Showing 81 publications by Stephen Morris
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 & Laser Technology, 156, 108596-108596
BibTeX
@article{backflowassiste-2022/12,
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 & Laser Technology},
volume={156},
number={108596},
pages={108596-108596},
publisher={Elsevier BV},
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"
}
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},
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},
year = "2022"
}
Spatially patterned Polymer Dispersed Liquid Crystals for image-integrated smart windows
Elston S, Castrejon-Pita A & Morris S (2021), Advanced Optical Materials
BibTeX
@article{spatiallypatter-2021/12,
title={Spatially patterned Polymer Dispersed Liquid Crystals for image-integrated smart windows},
author={Elston S, Castrejon-Pita A & Morris S},
journal={Advanced Optical Materials},
publisher={Wiley},
year = "2021"
}
Laser speckle reduction using a liquid crystal diffuser enhanced with redox dopants
Jin Y, Hansford D, Elston S & Morris S (2021), Advanced Photonics Research, 2(6)
BibTeX
@article{laserspecklered-2021/5,
title={Laser speckle reduction using a liquid crystal diffuser enhanced with redox dopants},
author={Jin Y, Hansford D, Elston S & Morris S},
journal={Advanced Photonics Research},
volume={2},
number={2000184},
publisher={Wiley},
year = "2021"
}
Enhancing laser speckle reduction by decreasing the pitch of a chiral nematic liquid crystal diffuser
Hansford D, Morris S, Jin Y & Elston S (2021), Scientific Reports, 11
BibTeX
@article{enhancinglasers-2021/3,
title={Enhancing laser speckle reduction by decreasing the pitch of a chiral nematic liquid crystal diffuser},
author={Hansford D, Morris S, Jin Y & Elston S},
journal={Scientific Reports},
volume={11},
number={4818},
publisher={Springer Nature},
year = "2021"
}
Room Temperature Wafer-Scale Synthesis of Highly Transparent, Conductive CuS Nanosheet Films via a Simple Sulfur Adsorption-Corrosion Method.
Hong J, Kim B-S, Hou B, Pak S, Kim T et al. (2021), ACS applied materials & interfaces, 13(3), 4244-4252
BibTeX
@article{roomtemperature-2021/1,
title={Room Temperature Wafer-Scale Synthesis of Highly Transparent, Conductive CuS Nanosheet Films via a Simple Sulfur Adsorption-Corrosion Method.},
author={Hong J, Kim B-S, Hou B, Pak S, Kim T et al.},
journal={ACS applied materials & interfaces},
volume={13},
pages={4244-4252},
year = "2021"
}
Two-photon laser-written photoalignment layers for patterning liquid crystalline conjugated polymer orientation
Shi Y, Salter P, Li M, Taylor R, Elston S et al. (2020), Advanced Functional Materials, 31(7)
BibTeX
@article{twophotonlaserw-2020/11,
title={Two-photon laser-written photoalignment layers for patterning liquid crystalline conjugated polymer orientation},
author={Shi Y, Salter P, Li M, Taylor R, Elston S et al.},
journal={Advanced Functional Materials},
volume={31},
number={2007493},
publisher={Wiley},
year = "2020"
}
A compact full 2π flexoelectro-optic liquid crystal phase modulator
Wang X, Fells J, Shi Y, Ali T, Welch C et al. (2020), Advanced Materials Technologies, 5(12)
BibTeX
@article{acompactfullfle-2020/11,
title={A compact full 2π flexoelectro-optic liquid crystal phase modulator},
author={Wang X, Fells J, Shi Y, Ali T, Welch C et al.},
journal={Advanced Materials Technologies},
volume={5},
number={2000589},
publisher={Wiley},
year = "2020"
}
Millisecond optical phase modulation using multipass configurations with liquid-crystal devices
Jin Y, Elston S, Fells J, Booth M, Welch C et al. (2020), Physical Review Applied, 14(2)
BibTeX
@article{millisecondopti-2020/8,
title={Millisecond optical phase modulation using multipass configurations with liquid-crystal devices},
author={Jin Y, Elston S, Fells J, Booth M, Welch C et al.},
journal={Physical Review Applied},
volume={14},
number={024007},
publisher={American Physical Society},
year = "2020"
}
Electrically tunable printed bifocal liquid crystal microlens arrays
Kamal W, Lin J-D, Ali T, Elston S, Castrejón-pita A et al. (2020), Advanced Materials Interfaces, 7(16)
BibTeX
@article{electricallytun-2020/6,
title={Electrically tunable printed bifocal liquid crystal microlens arrays},
author={Kamal W, Lin J-D, Ali T, Elston S, Castrejón-pita A et al.},
journal={Advanced Materials Interfaces},
volume={7},
number={2000578},
publisher={Wiley},
year = "2020"
}
Electrically-tunable positioning of topological defects in liquid crystals
