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Physics databaseDr Azmira Jannat is a past member of RSPE. Contact details and information may no longer be correct.
Dr Azmira Jannat
| Position | Postdoctoral Fellow |
|---|---|
| Department | Electronic Materials Engineering |
| Research group | Electronic materials group |
| Office | Physics New 3 11 |
| Publication list | Jannat publication list (190KB PDF) |
Publications
Journal article
JANNAT A
Large Area Ultrathin InN and Tin Doped InN Nanosheets Featuring 2D Electron Gases [DUPLICATON of a383154xPUB34919]
ACS Nano 16, 4(2022) 5476-5486
Large Area Ultrathin InN and Tin Doped InN Nanosheets Featuring 2D Electron Gases [DUPLICATON of a383154xPUB34919]
ACS Nano 16, 4(2022) 5476-5486
JANNAT A
Atomically Thin Antimony-Doped Indium Oxide Nanosheets for Optoelectronics [DUPLICATION of a383154xPUB34921]
Advanced Optical Materials 2200925(2022)
Atomically Thin Antimony-Doped Indium Oxide Nanosheets for Optoelectronics [DUPLICATION of a383154xPUB34921]
Advanced Optical Materials 2200925(2022)
Khan M, JANNAT A, Khan M, JANNAT A, Sadiq M, Sadiq M, Gopalsamy K, Gopalsamy K, Xu K, Xu K, JANNAT A, JANNAT A, Zhang B, Zhang B, Mohiuddin M, Mohiuddin M, Haris M, Haris M, Ou R, Ou R, Afrin S, Afrin S, Alkathiri T, Alkathiri T, Loomba S, Loomba S, Mulet X, Mulet X, Mahmood N, Mahmood N, Babarao R, Babarao R, Ou J, Ou J
Hetero-metallic metal-organic frameworks for room-temperature NO2 sensing
Journal of Colloid and Interface Science 610(2022) 304-312
Hetero-metallic metal-organic frameworks for room-temperature NO2 sensing
Journal of Colloid and Interface Science 610(2022) 304-312
Khan M, JANNAT A, Khan M, JANNAT A, Sadiq M, Sadiq M, Gopalsamy K, Gopalsamy K, Xu K, Xu K, JANNAT A, JANNAT A, Zhang B, Zhang B, Mohiuddin M, Mohiuddin M, Haris M, Haris M, Ou R, Ou R, Afrin S, Afrin S, Alkathiri T, Alkathiri T, Loomba S, Loomba S, Mulet X, Mulet X, Mahmood N, Mahmood N, Barbarao R, Barbarao R, Ou J, Ou J
"Hetero-metallic metal-organic frameworks for room-temperature NO2 sensing [DUPLICATION of u383154xPUB34290]"
Journal of Colloid and Interface Science 610(2022) 304 - 312
"Hetero-metallic metal-organic frameworks for room-temperature NO2 sensing [DUPLICATION of u383154xPUB34290]"
Journal of Colloid and Interface Science 610(2022) 304 - 312
Nguyen C, JANNAT A, Nguyen C, JANNAT A, Low M, Low M, Zavabeti A, Zavabeti A, Murdoch B, Murdoch B, Guo X, Guo X, Aukarasereenont P, Aukarasereenont P, Mazumder A, Mazumder A, Dubey A, Dubey A, JANNAT A, JANNAT A, Rahman M, Rahman M, Chiang K, Chiang K, Truong V, Truong V, Bao L, Bao L, McConville C, McConville C, Walia S, Walia S, Daeneke T, Daeneke T, Syed N, Syed N
Atomically Thin Antimony-Doped Indium Oxide Nanosheets for Optoelectronics
Advanced Optical Materials 10, 20(2022)
Atomically Thin Antimony-Doped Indium Oxide Nanosheets for Optoelectronics
Advanced Optical Materials 10, 20(2022)
Syed N, JANNAT A, Syed N, JANNAT A, Stacey A, Stacey A, Zavabeti A, Zavabeti A, Nguyen C, Nguyen C, Haas B, Haas B, Koch C, Koch C, Creedon D, Creedon D, JANNAT A, JANNAT A, Della Gaspera E, Della Gaspera E, Reineck P, Reineck P, Wurdack M, Wurdack M, Bamford S, Bamford S, Pigram P, Pigram P, Tawfik S, Tawfik S, Russo S, Russo S, Murdoch B, Murdoch B, Kalantar-zadeh K, Kalantar-zadeh K, McConville C, McConville C, Daeneke T, Daeneke T
