pulses<? Format?> from the LCLS Free Electron Laser. Physical review letters 2012, 108, 133401.

65. Kandadai, N.K. Interaction of Clusters with Ultra Short X-Ray Free Electron Laser Pulses. 2012.

66. Kandadai, N.; Hoffmann, K.; Thomas, H.; Helal, A.; Keto, J.; Ditmire, T.; Iwan, B.; Timneanu, N.; Andreasson, J.; Seibert, M.; et al. Explosions of Methane Clusters Driven by Intense X-Ray FEL Pulses. In Proceedings of the Quantum Electronics and Laser Science Conference; Optica Publishing Group, 2011; p. QTuC2.

67. Hoffmann, K.; Murphy, B.; Kandadai, N.; Erk, B.; Helal, A.; Keto, J.; Ditmire, T. Rare-Gas-Cluster Explosions under Irradiation by Intense Short XUV Pulses. Physical Review A—Atomic, Molecular, and Optical Physics 2011, 83, 043203.

68. Hoffmann, K.; Kandadai, N.; Thomas, H.; Helal, A.; Keto, J.; Ditmire, T.; Iwan, B.; Timneanu, N.; Andreasson, J.; Seibert, M.; et al. Explosions of Xenon Doped Methane Clusters in Intense X-Ray FEL Pulses. In Proceedings of the Quantum Electronics and Laser Science Conference; Optica Publishing Group, 2011; p. JThB45.

69. Erk, B.; Hoffmann, K.; Kandadai, N.; Helal, A.; Keto, J.; Ditmire, T. Observation of Shells in Coulomb Explosions of Rare-Gas Clusters. Physical Review A—Atomic, Molecular, and Optical Physics 2011, 83, 043201.

70. Hoffmann, K.; Murphy, B.; Erk, B.; Helal, A.; Kandadai, N.; Keto, J.; Ditmire, T. High Intensity Femtosecond XUV Pulse Interactions with Atomic Clusters. High Energy Density Physics 2010, 6, 185–189.

71. Hoffmann, K.; Kandadai, N.; Thomas, H.; Helal, A.; Keto, J.; Ditmire, T.; Iwan, B.; Timneanu, N.; Andreasson, J.; Seibert, M.; et al. LASERS AND ELECTRO-OPTICS/QUANTUM ELECTRONICS AND LASER SCIENCE CONFERENCE: 2010 LASER SCIENCE TO PHOTONIC APPLICATIONS, CLEO/QELS 2010. 2010.

72. Hoffmann, K.; Kandadai, N.; Thomas, H.; Helal, A.; Keto, J.; Ditmire, T.; Iwan, B.; Timneanu, N.; Andreasson, J.; Seibert, M.; et al. Explosions of Clusters in Intense X-Ray Pulses. In Proceedings of the CLEO/QELS: 2010 Laser Science to Photonic Applications; IEEE, 2010; pp. 1–2.

73. Kandadai, N.K. Converting a Low Pressure Plasma Etch Process in DLP® to a High Pressure Plasma Etch Process. PhD Thesis, University of Texas at Austin, 2008.

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