Sandford O’Neill JJ, Salter, PS, Booth M, Elston S & Morris S (2020), Nature Communications, 11
BibTeX
@article{electricallytun-2020/5,
title={Electrically-tunable positioning of topological defects in liquid crystals},
author={Sandford O’Neill JJ, Salter, PS, Booth M, Elston S & Morris S},
journal={Nature Communications},
volume={11},
number={2203 },
publisher={Nature Research},
year = "2020"
}
Transmissive flexoelectro-optic liquid crystal optical phase modulator with 2π modulation
Wang X, Fells J, Ali T, Lin J-D, Welch C et al. (2020), AIP Advances, 10(5)
BibTeX
@article{transmissivefle-2020/5,
title={Transmissive flexoelectro-optic liquid crystal optical phase modulator with 2π modulation},
author={Wang X, Fells J, Ali T, Lin J-D, Welch C et al.},
journal={AIP Advances},
volume={10},
number={055011},
publisher={AIP Publishing},
year = "2020"
}
Developing flexible liquid crystal defect mode lasers
Ali T, Lin J-D, Shi Y, Elston S & Morris S (2020), Emerging Liquid Crystal Technologies XV, 11303
BibTeX
@inproceedings{developingflexi-2020/3,
title={Developing flexible liquid crystal defect mode lasers},
author={Ali T, Lin J-D, Shi Y, Elston S & Morris S},
booktitle={Emerging Liquid Crystal Technologies XV},
year = "2020"
}
A thin-film flexible defect-mode laser
Ali T, Lin J-D, Snow B, Wang X, Elston S et al. (2020), Advanced Optical Materials, 8(8)
BibTeX
@article{athinfilmflexib-2020/2,
title={A thin-film flexible defect-mode laser},
author={Ali T, Lin J-D, Snow B, Wang X, Elston S et al.},
journal={Advanced Optical Materials},
volume={8},
number={1901891},
publisher={Wiley},
year = "2020"
}
Plasmonic effects of dual-metal nanoparticle layers for high-performance quantum dot solar cells
Hong J, Kim B-S, Hou B, Cho Y, Lee SH et al. (2020), Plasmonics, 15(4), 1007-1013
BibTeX
@article{plasmoniceffect-2020/1,
title={Plasmonic effects of dual-metal nanoparticle layers for high-performance quantum dot solar cells},
author={Hong J, Kim B-S, Hou B, Cho Y, Lee SH et al.},
journal={Plasmonics},
volume={15},
pages={1007-1013},
publisher={Springer},
year = "2020"
}
Active Metamaterials with Negative Static Electric Susceptibility
Morris SM, WATT A, GRANT P, Isakov D & FELLS J (2020), Advanced Materials, 1904863-1904863
BibTeX
@article{activemetamater-2020/1,
title={Active Metamaterials with Negative Static Electric Susceptibility},
author={Morris SM, WATT A, GRANT P, Isakov D & FELLS J},
journal={Advanced Materials},
pages={1904863-1904863},
publisher={Wiley},
year = "2020"
}
Electrochemically active binary anion compounds with tailored oxygen vacancy for energy storage system
Hong J, Lee J, Lee YW, Park WB, Ahn D et al. (2019), Journal of Power Sources, 444
BibTeX
@article{electrochemical-2019/12,
title={Electrochemically active binary anion compounds with tailored oxygen vacancy for energy storage system},
author={Hong J, Lee J, Lee YW, Park WB, Ahn D et al.},
journal={Journal of Power Sources},
volume={444},
year = "2019"
}
Direct Epitaxial Synthesis of Selective Two-Dimensional Lateral Heterostructures.
Lee J, Pak S, Lee Y-W, Park Y, Jang A-R et al. (2019), ACS nano
BibTeX
@article{directepitaxial-2019/10,
title={Direct Epitaxial Synthesis of Selective Two-Dimensional Lateral Heterostructures.},
author={Lee J, Pak S, Lee Y-W, Park Y, Jang A-R et al.},
journal={ACS nano},
year = "2019"
}
Fast and low loss flexoelectro-optic liquid crystal phase modulator with a chiral nematic reflector
Wang X, Fells J, Yip W, Ali T, Lin J-D et al. (2019), Scientific Reports, 9(2019)
BibTeX
@article{fastandlowlossf-2019/5,
title={Fast and low loss flexoelectro-optic liquid crystal phase modulator with a chiral nematic reflector},
author={Wang X, Fells J, Yip W, Ali T, Lin J-D et al.},
journal={Scientific Reports},
volume={9},
number={7016},
publisher={Nature},
year = "2019"
}
Dynamic response of large tilt-angle flexoelectro-optic liquid crystal modulators
Fells JAJ, Welch C, Yip WC, Elston SJ, Booth M et al. (2019), Optics Express, 27(11)
BibTeX
@article{dynamicresponse-2019/5,
title={Dynamic response of large tilt-angle flexoelectro-optic liquid crystal modulators},
author={Fells JAJ, Welch C, Yip WC, Elston SJ, Booth M et al.},
journal={Optics Express},
volume={27},
number={15184},
publisher={Optical Society of America},
year = "2019"
}
Surface functionalization-induced photoresponse characteristics of monolayer MoS2 for fast flexible photodetectors.