Large Area Ultrathin InN and Tin Doped InN Nanosheets Featuring 2D Electron Gases
ACS Nano 16, 4(2022) 5476-5486
Large Area Ultrathin InN and Tin Doped InN Nanosheets Featuring 2D Electron Gases
ACS Nano 16, 4(2022) 5476-5486
JANNAT A
Hetero-metallic metal-organic frameworks for room-temperature NO2 sensing [DUPLICATION of a383154xPUB34920]
Journal of Colloid and Interface Science 610(2022) 304-312
Hetero-metallic metal-organic frameworks for room-temperature NO2 sensing [DUPLICATION of a383154xPUB34920]
Journal of Colloid and Interface Science 610(2022) 304-312
Zavabeti A, JANNAT A, Zavabeti A, JANNAT A, Aukarasereenont P, Aukarasereenont P, Tuohey H, Tuohey H, Syed N, Syed N, JANNAT A, JANNAT A, Elbourne A, Elbourne A, Messalea K, Messalea K, Zhang B, Zhang B, Murdoch B, Murdoch B, Partridge J, Partridge J, Wurdack M, Wurdack M, Creedon D, Creedon D, van Embden J, van Embden J, Kalantar-zadeh K, Kalantar-zadeh K, Russo S, Russo S, McConville C, McConville C, Daeneke T, Daeneke T
High-mobility p-type semiconducting two-dimensional ?-TeO2
Nature Electronics 4, 4(2021) 277-283
High-mobility p-type semiconducting two-dimensional ?-TeO2
Nature Electronics 4, 4(2021) 277-283
JANNAT A
High-mobility p-type semiconducting two-dimensional ?-TeO2 [DUPLICATION of a383154xPUB34927]
Nature Electronics 4, 4(2021) 277-283
High-mobility p-type semiconducting two-dimensional ?-TeO2 [DUPLICATION of a383154xPUB34927]
Nature Electronics 4, 4(2021) 277-283
JANNAT A
Printable Single-Unit-Cell-Thick Transparent Zinc-Doped Indium Oxides with Efficient Electron Transport Properties [DUPLICATION of a383154xPUB34928]
ACS Nano 15, 3(2021) 4045-4053
Printable Single-Unit-Cell-Thick Transparent Zinc-Doped Indium Oxides with Efficient Electron Transport Properties [DUPLICATION of a383154xPUB34928]
ACS Nano 15, 3(2021) 4045-4053
JANNAT A
Plasmonic metal-organic framework nanocomposites enabled by degenerately doped molybdenum oxides [DUPLICATION OF a383154xPUB34926]
Journal of Colloid and Interface Science 588(2021) 305-314
Plasmonic metal-organic framework nanocomposites enabled by degenerately doped molybdenum oxides [DUPLICATION OF a383154xPUB34926]
Journal of Colloid and Interface Science 588(2021) 305-314
JANNAT A
Hexagonal metal oxide monolayers derived from the metal–gas interface [DUPLICATION of a383154xPUB34925]
Nature Materials 20, 8(2021) 1073-1078
Hexagonal metal oxide monolayers derived from the metal–gas interface [DUPLICATION of a383154xPUB34925]
Nature Materials 20, 8(2021) 1073-1078
Zhang B, Xu K, Yao Q, JANNAT A, Ren G, Field M, Wen X, Zhou C, Zavabeti A, Ou J
Hexagonal metal oxide monolayers derived from the metal-gas interface
Nature Materials 20, 8(2021) 1073-1078
Hexagonal metal oxide monolayers derived from the metal-gas interface
Nature Materials 20, 8(2021) 1073-1078
JANNAT A
Ultrathin oxysulfide semiconductors from liquid metal: a wet chemical approach [DUPLICATION of a383154xPUB34924]
Journal of Materials Chemistry C 9, 35(2021) 11815-11826
Ultrathin oxysulfide semiconductors from liquid metal: a wet chemical approach [DUPLICATION of a383154xPUB34924]
Journal of Materials Chemistry C 9, 35(2021) 11815-11826
