Showing 50 publications by Stephen Morris
Stable photoinduced metal-organic nanosheet blue phosphor for white light emission
Sherman DA, Kamal W, Elston SJ, Castrejón-Pita AA, Morris SM et al. (2024), Materials Today Chemistry, 38, 102089-102089
BibTeX
@article{stablephotoindu-2024/6,
title={Stable photoinduced metal-organic nanosheet blue phosphor for white light emission},
author={Sherman DA, Kamal W, Elston SJ, Castrejón-Pita AA, Morris SM et al.},
journal={Materials Today Chemistry},
volume={38},
number={102089},
pages={102089-102089},
publisher={Elsevier BV},
year = "2024"
}
Ultrafast laser-writing of liquid crystal waveguides
Chen B, Xie P, Zhao Z, Salter PS, Li M et al. (2024), Ultrafast Science
BibTeX
@article{ultrafastlaserw-2024/6,
title={Ultrafast laser-writing of liquid crystal waveguides},
author={Chen B, Xie P, Zhao Z, Salter PS, Li M et al.},
journal={Ultrafast Science},
publisher={American Association for the Advancement of Science},
year = "2024"
}
Optimization of single-mode sapphire waveguide Bragg gratings
Wang M, Salter PS, Payne F, Liu T, Shipley A et al. (2024), Journal of Lightwave Technology, 1-10
BibTeX
@article{optimizationofs-2024/5,
title={Optimization of single-mode sapphire waveguide Bragg gratings},
author={Wang M, Salter PS, Payne F, Liu T, Shipley A et al.},
journal={Journal of Lightwave Technology},
pages={1-10},
publisher={IEEE},
year = "2024"
}
Continuously tuneable single electrode pair liquid crystal optical vortex generators
Nourshagh C, Xu A, Salter PS, Booth MJ, Elston SJ et al. (2024), Nanophotonics
BibTeX
@article{continuouslytun-2024/4,
title={Continuously tuneable single electrode pair liquid crystal optical vortex generators},
author={Nourshagh C, Xu A, Salter PS, Booth MJ, Elston SJ et al.},
journal={Nanophotonics},
publisher={De Gruyter},
year = "2024"
}
Modal phase modulators based on liquid crystals with 3D-printed polymer microstructures: increasing size and complexity
Xu A, Nourshargh C, Salter P, Elston S, Morris S et al. (2024), Photonics, 11(3)
BibTeX
@article{modalphasemodul-2024/3,
title={Modal phase modulators based on liquid crystals with 3D-printed polymer microstructures: increasing size and complexity},
author={Xu A, Nourshargh C, Salter P, Elston S, Morris S et al.},
journal={Photonics},
volume={11},
number={266},
publisher={MDPI},
year = "2024"
}
Speckle reduction in interferometry using tuneable liquid crystal diffusers
Pathak B, Spiller N, Elston SJ, Booth MJ & Morris SM (2024), 44
BibTeX
@inproceedings{specklereductio-2024/3,
title={Speckle reduction in interferometry using tuneable liquid crystal diffusers},
author={Pathak B, Spiller N, Elston SJ, Booth MJ & Morris SM},
booktitle={Emerging Liquid Crystal Technologies XIX},
pages={44},
year = "2024"
}
Shack–Hartmann wavefront sensing using printed liquid crystal microlens arrays
Pathak B, Kamal W, Elston SJ, Castrejón-Pita AA, Booth MJ et al. (2024), 29
BibTeX
@inproceedings{shackhartmannwa-2024/3,
title={Shack–Hartmann wavefront sensing using printed liquid crystal microlens arrays},
author={Pathak B, Kamal W, Elston SJ, Castrejón-Pita AA, Booth MJ et al.},
booktitle={Emerging Liquid Crystal Technologies XIX},
pages={29},
year = "2024"
}
Large laser written liquid crystal devices for spherical aberration correction
Xu A, Nourshargh C, Salter PS, Elston SJ, Morris SM et al. (2024), Proceedings of SPIE--the International Society for Optical Engineering, 12907, 129070f-129070f-6
BibTeX
@inproceedings{largelaserwritt-2024/3,
title={Large laser written liquid crystal devices for spherical aberration correction},
author={Xu A, Nourshargh C, Salter PS, Elston SJ, Morris SM et al.},
booktitle={Emerging Liquid Crystal Technologies XIX},
pages={129070f-129070f-6},
year = "2024"
}
Large laser written liquid crystal devices for spherical aberration correction
Xu A, Nourshargh C, Salter PS, Elston SJ, Morris SM et al. (2024), Progress in Biomedical Optics and Imaging, 12851, 1285105-1285105-6
BibTeX
@inproceedings{largelaserwritt-2024/3,
title={Large laser written liquid crystal devices for spherical aberration correction},
author={Xu A, Nourshargh C, Salter PS, Elston SJ, Morris SM et al.},
booktitle={Adaptive Optics and Wavefront Control for Biological Systems X},
pages={1285105-1285105-6},
year = "2024"