Pak S, Jang A-R, Lee J, Hong J, Giraud P et al. (2019), Nanoscale, 11(11), 4726-4734
BibTeX
@article{surfacefunction-2019/3,
title={Surface functionalization-induced photoresponse characteristics of monolayer MoS2 for fast flexible photodetectors.},
author={Pak S, Jang A-R, Lee J, Hong J, Giraud P et al.},
journal={Nanoscale},
volume={11},
pages={4726-4734},
year = "2019"
}
Robust measurement of flexoelectro-optic switching with different surface alignments
Sandford O’Neill JJ, Fells JAJ, Welch C, Yip WC, Wilkinson TD et al. (2019), Journal of Applied Physics, 125(9)
BibTeX
@article{robustmeasureme-2019/3,
title={Robust measurement of flexoelectro-optic switching with different surface alignments},
author={Sandford O’Neill JJ, Fells JAJ, Welch C, Yip WC, Wilkinson TD et al.},
journal={Journal of Applied Physics},
volume={125},
number={093104},
publisher={AIP Publishing},
year = "2019"
}
Chalcogenide solution-mediated activation protocol for scalable and ultrafast synthesis of single-crystalline 1-D copper sulfide for supercapacitor
Hong J, Kim B-S, Yang S-M, Jang A-R, Lee Y-W et al. (2019), Journal of Materials Chemistry A, 7(6), 2529-2535
BibTeX
@article{chalcogenidesol-2019/1,
title={Chalcogenide solution-mediated activation protocol for scalable and ultrafast synthesis of single-crystalline 1-D copper sulfide for supercapacitor},
author={Hong J, Kim B-S, Yang S-M, Jang A-R, Lee Y-W et al.},
journal={Journal of Materials Chemistry A},
volume={7},
pages={2529-2535},
publisher={Royal Society of Chemistry},
year = "2019"
}
Polymer-stabilized Nematics and Their Applications
Morris SM (2019), 8, 131-165
BibTeX
@misc{polymerstabiliz-2019/,
title={Polymer-stabilized Nematics and Their Applications},
author={Morris SM},
year = "2019"
}
Femtosecond fiber Bragg grating fabrication with adaptive optics aberration compensation
Salter PS, Woolley MJ, Morris S, Booth MJ & Fells JAJ (2018), Optics Letters, 43(24), 5993-5996
BibTeX
@article{femtosecondfibe-2018/12,
title={Femtosecond fiber Bragg grating fabrication with adaptive optics aberration compensation},
author={Salter PS, Woolley MJ, Morris S, Booth MJ & Fells JAJ},
journal={Optics Letters},
volume={43},
pages={5993-5996},
publisher={Optical Society of America},
year = "2018"
}
Consecutive Junction-Induced Efficient Charge Separation Mechanisms for High-Performance MoS2/Quantum Dot Phototransistors.
Pak S, Cho Y, Hong J, Lee J, Lee S et al. (2018), ACS applied materials & interfaces
BibTeX
@article{consecutivejunc-2018/10,
title={Consecutive Junction-Induced Efficient Charge Separation Mechanisms for High-Performance MoS2/Quantum Dot Phototransistors.},
author={Pak S, Cho Y, Hong J, Lee J, Lee S et al.},
journal={ACS applied materials & interfaces},
year = "2018"
}
Flexoelectro-optic liquid crystal analog phase-only modulator with a 2π range and 1 kHz switching
Fells JAJ, Wang X, Elston SJ, Welch C, Mehl GH et al. (2018), Optics Letters, 43(18), 4362-4365
BibTeX
@article{flexoelectroopt-2018/9,
title={Flexoelectro-optic liquid crystal analog phase-only modulator with a 2π range and 1 kHz switching},
author={Fells JAJ, Wang X, Elston SJ, Welch C, Mehl GH et al.},
journal={Optics Letters},
volume={43},
pages={4362-4365},
publisher={Optical Society of America},
year = "2018"
}
Dynamics of pitch change in chiral azobenzene-doped liquid crystals
Liu C-K, Tsai M-C, Morris SM, Chiu C-Y, Chen C-C et al. (2018), JOURNAL OF MOLECULAR LIQUIDS, 263, 406-412
BibTeX
@article{dynamicsofpitch-2018/8,
title={Dynamics of pitch change in chiral azobenzene-doped liquid crystals},
author={Liu C-K, Tsai M-C, Morris SM, Chiu C-Y, Chen C-C et al.},
journal={JOURNAL OF MOLECULAR LIQUIDS},
volume={263},
pages={406-412},
year = "2018"
}
Characterisation of large tilt-angle flexoelectro-optic switching in chiral nematic liquid crystal devices
Wang X, Fells J, Welch C, Mehl G, Morris S et al. (2018), Liquid Crystals, 46(3), 408-414
BibTeX
@article{characterisatio-2018/7,
title={Characterisation of large tilt-angle flexoelectro-optic switching in chiral nematic liquid crystal devices},
author={Wang X, Fells J, Welch C, Mehl G, Morris S et al.},
journal={Liquid Crystals},
volume={46},
pages={408-414},
publisher={Taylor and Francis},
year = "2018"
}
Read on demand images in laser‐written polymerizable liquid crystal devices
Tartan CC, Sandford O'Neill JJ, Salter PS, Aplinc J, Booth MJ et al. (2018), Advanced Optical Materials, 6(20)
BibTeX
@article{readondemandima-2018/7,
title={Read on demand images in laser‐written polymerizable liquid crystal devices},
author={Tartan CC, Sandford O'Neill JJ, Salter PS, Aplinc J, Booth MJ et al.},
journal={Advanced Optical Materials},
volume={6},
number={1800515},
publisher={John Wiley and Sons, Ltd.},