Syed N, Stacey A, Zavabeti A, Nguyen C, Haas B, Koch C, Creedon D, Della Gaspera E, Reineck P, JANNAT A, Wurdack M
Large Area Ultrathin InN and Tin Doped InN Nanosheets Featuring 2D Electron Gases [DUPLICATE]
ACS Nano 16, 4(2021) 5476�¢â?¬â??5486
Large Area Ultrathin InN and Tin Doped InN Nanosheets Featuring 2D Electron Gases [DUPLICATE]
ACS Nano 16, 4(2021) 5476�¢â?¬â??5486
Messalea K, Syed N, Zavabeti A, Mohiuddin M, JANNAT A, Aukarasereenont P, Nguyen C, Low M, Walia S, Haas B, Koch C
High-k 2D Sb2O3 Made Using a Substrate-Independent and Low-Temperature Liquid-Metal-Based Process
ACS Nano 15, 10(2021) 16067-16075
High-k 2D Sb2O3 Made Using a Substrate-Independent and Low-Temperature Liquid-Metal-Based Process
ACS Nano 15, 10(2021) 16067-16075
Alsaif M, Haque F, Alkathiri T, Krishnamurthi V, Walia S, Hu Y, JANNAT A, Mohiuddin M, Xu K, Waqas Khan M, And many more authors (
3D Visible-Light-Driven Plasmonic Oxide Frameworks Deviated from Liquid Metal Nanodroplets
Advanced Functional Materials 31, 52(2021)
3D Visible-Light-Driven Plasmonic Oxide Frameworks Deviated from Liquid Metal Nanodroplets
Advanced Functional Materials 31, 52(2021)
JANNAT A
[DUPLICATE, DELETE] 3D Visible-Light-Driven Plasmonic Oxide Frameworks Deviated from Liquid Metal Nanodroplets
Advanced Functional Materials 31, 52(2021)
[DUPLICATE, DELETE] 3D Visible-Light-Driven Plasmonic Oxide Frameworks Deviated from Liquid Metal Nanodroplets
Advanced Functional Materials 31, 52(2021)
JANNAT A
[DUPLICATE, DELETE] High- k 2D Sb2 O3 Made Using a Substrate-Independent and Low-Temperature Liquid-Metal-Based Process
ACS Nano 15, 10(2021) 16067-16075
[DUPLICATE, DELETE] High- k 2D Sb
ACS Nano 15, 10(2021) 16067-16075
Khan M, JANNAT A, Khan M, JANNAT A, Zhang B, Zhang B, Xu K, Xu K, Mohiuddin M, Mohiuddin M, JANNAT A, JANNAT A, Haque F, Haque F, Alkathiri T, Alkathiri T, Pillai N, Pillai N, Wang Y, Wang Y, Reza S, Reza S, Li J, Li J, Mulet X, Mulet X, Babarao R, Babarao R, Mahmood N, Mahmood N, Ou J, Ou J
Plasmonic metal-organic framework nanocomposites enabled by degenerately doped molybdenum oxides
Journal of Colloid and Interface Science 588(2021) 305-314
Plasmonic metal-organic framework nanocomposites enabled by degenerately doped molybdenum oxides
Journal of Colloid and Interface Science 588(2021) 305-314
JANNAT A, Syed N, Xu K, Rahman A, Talukder M, Messalea K, Mohiuddin M, Datta R, Waqas Khan M, Alkathiri T, Murdoch B
Printable Single-Unit-Cell-Thick Transparent Zinc-Doped Indium Oxides with Efficient Electron Transport Properties
ACS Nano 15, 3(2021) 4045-4053
Printable Single-Unit-Cell-Thick Transparent Zinc-Doped Indium Oxides with Efficient Electron Transport Properties
ACS Nano 15, 3(2021) 4045-4053
Nguyen C, JANNAT A, Nguyen C, JANNAT A, Low M, Low M, Zavabeti A, Zavabeti A, JANNAT A, JANNAT A, Murdoch B, Murdoch B, Della Gaspera E, Della Gaspera E, Orrell-Trigg R, Orrell-Trigg R, Walia S, Walia S, Elbourne A, Elbourne A, Truong V, Truong V, McConville C, McConville C, Syed N, Syed N, Daeneke T, Daeneke T
Ultrathin oxysulfide semiconductors from liquid metal: a wet chemical approach
Journal of Materials Chemistry C 9, 35(2021) 11815-11826
Ultrathin oxysulfide semiconductors from liquid metal: a wet chemical approach