}
Topologically controlled multiskyrmions in photonic gradient-index lenses
Shen Y, He C, Song Z, Chen B, He H et al. (2024), Physical Review Applied, 21(2)
BibTeX
@article{topologicallyco-2024/2,
title={Topologically controlled multiskyrmions in photonic gradient-index lenses},
author={Shen Y, He C, Song Z, Chen B, He H et al.},
journal={Physical Review Applied},
volume={21},
number={024025},
publisher={American Physical Society},
year = "2024"
}
Twisted microdomains in liquid crystals for polarization-insensitive phase modulation
Ma Y, Zhao Z, Morris SM & He C (2024), Light: Science and Applications, 13(1)
BibTeX
@article{twistedmicrodom-2024/1,
title={Twisted microdomains in liquid crystals for polarization-insensitive phase modulation},
author={Ma Y, Zhao Z, Morris SM & He C},
journal={Light: Science and Applications},
volume={13},
number={8},
publisher={Springer Nature},
year = "2024"
}
Characterization of solar cell passivating contacts using time-of-flight elastic recoil detection analysis
Shi Y, Wright M, Sharpe M, McAleese C, Polzin J-I et al. (2023), Applied Physics Letters, 123(26)
BibTeX
@article{characterizatio-2023/12,
title={Characterization of solar cell passivating contacts using time-of-flight elastic recoil detection analysis},
author={Shi Y, Wright M, Sharpe M, McAleese C, Polzin J-I et al.},
journal={Applied Physics Letters},
volume={123},
number={261106},
publisher={AIP Publishing},
year = "2023"
}
Liquid crystals for luminescent concentrators: a review
Surampudi A, Zhang G, Singh R, Faulkner G, O’Brien D et al. (2023), Crystals, 13(12)
BibTeX
@article{liquidcrystalsf-2023/11,
title={Liquid crystals for luminescent concentrators: a review},
author={Surampudi A, Zhang G, Singh R, Faulkner G, O’Brien D et al.},
journal={Crystals},
volume={13},
number={1615},
publisher={MDPI},
year = "2023"
}
Detection of biomarkers through functionalized polymers
García-Faustino LL, Morris S, Elston SJ & Montelongo Y (2023), Small Methods, 8(1)
BibTeX
@article{detectionofbiom-2023/10,
title={Detection of biomarkers through functionalized polymers},
author={García-Faustino LL, Morris S, Elston SJ & Montelongo Y},
journal={Small Methods},
volume={8},
number={2301025},
publisher={Wiley},
year = "2023"
}
Laser written stretchable diffractive optic elements in polymerizable liquid crystal gels
Chen B, Zhao Z, Nourshargh C, He C, Salter P et al. (2023), 8
BibTeX
@inproceedings{laserwrittenstr-2023/10,
title={Laser written stretchable diffractive optic elements in polymerizable liquid crystal gels},
author={Chen B, Zhao Z, Nourshargh C, He C, Salter P et al.},
booktitle={Liquid Crystals XXVII},
pages={8},
year = "2023"
}
Resilient photoswitchable metal–organic frameworks for sunlight-induced on-demand photochromism in the solid state
Mollick S, Zhang Y, Kamal W, Tricarico M, Möslein A et al. (2023), Chemical Engineering Journal, 476
BibTeX
@article{resilientphotos-2023/10,
title={Resilient photoswitchable metal–organic frameworks for sunlight-induced on-demand photochromism in the solid state},
author={Mollick S, Zhang Y, Kamal W, Tricarico M, Möslein A et al.},
journal={Chemical Engineering Journal},
volume={476},
number={146727},
publisher={Elsevier},
year = "2023"
}
Free-space optical communication link with liquid crystal beam-steering
Zhang G, Schreier A, Wang X, Matthews W, Farmer J et al. (2023), IEEE Photonics Technology Letters, 35(22), 1199-1202
BibTeX
@article{freespaceoptica-2023/9,
title={Free-space optical communication link with liquid crystal beam-steering},
author={Zhang G, Schreier A, Wang X, Matthews W, Farmer J et al.},
journal={IEEE Photonics Technology Letters},
volume={35},
pages={1199-1202},
publisher={IEEE},
year = "2023"
}
Zwitterion-doped liquid crystal speckle reducers for immersive displays and vectorial imaging
Jin Y, Spiller N, He C, Faulkner G, Booth M et al. (2023), Light: Science and Applications, 12
BibTeX
@article{zwitteriondoped-2023/9,
title={Zwitterion-doped liquid crystal speckle reducers for immersive displays and vectorial imaging},
author={Jin Y, Spiller N, He C, Faulkner G, Booth M et al.},
journal={Light: Science and Applications},
volume={12},
number={242},
publisher={Springer Nature},
year = "2023"
}
Laser-Written Tunable Liquid Crystal Aberration Correctors.