year = "2018"
}
Balancing charge carrier transport in a quantum dot P–N Junction toward hysteresis-free high-performance solar cells
Cho Y, Hou B, Lim J, Lee S, Pak S et al. (2018), ACS Energy Letters, 3, 1036-1043
BibTeX
@article{balancingcharge-2018/4,
title={Balancing charge carrier transport in a quantum dot P–N Junction toward hysteresis-free high-performance solar cells},
author={Cho Y, Hou B, Lim J, Lee S, Pak S et al.},
journal={ACS Energy Letters},
volume={3},
pages={1036-1043},
publisher={American Chemical Society},
year = "2018"
}
Time-resolved retardance and optic-axis angle measurement system for characterization of flexoelectro-optic liquid crystal and other birefringent devices
Fells JAJ, Elston SJ, Booth MJ & Morris S (2018), Optics Express, 26(5), 6126-6142
BibTeX
@article{timeresolvedret-2018/2,
title={Time-resolved retardance and optic-axis angle measurement system for characterization of flexoelectro-optic liquid crystal and other birefringent devices},
author={Fells JAJ, Elston SJ, Booth MJ & Morris S},
journal={Optics Express},
volume={26},
pages={6126-6142},
publisher={Optical Society of America},
year = "2018"
}
Solvent-induced self-assembly of uniform lying helix alignment of the cholesteric liquid crystal phase for the flexoelectro-optic effect
Bolis S, Tartan C, Beeckman J, Kockaert P, Elston S et al. (2018), Liquid Crystals, 45(5), 774-782
BibTeX
@article{solventinduceds-2018/1,
title={Solvent-induced self-assembly of uniform lying helix alignment of the cholesteric liquid crystal phase for the flexoelectro-optic effect},
author={Bolis S, Tartan C, Beeckman J, Kockaert P, Elston S et al.},
journal={Liquid Crystals},
volume={45},
pages={774-782},
publisher={Taylor and Francis},
year = "2018"
}
Field effect transistors and phototransistors based upon p-type solution-processed PbS nanowires
Giraud P, Hou B, Pak S, Sohn J, Morris S et al. (2018), Nanotechnology, 29(7)
BibTeX
@article{fieldeffecttran-2018/1,
title={Field effect transistors and phototransistors based upon p-type solution-processed PbS nanowires},
author={Giraud P, Hou B, Pak S, Sohn J, Morris S et al.},
journal={Nanotechnology},
volume={29},
number={075202},
publisher={IOP Publishing},
year = "2018"
}
Optically controllable linear-polarization rotator using chiral-azobenzene-doped liquid crystals.
Liu C-K, Chiu C-Y, Morris SM, Tsai M-C, Chen C-C et al. (2017), Materials, 10(11), 1299
BibTeX
@article{opticallycontro-2017/11,
title={Optically controllable linear-polarization rotator using chiral-azobenzene-doped liquid crystals.},
author={Liu C-K, Chiu C-Y, Morris SM, Tsai M-C, Chen C-C et al.},
journal={Materials},
volume={10},
pages={1299},
publisher={MDPI},
year = "2017"
}
Drop-on-demand inkjet printing of thermally tunable liquid crystal microlenses
Parry E, Bolis S, Elston SJ, Castrejón-Pita A & Morris SM (2017), Advanced Engineering Materials, 20(3)
BibTeX
@article{dropondemandink-2017/11,
title={Drop-on-demand inkjet printing of thermally tunable liquid crystal microlenses},
author={Parry E, Bolis S, Elston SJ, Castrejón-Pita A & Morris SM},
journal={Advanced Engineering Materials},
volume={20},
number={1700774},
publisher={Wiley},
year = "2017"
}
Charge transport modulation of a flexible quantum dot solar cell using a piezoelectric effect
Cho Y, Girand P, Hou B, Lee Y-W, Hong J et al. (2017), Advanced Energy Materials, 8(3)
BibTeX
@article{chargetransport-2017/9,
title={Charge transport modulation of a flexible quantum dot solar cell using a piezoelectric effect
},
author={Cho Y, Girand P, Hou B, Lee Y-W, Hong J et al.},
journal={Advanced Energy Materials},
volume={8},
number={1700809},
publisher={Wiley-VCH},
year = "2017"
}
Wavelength-tuneable laser emission from a dye-doped achiral nematic liquid crystal dispersed into a chiral polymer scaffold
Wood SM, Elston SJ & Morris S (2017), Molecular Crystals and Liquid Crystals, 632(1), 89-96
BibTeX
@article{wavelengthtunea-2017/8,
title={Wavelength-tuneable laser emission from a dye-doped achiral nematic liquid crystal dispersed into a chiral polymer scaffold},
author={Wood SM, Elston SJ & Morris S},
journal={Molecular Crystals and Liquid Crystals},
volume={632},
pages={89-96},
publisher={Taylor and Francis},
year = "2017"
}
Strain-mediated interlayer coupling effects on the excitonic behaviors in an epitaxially-grown MoS2/WS2 van der Waals heterobilayer
Pak S, Lee J, Lee Y-W, Jang A-R, Ahn S et al. (2017), Nano Letters, 17(9), 5634-5640
BibTeX
@article{strainmediatedi-2017/8,
title={Strain-mediated interlayer coupling effects on the excitonic behaviors in an epitaxially-grown MoS2/WS2 van der Waals heterobilayer},
author={Pak S, Lee J, Lee Y-W, Jang A-R, Ahn S et al.},
journal={Nano Letters},