Journal of Materials Chemistry C 9, 35(2021) 11815-11826
JANNAT A
Flexible two-dimensional indium tin oxide fabricated using a liquid metal printing technique [DUPLICATION of a383154xPUB34935]
Nature Electronics 3, 1(2020) 51-58
Flexible two-dimensional indium tin oxide fabricated using a liquid metal printing technique [DUPLICATION of a383154xPUB34935]
Nature Electronics 3, 1(2020) 51-58
JANNAT A
Two-Step Synthesis of Large-Area 2D Bi2S3 Nanosheets Featuring High In-Plane Anisotropy [DUPLICATION of a383154xPUB34929]
Advanced Materials Interfaces 7, 22(2020)
Two-Step Synthesis of Large-Area 2D Bi2S3 Nanosheets Featuring High In-Plane Anisotropy [DUPLICATION of a383154xPUB34929]
Advanced Materials Interfaces 7, 22(2020)
JANNAT A
Atomically thin TiO2 nanosheets synthesized using liquid metal chemistry [DUPLICATION of a383154xPUB34930 ]
Chemical Communications 56, 36(2020) 4914-4917
Atomically thin TiO2 nanosheets synthesized using liquid metal chemistry [DUPLICATION of a383154xPUB34930 ]
Chemical Communications 56, 36(2020) 4914-4917
JANNAT A
Ordered-vacancy-enabled indium sulphide printed in wafer-scale with enhanced electron mobility [DUPLICATION of a383154xPUB34931]
Materials Horizons 7, 3(2020) 827-834
Ordered-vacancy-enabled indium sulphide printed in wafer-scale with enhanced electron mobility [DUPLICATION of a383154xPUB34931]
Materials Horizons 7, 3(2020) 827-834
JANNAT A
Deciphering the role of quaternary n in O2 reduction over controlled n-doped carbon catalysts [DUPLICATION of a383154xPUB34932]
Chemistry of Materials 32, 4(2020) 1384-1392
Deciphering the role of quaternary n in O2 reduction over controlled n-doped carbon catalysts [DUPLICATION of a383154xPUB34932]
Chemistry of Materials 32, 4(2020) 1384-1392
JANNAT A
[DUPLICATE, DELETE] Two-Dimensional Materials in Large-Areas: Synthesis, Properties and Applications
Nano-Micro Letters 12, 1(2020)
[DUPLICATE, DELETE] Two-Dimensional Materials in Large-Areas: Synthesis, Properties and Applications
Nano-Micro Letters 12, 1(2020)
JANNAT A
Synthesis of two-dimensional hematite and iron phosphide for hydrogen evolution [DUPLICATION of a383154xPUB34934]
Journal of Materials Chemistry A 8, 5(2020) 2789-2797
Synthesis of two-dimensional hematite and iron phosphide for hydrogen evolution [DUPLICATION of a383154xPUB34934]
Journal of Materials Chemistry A 8, 5(2020) 2789-2797
Messalea K, JANNAT A, Messalea K, JANNAT A, Zavabeti A, Zavabeti A, Mohiuddin M, Mohiuddin M, Syed N, Syed N, JANNAT A, JANNAT A, Atkin P, Atkin P, Ahmed T, Ahmed T, Walia S, Walia S, McConville C, McConville C, Kalantar-zadeh K, Kalantar-zadeh K, Mahmood N, Mahmood N, Khoshmanesh K, Khoshmanesh K, Daeneke T, Daeneke T
Two-Step Synthesis of Large-Area 2D Bi2S3 Nanosheets Featuring High In-Plane Anisotropy
Advanced Materials Interfaces 7, 22(2020)
Two-Step Synthesis of Large-Area 2D Bi2S3 Nanosheets Featuring High In-Plane Anisotropy
Advanced Materials Interfaces 7, 22(2020)
Mohiuddin M, JANNAT A, Mohiuddin M, JANNAT A, Zavabeti A, Zavabeti A, Haque F, Haque F, Mahmood A, Mahmood A, Datta R, Datta R, Syed N, Syed N, Khan M, Khan M, JANNAT A, JANNAT A, Messalea K, Messalea K, Zhang B, Zhang B, Chen G, Chen G, Zhang H, Zhang H, Ou J, Ou J, Mahmood N, Mahmood N
Synthesis of two-dimensional hematite and iron phosphide for hydrogen evolution