Xu A, Nourshargh C, Salter PS, He C, Elston SJ et al. (2023), ACS photonics, 10(9), 3401-3408
BibTeX
@article{laserwrittentun-2023/9,
title={Laser-Written Tunable Liquid Crystal Aberration Correctors.},
author={Xu A, Nourshargh C, Salter PS, He C, Elston SJ et al.},
journal={ACS photonics},
volume={10},
pages={3401-3408},
year = "2023"
}
Zwitterion-doped liquid crystal speckle reducers for immersive displays and vectorial imaging.
Jin Y, Spiller NP, He C, Faulkner G, Booth MJ et al. (2023), Light, science & applications, 12(1), 242
BibTeX
@article{zwitteriondoped-2023/9,
title={Zwitterion-doped liquid crystal speckle reducers for immersive displays and vectorial imaging.},
author={Jin Y, Spiller NP, He C, Faulkner G, Booth MJ et al.},
journal={Light, science & applications},
volume={12},
pages={242},
year = "2023"
}
Laser-written tunable liquid crystal aberration correctors
Xu A, Nourshargh C, Salter PS, He C, Elston SJ et al. (2023), ACS Photonics, 10(9), 3401-3408
BibTeX
@article{laserwrittentun-2023/8,
title={Laser-written tunable liquid crystal aberration correctors},
author={Xu A, Nourshargh C, Salter PS, He C, Elston SJ et al.},
journal={ACS Photonics},
volume={10},
pages={3401-3408},
publisher={American Chemical Society},
year = "2023"
}
On-demand pitch tuning of printed chiral nematic liquid crystal droplets
Kamal W, Orr A, Sykes T, Castrejon-Pita A, Elston S et al. (2023), Materials Today Advances, 19
BibTeX
@article{ondemandpitchtu-2023/8,
title={On-demand pitch tuning of printed chiral nematic liquid crystal droplets },
author={Kamal W, Orr A, Sykes T, Castrejon-Pita A, Elston S et al.},
journal={Materials Today Advances},
volume={19},
number={100416},
publisher={Elsevier},
year = "2023"
}
High-precision optical fiber sensing beyond 1000{\deg}C
Wang M, Salter PS, Payne FP, Shipley A, Dyson IN et al. (2023)
BibTeX
@misc{highprecisionop-2023/8,
title={High-precision optical fiber sensing beyond 1000{\deg}C},
author={Wang M, Salter PS, Payne FP, Shipley A, Dyson IN et al.},
year = "2023"
}
Fast analogue 2π phase modulation using a liquid crystal Pi-Cell
Xue L, Jin Y, Elston S & Morris S (2023), Optics and Laser Technology, 167
BibTeX
@article{fastanaloguepha-2023/7,
title={Fast analogue 2π phase modulation using a liquid crystal Pi-Cell},
author={Xue L, Jin Y, Elston S & Morris S},
journal={Optics and Laser Technology},
volume={167},
number={109773},
publisher={Elsevier},
year = "2023"
}
Professor Harry J Coles
Morris SM (2023), Liquid Crystals Today, 32(3), 44-44
BibTeX
@article{professorharryj-2023/7,
title={Professor Harry J Coles},
author={Morris SM},
journal={Liquid Crystals Today},
volume={32},
pages={44-44},
publisher={Taylor & Francis},
year = "2023"
}
Topologically controlled multiskyrmions in photonic gradient-index lenses
Shen Y, He C, Song Z, Chen B, He H et al. (2023)
BibTeX
@misc{topologicallyco-2023/4,
title={Topologically controlled multiskyrmions in photonic gradient-index lenses},
author={Shen Y, He C, Song Z, Chen B, He H et al.},
year = "2023"
}
Evolution of local structural motifs in colloidal quantum dot semiconductor nanocrystals leading to nanofaceting
Hou B, Mocanu FC, Cho Y, Lim J, Feng J et al. (2023), Nano Letters, 23(6), 2277-2286
BibTeX
@article{evolutionofloca-2023/3,
title={Evolution of local structural motifs in colloidal quantum dot semiconductor nanocrystals leading to nanofaceting},