volume={17},
pages={5634-5640},
publisher={American Chemical Society},
year = "2017"
}
Highly stable 3D porous heterostructures with hierarchically-coordinated octahedral transition metals for enhanced performance supercapacitors
Hong J, Lee Y-W, Ahn D, Pak S, Lee J et al. (2017), Nano Energy, 39, 337-345
BibTeX
@article{highlystabledpo-2017/7,
title={Highly stable 3D porous heterostructures with hierarchically-coordinated octahedral transition metals for enhanced performance supercapacitors},
author={Hong J, Lee Y-W, Ahn D, Pak S, Lee J et al.},
journal={Nano Energy},
volume={39},
pages={337-345},
publisher={Elsevier},
year = "2017"
}
Thermodynamically stable synthesis of large-scale and highly crystalline transition metal dichalcogenide monolayers and their unipolar n–n heterojunction devices
Lee J, Pak S, Giraud P, Lee Y-W, Cho Y et al. (2017), Advanced Materials, 29(33)
BibTeX
@article{thermodynamical-2017/7,
title={Thermodynamically stable synthesis of large-scale and highly crystalline transition metal dichalcogenide monolayers and their unipolar n–n heterojunction devices},
author={Lee J, Pak S, Giraud P, Lee Y-W, Cho Y et al.},
journal={Advanced Materials},
volume={29},
number={1702206},
publisher={Wiley},
year = "2017"
}
Hierarchically assembled tubular shell-core-shell heterostructure of hybrid transition metal chalcogenides for high-performance supercapacitors with ultrahigh cyclability
Lee Y-W, Kim B-S, Hong J, Choi H, Jang H-S et al. (2017), Nano Energy, 37, 15-23
BibTeX
@article{hierarchicallya-2017/5,
title={Hierarchically assembled tubular shell-core-shell heterostructure of hybrid transition metal chalcogenides for high-performance supercapacitors with ultrahigh cyclability},
author={Lee Y-W, Kim B-S, Hong J, Choi H, Jang H-S et al.},
journal={Nano Energy},
volume={37},
pages={15-23},
publisher={Elsevier},
year = "2017"
}
Monolayer optical memory cells based on artificial trap-mediated charge storage and release
Lee J, Pak S, Lee Y-W, Cho Y, Hong J et al. (2017), Nature Communications, 8, 14734
BibTeX
@article{monolayeroptica-2017/3,
title={Monolayer optical memory cells based on artificial trap-mediated charge storage and release},
author={Lee J, Pak S, Lee Y-W, Cho Y, Hong J et al.},
journal={Nature Communications},
volume={8},
pages={14734},
publisher={Springer Nature},
year = "2017"
}
Red green blue emissive lead sulfide quantum dots: heterogeneous synthesis and applications
Hou B, Cho Y, Kim B-S, Ahn D, Lee S et al. (2017), Journal of Materials Chemistry C, 5(15), 3692-3698
BibTeX
@article{redgreenblueemi-2017/3,
title={Red green blue emissive lead sulfide quantum dots: heterogeneous synthesis and applications},
author={Hou B, Cho Y, Kim B-S, Ahn D, Lee S et al.},
journal={Journal of Materials Chemistry C},
volume={5},
pages={3692-3698},
publisher={Royal Society of Chemistry},
year = "2017"
}
Generation of 3-Dimensional Polymer Structures in Liquid Crystalline Devices using Direct Laser Writing
Tartan CC, Salter PS, Wilkinson TD, Booth M, Morris S et al. (2017), RSC Advances
BibTeX
@article{generationofdim-2017/1,
title={Generation of 3-Dimensional Polymer Structures in Liquid Crystalline Devices using Direct Laser Writing},
author={Tartan CC, Salter PS, Wilkinson TD, Booth M, Morris S et al.},
journal={RSC Advances},
publisher={Royal Society of Chemistry},
year = "2017"
}
Solubility-dependent NiMoO4 nanoarchitectures: Direct correlation between rationally designed structure and electrochemical pseudo-kinetics
Sohn J, Morris SM, Cha SN, Hong J, Lee Y-W et al. (2016), ACS Applied Materials and Interfaces, 8(51), 35227-35234
BibTeX
@article{solubilitydepen-2016/12,
title={Solubility-dependent NiMoO4 nanoarchitectures: Direct correlation between rationally designed structure and electrochemical pseudo-kinetics},
author={Sohn J, Morris SM, Cha SN, Hong J, Lee Y-W et al.},
journal={ACS Applied Materials and Interfaces},
volume={8},
pages={35227-35234},
publisher={American Chemical Society},
year = "2016"
}
Speckle contrast reduction of laser light using a chiral nematic liquid crystal diffuser
Hansford DJ, Fells JAJ, Elston SJ & Morris S (2016), Applied Physics Letters, 109(26), 261104-261104
BibTeX
@article{specklecontrast-2016/12,
title={Speckle contrast reduction of laser light using a chiral nematic liquid crystal diffuser},
author={Hansford DJ, Fells JAJ, Elston SJ & Morris S},
journal={Applied Physics Letters},
volume={109},
pages={261104-261104},
publisher={AIP Publishing},
year = "2016"
}
Wavelength tuning of the photonic band gap of an achiral nematic liquid crystal filled into a chiral polymer scaffold
Morris S, Elston SJ, Fells JAJ & Wood SM (2016), Macromolecules, 49(22), 8643-8652
BibTeX
@article{wavelengthtunin-2016/11,