Journal of Materials Chemistry A 8, 5(2020) 2789-2797
Synthesis of two-dimensional hematite and iron phosphide for hydrogen evolution
Journal of Materials Chemistry A 8, 5(2020) 2789-2797
Zavabeti A, JANNAT A, Zhong L, Haidry A, Yao Z, Ou J
Two-Dimensional Materials in Large-Areas: Synthesis, Properties and Applications
Nano-Micro Letters 12, 1(2020)
Two-Dimensional Materials in Large-Areas: Synthesis, Properties and Applications
Nano-Micro Letters 12, 1(2020)
JANNAT A, Yao Q, Zavabeti A, Syed N, Zhang B, Ahmed T, Kuriakose S, Mohiuddin M, Pillai N, Haque F, Ren G
Ordered-vacancy-enabled indium sulphide printed in wafer-scale with enhanced electron mobility
Materials Horizons 7, 3(2020) 827-834
Ordered-vacancy-enabled indium sulphide printed in wafer-scale with enhanced electron mobility
Materials Horizons 7, 3(2020) 827-834
Haque E, JANNAT A, Haque E, JANNAT A, Zavabeti A, Zavabeti A, Uddin N, Uddin N, Wang Y, Wang Y, Rahim M, Rahim M, Syed N, Syed N, Xu K, Xu K, JANNAT A, JANNAT A, Haque F, Haque F, Zhang B, Zhang B, Shoaib M, Shoaib M, Shamsuddin S, Shamsuddin S, Nurunnabi M, Nurunnabi M, Minett A, Minett A, Ou J, Ou J, Harris A, Harris A
Deciphering the role of quaternary n in O2 reduction over controlled n-doped carbon catalysts
Chemistry of Materials 32, 4(2020) 1384-1392
Deciphering the role of quaternary n in O2 reduction over controlled n-doped carbon catalysts
Chemistry of Materials 32, 4(2020) 1384-1392
Datta R, JANNAT A, Datta R, JANNAT A, Syed N, Syed N, Zavabeti A, Zavabeti A, JANNAT A, JANNAT A, Mohiuddin M, Mohiuddin M, Rokunuzzaman M, Rokunuzzaman M, Zhang B, Zhang B, Rahman M, Rahman M, Atkin P, Atkin P, Messalea K, Messalea K, Ghasemian M, Ghasemian M
Flexible two-dimensional indium tin oxide fabricated using a liquid metal printing technique
Nature Electronics 3, 1(2020) 51-58
Flexible two-dimensional indium tin oxide fabricated using a liquid metal printing technique
Nature Electronics 3, 1(2020) 51-58
Alkathiri T, JANNAT A, Alkathiri T, JANNAT A, Dhar N, Dhar N, JANNAT A, JANNAT A, Syed N, Syed N, Mohiuddin M, Mohiuddin M, Alsaif M, Alsaif M, Datta R, Datta R, Messalea K, Messalea K, Zhang B, Zhang B, Khan M, Khan M, Elbourne A, Elbourne A, Pillai N, Pillai N, Ou J, Ou J, Zavabeti A, Zavabeti A, Daeneke T, Daeneke T
Atomically thin TiO2 nanosheets synthesized using liquid metal chemistry
Chemical Communications 56, 36(2020) 4914-4917
Atomically thin TiO2 nanosheets synthesized using liquid metal chemistry
Chemical Communications 56, 36(2020) 4914-4917
JANNAT A
2D Plasmonic Tungsten Oxide Enabled Ultrasensitive Fiber Optics Gas Sensor [DUPLICATION OF a383154xPUB34936]
Advanced Optical Materials 7, 24(2019)
2D Plasmonic Tungsten Oxide Enabled Ultrasensitive Fiber Optics Gas Sensor [DUPLICATION OF a383154xPUB34936]
Advanced Optical Materials 7, 24(2019)
JANNAT A
2D SnO/In2O3 van der Waals Heterostructure Photodetector Based on Printed Oxide Skin of Liquid Metals [DUPLICATION of a383154xPUB34939]
Advanced Materials Interfaces 6, 7(2019)
2D SnO/In2O3 van der Waals Heterostructure Photodetector Based on Printed Oxide Skin of Liquid Metals [DUPLICATION of a383154xPUB34939]
Advanced Materials Interfaces 6, 7(2019)
JANNAT A