author={Hou B, Mocanu FC, Cho Y, Lim J, Feng J et al.},
journal={Nano Letters},
volume={23},
pages={2277-2286},
publisher={American Chemical Society},
year = "2023"
}
Parallel computing for modeling multilayer photonic crystals
Richardson ATD, Mir SI, Morris SM, Elston SJ, Yetisen AK et al. (2023), Journal of Nanophotonics, 17(1), 016007-016007
BibTeX
@article{parallelcomputi-2023/1,
title={Parallel computing for modeling multilayer photonic crystals},
author={Richardson ATD, Mir SI, Morris SM, Elston SJ, Yetisen AK et al.},
journal={Journal of Nanophotonics},
volume={17},
pages={016007-016007},
publisher={SPIE, the international society for optics and photonics},
year = "2023"
}
Fast analogue 2n phase modulation using a liquid crystal Pi-Cell
Xue L, Jin Y, Elston SJ & Morris SM (2023), OPTICS AND LASER TECHNOLOGY, 167
BibTeX
@article{fastanaloguenph-2023/,
title={Fast analogue 2n phase modulation using a liquid crystal Pi-Cell},
author={Xue L, Jin Y, Elston SJ & Morris SM},
journal={OPTICS AND LASER TECHNOLOGY},
volume={167},
number={ARTN 109773},
year = "2023"
}
On-demand pitch tuning of printed chiral nematic liquid crystal droplets
Kamal W, Orr ACJ, Sykes TC, Castrejon-Pita AA, Elston SJ et al. (2023), MATERIALS TODAY ADVANCES, 19
BibTeX
@article{ondemandpitchtu-2023/,
title={On-demand pitch tuning of printed chiral nematic liquid crystal droplets},
author={Kamal W, Orr ACJ, Sykes TC, Castrejon-Pita AA, Elston SJ et al.},
journal={MATERIALS TODAY ADVANCES},
volume={19},
number={ARTN 100416},
year = "2023"
}
Free-Space Optical Communication Link With Liquid Crystal Beam-Steering
Zhang G, Schreier A, Wang X, Matthews W, Farmer J et al. (2023), IEEE PHOTONICS TECHNOLOGY LETTERS, 35(22), 1199-1202
BibTeX
@article{freespaceoptica-2023/,
title={Free-Space Optical Communication Link With Liquid Crystal Beam-Steering},
author={Zhang G, Schreier A, Wang X, Matthews W, Farmer J et al.},
journal={IEEE PHOTONICS TECHNOLOGY LETTERS},
volume={35},
pages={1199-1202},
year = "2023"
}
On-demand polarization controllable liquid crystal laser
Ali T, Elston S, Lin J-D & Morris S (2022), Advanced Materials Technologies, 8(3)
BibTeX
@article{ondemandpolariz-2022/11,
title={On-demand polarization controllable liquid crystal laser},
author={Ali T, Elston S, Lin J-D & Morris S},
journal={Advanced Materials Technologies},
volume={8},
number={2200674},
publisher={Wiley},
year = "2022"
}
A Polarization Sensitive Thin Film Optical Wireless Concentrator
Surampudi A, Singh R, Zhang G, Faulkner G, Booth MJ et al. (2022), 00, 1-2
BibTeX
@inproceedings{apolarizationse-2022/11,
title={A Polarization Sensitive Thin Film Optical Wireless Concentrator},
author={Surampudi A, Singh R, Zhang G, Faulkner G, Booth MJ et al.},
booktitle={2022 IEEE Photonics Conference (IPC)},
pages={1-2},
year = "2022"
}
Ring-by-ring femtosecond inscription of a multilayer single-mode Bragg grating in sapphire optical fiber
Wang M, Salter P, Payne F, Shipley A, Morris S et al. (2022), Proceedings of the Optica Advanced Photonics Congress 2022
BibTeX
@inproceedings{ringbyringfemto-2022/11,
title={Ring-by-ring femtosecond inscription of a multilayer single-mode Bragg grating in sapphire optical fiber},
author={Wang M, Salter P, Payne F, Shipley A, Morris S et al.},
booktitle={Optica Advanced Photonics Congress 2022},
year = "2022"
}
Multi-element polychromatic 2-dimensional liquid crystal Dammann gratings