title={Wavelength tuning of the photonic band gap of an achiral nematic liquid crystal filled into a chiral polymer scaffold},
author={Morris S, Elston SJ, Fells JAJ & Wood SM},
journal={Macromolecules},
volume={49},
pages={8643-8652},
publisher={American Chemical Society},
year = "2016"
}
Enhanced charge carrier transport properties in colloidal quantum dot solar cells via organic and inorganic hybrid surface passivation
Hong J, Hou B, Lim J, Pak S, Kim B-S et al. (2016), Journal of Materials Chemistry A, 4(48), 18769-18775
BibTeX
@article{enhancedchargec-2016/10,
title={Enhanced charge carrier transport properties in colloidal quantum dot solar cells via organic and inorganic hybrid surface passivation},
author={Hong J, Hou B, Lim J, Pak S, Kim B-S et al.},
journal={Journal of Materials Chemistry A},
volume={4},
pages={18769-18775},
publisher={Royal Society of Chemistry},
year = "2016"
}
Enhanced ferroelectric property of P(VDF-TrFE-CTFE) film using room temperature crystallization for high-performance ferroelectric device applications
Cho Y, Ahn D, Park JB, Pak S, Lee S et al. (2016), Advanced Electronic Materials, 2(10)
BibTeX
@article{enhancedferroel-2016/8,
title={Enhanced ferroelectric property of P(VDF-TrFE-CTFE) film using room temperature crystallization for high-performance ferroelectric device applications},
author={Cho Y, Ahn D, Park JB, Pak S, Lee S et al.},
journal={Advanced Electronic Materials},
volume={2},
number={1600225},
publisher={Wiley},
year = "2016"
}
Localised polymer networks in chiral nematic liquid crystals for high speed photonic switching
Tartan CC, Salter P, Booth M, Morris S & Elston SJ (2016), Journal of Applied Physics(18)
BibTeX
@article{localisedpolyme-2016/5,
title={Localised polymer networks in chiral nematic liquid crystals for high speed photonic switching},
author={Tartan CC, Salter P, Booth M, Morris S & Elston SJ},
journal={Journal of Applied Physics},
publisher={American Institute of Physics (AIP)},
year = "2016"
}
Wavelength-tuneable laser emission from stretchable chiral nematic liquid crystal gels via in situ photopolymerization
Wood SM, Castles F, Elston SJ & Morris S (2016), RSC Advances, 6(38), 31919-31924
BibTeX
@article{wavelengthtunea-2016/3,
title={Wavelength-tuneable laser emission from stretchable chiral nematic liquid crystal gels via in situ photopolymerization},
author={Wood SM, Castles F, Elston SJ & Morris S},
journal={RSC Advances},
volume={6},
pages={31919-31924},
publisher={Royal Society of Chemistry},
year = "2016"
}
Stabilizing the uniform lying helix alignment in chiral nematic liquid crystals using direct laser writing
Tartan CC, Salter P, Booth M, Morris S & Elston SJ (2016), FLC 2015: Proceedings of the Fifteenth International Conference on Ferroelectric Liquid Crystals, 495(1), 167-173
BibTeX
@inproceedings{stabilizingtheu-2016/3,
title={Stabilizing the uniform lying helix alignment in chiral nematic liquid crystals using direct laser writing},
author={Tartan CC, Salter P, Booth M, Morris S & Elston SJ},
pages={167-173},
year = "2016"
}
Porous nematic microfluidics for generation of umbilic defects
Aplinc J, Morris S & Ravnik M (2016), Physical Review Fluids, 1(2)
BibTeX
@article{porousnematicmi-2016/1,
title={Porous nematic microfluidics for generation of umbilic defects},
author={Aplinc J, Morris S & Ravnik M},
journal={Physical Review Fluids},
volume={1},
publisher={American Physical Society},
year = "2016"
}
Fabrication of micro-and nanometre-scale polymer structures in liquid crystal devices for next generation photonics applications
Tartan CC, Salter PS, Booth MJ, Morris SM & Elston SJ (2016), LIQUID CRYSTALS XX, 9940
BibTeX
@inproceedings{fabricationofmi-2016/,
title={Fabrication of micro-and nanometre-scale polymer structures in liquid crystal devices for next generation photonics applications},
author={Tartan CC, Salter PS, Booth MJ, Morris SM & Elston SJ},
year = "2016"
}
Structured organic–inorganic perovskite toward a distributed feedback laser
Saliba M, Wood S, Patel J, Nayak P, Huang J et al. (2015), Advanced Materials, 28(5), 923-929
BibTeX
@article{structuredorgan-2015/12,
title={Structured organic–inorganic perovskite toward a distributed feedback laser},
author={Saliba M, Wood S, Patel J, Nayak P, Huang J et al.},
journal={Advanced Materials},
volume={28},
pages={923-929},
publisher={Wiley},
year = "2015"
}
Polarized Phosphorescence of Isotropic and Metal‐Based Clustomesogens Dispersed into Chiral Nematic Liquid Crystalline Films
Wood SM, Prévôt M, Amela-Cortes M, Cordier S, Elston SJ et al. (2015), Advanced Optical Materials
BibTeX
@article{polarizedphosph-2015/7,
title={Polarized Phosphorescence of Isotropic and Metal‐Based Clustomesogens Dispersed into Chiral Nematic Liquid Crystalline Films},