An Ultrasensitive Silicon Photonic Ion Sensor Enabled by 2D Plasmonic Molybdenum Oxide [DUPLICATION of a383154xPUB34940]
Small 15, 9(2019)
An Ultrasensitive Silicon Photonic Ion Sensor Enabled by 2D Plasmonic Molybdenum Oxide [DUPLICATION of a383154xPUB34940]
Small 15, 9(2019)
JANNAT A
Wafer-Sized Ultrathin Gallium and Indium Nitride Nanosheets through the Ammonolysis of Liquid Metal Derived Oxides [DUPLICATION of a383154xPUB34941]
Journal of the American Chemical Society 141, 1(2019) 104-108
Wafer-Sized Ultrathin Gallium and Indium Nitride Nanosheets through the Ammonolysis of Liquid Metal Derived Oxides [DUPLICATION of a383154xPUB34941]
Journal of the American Chemical Society 141, 1(2019) 104-108
JANNAT A
Ordered intracrystalline pores in planar molybdenum oxide for enhanced alkaline hydrogen evolution [DUPLICATION OF a383154xPUB34942]
Journal of Materials Chemistry A 7, 1(2019) 257-268
Ordered intracrystalline pores in planar molybdenum oxide for enhanced alkaline hydrogen evolution [DUPLICATION OF a383154xPUB34942]
Journal of Materials Chemistry A 7, 1(2019) 257-268
JANNAT A
Exciton-Driven Chemical Sensors Based on Excitation-Dependent Photoluminescent Two-Dimensional SnS [DELETE - DUPLICATION OF a383154xPUB34937
ACS Applied Materials and Interfaces 11, 45(2019) 42462-42468
Exciton-Driven Chemical Sensors Based on Excitation-Dependent Photoluminescent Two-Dimensional SnS [DELETE - DUPLICATION OF a383154xPUB34937
ACS Applied Materials and Interfaces 11, 45(2019) 42462-42468
Yao Q, JANNAT A, Yao Q, JANNAT A, Ren G, Ren G, Xu K, Xu K, Zhu L, Zhu L, Khan H, Khan H, Mohiuddin M, Mohiuddin M, Khan M, Khan M, Zhang B, Zhang B, JANNAT A, JANNAT A, Haque F, Haque F, Reza S, Reza S, Wang Y, Wang Y, Wen X, Wen X, Mitchell A, Mitchell A, Ou J, Ou J
2D Plasmonic Tungsten Oxide Enabled Ultrasensitive Fiber Optics Gas Sensor
Advanced Optical Materials 7, 24(2019)
2D Plasmonic Tungsten Oxide Enabled Ultrasensitive Fiber Optics Gas Sensor
Advanced Optical Materials 7, 24(2019)
Syed N, JANNAT A, Syed N, JANNAT A, Zavabeti A, Zavabeti A, Messalea K, Messalea K, Della Gaspera E, Della Gaspera E, Elbourne A, Elbourne A, JANNAT A, JANNAT A, Mohiuddin M, Mohiuddin M, Zhang B, Zhang B, Zheng G, Zheng G, Wang L, Wang L, Russo S, Russo S, Esrafilzadeh D, Esrafilzadeh D, McConville C, McConville C, Kalantar-zadeh K, Kalantar-zadeh K, Daeneke T, Daeneke T
Wafer-Sized Ultrathin Gallium and Indium Nitride Nanosheets through the Ammonolysis of Liquid Metal Derived Oxides
Journal of the American Chemical Society 141, 1(2019) 104-108
Wafer-Sized Ultrathin Gallium and Indium Nitride Nanosheets through the Ammonolysis of Liquid Metal Derived Oxides
Journal of the American Chemical Society 141, 1(2019) 104-108
Ren G, JANNAT A, Ren G, JANNAT A, Zhang B, Zhang B, Yao Q, Yao Q, Zavabeti A, Zavabeti A, Huertas C, Huertas C, Brklja?a R, Brklja?a R, Khan M, Khan M, Nili H, Nili H, Datta R, Datta R, Khan H, Khan H, JANNAT A, JANNAT A, Walia S, Walia S, Haque F, Haque F, O'Dell L, O'Dell L, Wang Y, Wang Y, Zhu L, Zhu L, Mitchell A, Mitchell A, Ou J, Ou J
An Ultrasensitive Silicon Photonic Ion Sensor Enabled by 2D Plasmonic Molybdenum Oxide
Small 15, 9(2019)
An Ultrasensitive Silicon Photonic Ion Sensor Enabled by 2D Plasmonic Molybdenum Oxide
Small 15, 9(2019)