Zhao Z, Chen B, Salter P, Booth M, O'brien D et al. (2022), Advanced Materials Technologies, 8(3)
BibTeX
@article{multielementpol-2022/10,
title={Multi-element polychromatic 2-dimensional liquid crystal Dammann gratings},
author={Zhao Z, Chen B, Salter P, Booth M, O'brien D et al.},
journal={Advanced Materials Technologies},
volume={8},
number={2200861},
publisher={Wiley},
year = "2022"
}
Surface modulation of metal-organic frameworks for on-demand photochromism in the solid state
Mollick S, Zhang Y, Kamal W, Tricarico M, Möslein AF et al. (2022)
BibTeX
@misc{surfacemodulati-2022/10,
title={Surface modulation of metal-organic frameworks for on-demand photochromism in the solid state},
author={Mollick S, Zhang Y, Kamal W, Tricarico M, Möslein AF et al.},
year = "2022"
}
Non-mechanical optical beam-steering of a liquid crystal laser
Zhang G, Surampudi A, Schreier A, Faulkner G, O'brien D et al. (2022), Optics and Laser Technology, 157
BibTeX
@article{nonmechanicalop-2022/9,
title={Non-mechanical optical beam-steering of a liquid crystal laser},
author={Zhang G, Surampudi A, Schreier A, Faulkner G, O'brien D et al.},
journal={Optics and Laser Technology},
volume={157},
number={108623},
publisher={Elsevier},
year = "2022"
}
Laser written stretchable diffractive optic elements in liquid crystal gels
Chen B, Zhao Z, Nourshargh C, He C, Salter P et al. (2022), Crystals, 12(10)
BibTeX
@article{laserwrittenstr-2022/9,
title={Laser written stretchable diffractive optic elements in liquid crystal gels},
author={Chen B, Zhao Z, Nourshargh C, He C, Salter P et al.},
journal={Crystals},
volume={12},
number={1340},
publisher={MDPI},
year = "2022"
}
Printed polymer-stabilized chiral nematic liquid crystal privacy windows
Li M, Kamal W, Orr A, Castrejón-Pita A, Elston S et al. (2022), Macromolecular Chemistry and Physics, 223(20)
BibTeX
@article{printedpolymers-2022/8,
title={Printed polymer-stabilized chiral nematic liquid crystal privacy windows},
author={Li M, Kamal W, Orr A, Castrejón-Pita A, Elston S et al.},
journal={Macromolecular Chemistry and Physics},
volume={223},
number={2200154},
publisher={Wiley},
year = "2022"
}
Backflow-assisted time-resolved phase modulation in nematic liquid crystal Pi-Cells
Jin Y, Elston SJ, Fells JAJ, Chen B, Li M et al. (2022), Optics and Laser Technology, 156
BibTeX
@article{backflowassiste-2022/8,
title={Backflow-assisted time-resolved phase modulation in nematic liquid crystal Pi-Cells},
author={Jin Y, Elston SJ, Fells JAJ, Chen B, Li M et al.},
journal={Optics and Laser Technology},
volume={156},
number={108596},
publisher={Elsevier},
year = "2022"
}
Parts-per-billion (ppb) selective iodine sensors leveraging metal–organic framework nanoenvironment
Babal AS, Mollick S, Kamal W, Elston S, Castrejon Pita A et al. (2022), Materials Today, 58, 91-99
BibTeX
@article{partsperbillion-2022/7,
title={Parts-per-billion (ppb) selective iodine sensors leveraging metal–organic framework nanoenvironment},
author={Babal AS, Mollick S, Kamal W, Elston S, Castrejon Pita A et al.},
journal={Materials Today},
volume={58},
pages={91-99},
publisher={Elsevier},
year = "2022"
}
Dynamic phase measurement of fast liquid crystal phase modulators
Fells J, Salter P, Welch C, Jin Y, Wilkinson T et al. (2022), Optics Express, 30(14), 24788-24803
BibTeX
@article{dynamicphasemea-2022/6,
title={Dynamic phase measurement of fast liquid crystal phase modulators},