author={Wood SM, Prévôt M, Amela-Cortes M, Cordier S, Elston SJ et al.},
journal={Advanced Optical Materials},
publisher={Wiley},
year = "2015"
}
Enhanced Amplified Spontaneous Emission in Perovskites using a Flexible Cholesteric Liquid Crystal Reflector
Stranks SD, Wood SM, Wojciechowski K, Deschler F, Saliba M et al. (2015), Nano letters, 15(8), 4935-4941
BibTeX
@article{enhancedamplifi-2015/5,
title={Enhanced Amplified Spontaneous Emission in Perovskites using a Flexible Cholesteric Liquid Crystal Reflector},
author={Stranks SD, Wood SM, Wojciechowski K, Deschler F, Saliba M et al.},
journal={Nano letters},
volume={15},
pages={4935-4941},
publisher={American Chemical Society},
year = "2015"
}
Improving the stability of organosiloxane smectic A liquid crystal random lasers using redox dopants
Khan AA, Morris SM, Gardiner DJ, Qasim MM, Wilkinson TD et al. (2015), OPTICAL MATERIALS, 42, 441-448
BibTeX
@article{improvingthesta-2015/4,
title={Improving the stability of organosiloxane smectic A liquid crystal random lasers using redox dopants},
author={Khan AA, Morris SM, Gardiner DJ, Qasim MM, Wilkinson TD et al.},
journal={OPTICAL MATERIALS},
volume={42},
pages={441-448},
year = "2015"
}
Improving the stability of organosiloxane smectic A liquid crystal random lasers using redox dopants
Khan AA, Morris SM, Gardiner DJ, Qasim MM, Wilkinson TD et al. (2015), Optical Materials, 42, 441-448
BibTeX
@article{improvingthesta-2015/4,
title={Improving the stability of organosiloxane smectic A liquid crystal random lasers using redox dopants},
author={Khan AA, Morris SM, Gardiner DJ, Qasim MM, Wilkinson TD et al.},
journal={Optical Materials},
volume={42},
pages={441-448},
year = "2015"
}
Optically Switchable Smart Windows with Integrated Photovoltaic Devices
Kwon H-K, Lee K-T, Hur K, Moon SH, Quasim MM et al. (2015), ADVANCED ENERGY MATERIALS, 5(3)
BibTeX
@article{opticallyswitch-2015/2,
title={Optically Switchable Smart Windows with Integrated Photovoltaic Devices},
author={Kwon H-K, Lee K-T, Hur K, Moon SH, Quasim MM et al.},
journal={ADVANCED ENERGY MATERIALS},
volume={5},
number={ARTN 1401347},
year = "2015"
}
Polarization-independent phase modulation using a blue-phase liquid crystal over silicon device.
Hyman RM, Lorenz A, Morris SM & Wilkinson TD (2014), Applied optics, 53(29), 6925-6929
BibTeX
@article{polarizationind-2014/10,
title={Polarization-independent phase modulation using a blue-phase liquid crystal over silicon device.},
author={Hyman RM, Lorenz A, Morris SM & Wilkinson TD},
journal={Applied optics},
volume={53},
pages={6925-6929},
year = "2014"
}
Stretchable liquid-crystal blue-phase gels.
Castles F, Morris SM, Hung JMC, Qasim MM, Wright AD et al. (2014), Nature materials, 13(8), 817-821
BibTeX
@article{stretchableliqu-2014/8,
title={Stretchable liquid-crystal blue-phase gels.},
author={Castles F, Morris SM, Hung JMC, Qasim MM, Wright AD et al.},
journal={Nature materials},
volume={13},
pages={817-821},
year = "2014"
}
Electrical addressing of polymer stabilized hyper-twisted chiral nematic liquid crystals with interdigitated electrodes: Experiment and model
Lorenz A, Gardiner DJ, Morris SM, Castles F, Qasim MM et al. (2014), Applied Physics Letters, 104(7), 071102-071102
BibTeX
@article{electricaladdre-2014/2,
title={Electrical addressing of polymer stabilized hyper-twisted chiral nematic liquid crystals with interdigitated electrodes: Experiment and model},
author={Lorenz A, Gardiner DJ, Morris SM, Castles F, Qasim MM et al.},
journal={Applied Physics Letters},
volume={104},
pages={071102-071102},
publisher={American Institute of Physics},
year = "2014"
}
Blue-phase templated fabrication of three-dimensional nanostructures for photonic applications.
Castles F, Day FV, Morris SM, Ko D-H, Gardiner DJ et al. (2012), Nature materials, 11(7), 599-603
BibTeX
@article{bluephasetempla-2012/5,
title={Blue-phase templated fabrication of three-dimensional nanostructures for photonic applications.},
author={Castles F, Day FV, Morris SM, Ko D-H, Gardiner DJ et al.},
journal={Nature materials},
volume={11},
pages={599-603},
year = "2012"
}
Printed photonic arrays from self-organized chiral nematic liquid crystals
Gardiner DJ, Hsiao W-K, Morris SM, Hands PJW, Wilkinson TD et al. (2012), Soft Matter, 8(39), 9977-9977
BibTeX
@article{printedphotonic-2012/,
title={Printed photonic arrays from self-organized chiral nematic liquid crystals},
author={Gardiner DJ, Hsiao W-K, Morris SM, Hands PJW, Wilkinson TD et al.},
journal={Soft Matter},
volume={8},
pages={9977-9977},
publisher={Royal Society of Chemistry (RSC)},
year = "2012"
}
Novel nonvolatile memory with multibit storage based on a ZnO nanowire transistor.