author={Fells J, Salter P, Welch C, Jin Y, Wilkinson T et al.},
journal={Optics Express},
volume={30},
pages={24788-24803},
publisher={Optica Publishing Group},
year = "2022"
}
36‐1: Invited Paper: Liquid‐Crystal Lasers: Recent Advances and Future Opportunities
Hands PJW, Brown CM, Dickinson DKE, Morris SM & Lin J-D (2022), SID Symposium Digest of Technical Papers, 53(1), 440-443
BibTeX
@inproceedings{invitedpaperliq-2022/6,
title={36‐1: Invited Paper: Liquid‐Crystal Lasers: Recent Advances and Future Opportunities},
author={Hands PJW, Brown CM, Dickinson DKE, Morris SM & Lin J-D},
pages={440-443},
year = "2022"
}
Single-mode sapphire fiber Bragg grating
Fells J, Wang M, Salter P, Payne F, Shipley A et al. (2022), Optics Express
BibTeX
@article{singlemodesapph-2022/4,
title={Single-mode sapphire fiber Bragg grating},
author={Fells J, Wang M, Salter P, Payne F, Shipley A et al.},
journal={Optics Express},
publisher={Optical Society of America},
year = "2022"
}
Single-mode sapphire fiber Bragg grating
Fells J, Wang M, Salter P, Payne F, Shipley A et al. (2022), Optics Express
BibTeX
@article{singlemodesapph-2022/4,
title={Single-mode sapphire fiber Bragg grating},
author={Fells J, Wang M, Salter P, Payne F, Shipley A et al.},
journal={Optics Express},
publisher={Optical Society of America},
year = "2022"
}
Chiral switches bring new twist to photonics
Chen B, Zhao Z & Morris SM (2022), Nature Photonics, 16(3), 174-175
BibTeX
@article{chiralswitchesb-2022/3,
title={Chiral switches bring new twist to photonics},
author={Chen B, Zhao Z & Morris SM},
journal={Nature Photonics},
volume={16},
pages={174-175},
publisher={Springer Nature},
year = "2022"
}
3D switchable diffractive optical elements fabricated with two-photon polymerization
Salter P, Booth M, Elston S & Morris S (2022), Advanced Optical Materials, 10(7)
BibTeX
@article{dswitchablediff-2022/2,
title={3D switchable diffractive optical elements fabricated with two-photon polymerization},
author={Salter P, Booth M, Elston S & Morris S},
journal={Advanced Optical Materials},
volume={10},
number={2102446},
publisher={Wiley},
year = "2022"
}
Nano-Trap Engineering in MOF Microenvironment for Ultratrace Iodine Sensors
Babal AS, Mollick S, Kamal W, Elston S, Castrejón-Pita AA et al. (2022)
BibTeX
@misc{nanotrapenginee-2022/2,
title={Nano-Trap Engineering in MOF Microenvironment for Ultratrace Iodine
Sensors},
author={Babal AS, Mollick S, Kamal W, Elston S, Castrejón-Pita AA et al.},
year = "2022"
}
Free-Form Laser Profilometry for Pipeline Inspection and 3D Cylindrical Reconstructions
Montoya M, Montelongo Y, Jiang N, Morris SM & Parra-Michel J (2022), IEEE Sensors Journal, 22(1), 297-303
BibTeX
@article{freeformlaserpr-2022/1,
title={Free-Form Laser Profilometry for Pipeline Inspection and 3D Cylindrical Reconstructions},
author={Montoya M, Montelongo Y, Jiang N, Morris SM & Parra-Michel J},
journal={IEEE Sensors Journal},
volume={22},
pages={297-303},
publisher={Institute of Electrical and Electronics Engineers (IEEE)},
year = "2022"
}
Laser Written Stretchable Diffractive Optic Elements in Liquid Crystal Gels
Chen B, Zhao Z, Nourshargh C, He C, Salter P et al. (2022)
BibTeX
@misc{laserwrittenstr-2022/1,
title={Laser Written Stretchable Diffractive Optic Elements in Liquid Crystal Gels},
author={Chen B, Zhao Z, Nourshargh C, He C, Salter P et al.},
year = "2022"
}