Sohn JI, Choi SS, Morris SM, Bendall JS, Coles HJ et al. (2010), Nano letters, 10(11), 4316-4320
BibTeX
@article{novelnonvolatil-2010/11,
title={Novel nonvolatile memory with multibit storage based on a ZnO nanowire transistor.},
author={Sohn JI, Choi SS, Morris SM, Bendall JS, Coles HJ et al.},
journal={Nano letters},
volume={10},
pages={4316-4320},
year = "2010"
}
Electrically Tuneable Liquid Crystal Photonic Bandgaps
Choi SS, Morris SM, Huck WTS & Coles HJ (2009), Advanced Materials, 21(38â39), 3915-3918
BibTeX
@article{electricallytun-2009/10,
title={Electrically Tuneable Liquid Crystal Photonic Bandgaps},
author={Choi SS, Morris SM, Huck WTS & Coles HJ},
journal={Advanced Materials},
volume={21},
pages={3915-3918},
publisher={Wiley},
year = "2009"
}
Polychromatic liquid crystal laser arrays towards display applications
Morris SM, Hands PJ, Findeisen-Tandel S, Cole RH, Wilkinson TD et al. (2008), Optics Express, 16(23), 18827-18827
BibTeX
@article{polychromaticli-2008/11,
title={Polychromatic liquid crystal laser arrays towards display applications},
author={Morris SM, Hands PJ, Findeisen-Tandel S, Cole RH, Wilkinson TD et al.},
journal={Optics Express},
volume={16},
pages={18827-18827},
publisher={The Optical Society},
year = "2008"
}
Flexoelectro-optic properties of chiral nematic liquid crystals in the uniform standing helix configuration
Castles F, Morris SM & Coles HJ (0), Physical Review E, 80(3)
BibTeX
@article{flexoelectroopt-/,
title={Flexoelectro-optic properties of chiral nematic liquid crystals in the uniform standing helix configuration},
author={Castles F, Morris SM & Coles HJ},
journal={Physical Review E},
volume={80},
number={031709},
publisher={American Physical Society (APS)}
}
Formation of radial aligned and uniform nematic liquid crystal droplets via drop-on-demand inkjet printing into a partially-wet polymer layer
Parry E, Kim D-J, Castrejon Pita A, Elston SJ & Morris SM (0), Optical Materials
BibTeX
@article{formationofradi-/,
title={Formation of radial aligned and uniform nematic liquid crystal droplets via drop-on-demand inkjet printing into a partially-wet polymer layer},
author={Parry E, Kim D-J, Castrejon Pita A, Elston SJ & Morris SM},
journal={Optical Materials},
publisher={Elsevier}
}
3D switchable diffractive optical elements fabricated with two-photon polymerization
Salter P, Booth M, Elston S & Morris S (0), Advanced Optical Materials
BibTeX
@article{dswitchablediff-/,
title={3D switchable diffractive optical elements fabricated with two-photon polymerization},
author={Salter P, Booth M, Elston S & Morris S},
journal={Advanced Optical Materials},
publisher={Wiley}
}
Multi-element Polychromatic 2-dimensional Liquid Crystal Dammann Gratings
Zimo Z, Chen B, Salter P, Booth M, O'brien D et al. (0), Advanced Materials Technologies
BibTeX
@article{multielementpol-/,
title={Multi-element Polychromatic 2-dimensional Liquid Crystal Dammann Gratings},
author={Zimo Z, Chen B, Salter P, Booth M, O'brien D et al.},
journal={Advanced Materials Technologies},
publisher={Wiley}
}
Printed Polymer-stabilized Chiral Nematic Liquid Crystal Privacy Windows
Li M, Kamal W, Orr A, Castrejón-Pita A, Elston S et al. (0), Macromolecular Chemistry and Physics
BibTeX
@article{printedpolymers-/,
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},
publisher={Wiley}
}
On-Demand Polarization Controllable Liquid Crystal Laser
Morris S, Ali T, Lin J-D & Elston S (0), Advanced Materials Technologies
BibTeX
@article{ondemandpolariz-/,
title={On-Demand Polarization Controllable Liquid Crystal Laser},
author={Morris S, Ali T, Lin J-D & Elston S},
journal={Advanced Materials Technologies},
publisher={Wiley}
}
Non-mechanical Optical Beam-steering of a Liquid Crystal Laser
Morris S, Zhang G, Surampudi A, Schreier A, Faulkner G et al. (0), Optics and Laser Technology
BibTeX
@article{nonmechanicalop-/,
title={Non-mechanical Optical Beam-steering of a Liquid Crystal Laser},
author={Morris S, Zhang G, Surampudi A, Schreier A, Faulkner G et al.},
journal={Optics and Laser Technology},
publisher={Elsevier}
}
Laser written stretchable diffractive optic elements in liquid crystal gels
Morris S, Chen B, Zhao Z, Nourshargh C, He C et al. (0), Crystals
BibTeX
@article{laserwrittenstr-/,
title={Laser written stretchable diffractive optic elements in liquid crystal gels},
author={Morris S, Chen B, Zhao Z, Nourshargh C, He C et al.},
journal={Crystals},
publisher={MDPI}
}