Alsaif M, JANNAT A, Alsaif M, JANNAT A, Kuriakose S, Kuriakose S, Walia S, Walia S, Syed N, Syed N, JANNAT A, JANNAT A, Zhang B, Zhang B, Haque F, Haque F, Mohiuddin M, Mohiuddin M, Alkathiri T, Alkathiri T, Pillai N, Pillai N, Daeneke T, Daeneke T, Ou J, Ou J, Zavabeti A, Zavabeti A
2D SnO/In2O3 van der Waals Heterostructure Photodetector Based on Printed Oxide Skin of Liquid Metals
Advanced Materials Interfaces 6, 7(2019)
2D SnO/In2O3 van der Waals Heterostructure Photodetector Based on Printed Oxide Skin of Liquid Metals
Advanced Materials Interfaces 6, 7(2019)
Alsaif M, JANNAT A, Alsaif M, JANNAT A, Pillai N, Pillai N, Kuriakose S, Kuriakose S, Walia S, Walia S, JANNAT A, JANNAT A, Xu K, Xu K, Alkathiri T, Alkathiri T, Mohiuddin M, Mohiuddin M, Daeneke T, Daeneke T, Kalantar-zadeh K, Kalantar-zadeh K, Ou J, Ou J, Zavabeti A, Zavabeti A
Atomically Thin Ga2S3 from Skin of Liquid Metals for Electrical, Optical, and Sensing Applications
ACS Applied Nano Materials 2, 7(2019) 4665-4672
Atomically Thin Ga2S3 from Skin of Liquid Metals for Electrical, Optical, and Sensing Applications
ACS Applied Nano Materials 2, 7(2019) 4665-4672
Haque F, JANNAT A, Haque F, JANNAT A, Zavabeti A, Zavabeti A, Zhang B, Zhang B, Datta R, Datta R, Yin Y, Yin Y, Yi Z, Yi Z, Wang Y, Wang Y, Mahmood N, Mahmood N, Pillai N, Pillai N, Syed N, Syed N, Khan H, Khan H, JANNAT A, JANNAT A, Wang N, Wang N, Medhekar N, Medhekar N, Kalantar-zadeh K, Kalantar-zadeh K, Ou J, Ou J
Ordered intracrystalline pores in planar molybdenum oxide for enhanced alkaline hydrogen evolution
Journal of Materials Chemistry A 7, 1(2019) 257-268
Ordered intracrystalline pores in planar molybdenum oxide for enhanced alkaline hydrogen evolution
Journal of Materials Chemistry A 7, 1(2019) 257-268
JANNAT A
Atomically Thin Ga2S3 from Skin of Liquid Metals for Electrical, Optical, and Sensing Applications [DUPLICATION OF a383154xPUB34938]
ACS Applied Nano Materials 2, 7(2019) 4665-4672
Atomically Thin Ga2S3 from Skin of Liquid Metals for Electrical, Optical, and Sensing Applications [DUPLICATION OF a383154xPUB34938]
ACS Applied Nano Materials 2, 7(2019) 4665-4672
JANNAT A, Haque F, Xu K, Zhou C, Zhang B, Syed N, Mohiuddin M, Messalea K, Li X, Gras S, Wen X
Exciton-Driven Chemical Sensors Based on Excitation-Dependent Photoluminescent Two-Dimensional SnS
ACS Applied Materials and Interfaces 11, 45(2019) 42462-42468
Exciton-Driven Chemical Sensors Based on Excitation-Dependent Photoluminescent Two-Dimensional SnS
ACS Applied Materials and Interfaces 11, 45(2019) 42462-42468
JANNAT A
Printing two-dimensional gallium phosphate out of liquid metal [DUPLICATION of a383154xPUB34944]
Nature Communications 9, 1(2018)
Printing two-dimensional gallium phosphate out of liquid metal [DUPLICATION of a383154xPUB34944]
Nature Communications 9, 1(2018)
JANNAT A
Exfoliation Behavior of van der Waals Strings: Case Study of Bi2S3 [DUPLICATION of a383154xPUB34943]
ACS Applied Materials and Interfaces 10, 49(2018) 42603-42611
Exfoliation Behavior of van der Waals Strings: Case Study of Bi2S3 [DUPLICATION of a383154xPUB34943]
ACS Applied Materials and Interfaces 10, 49(2018) 42603-42611
JANNAT A
Bi2O3 monolayers from elemental liquid bismuth [DUPLICATION of a383154xPUB34945]
Nanoscale 10, 33(2018) 15615-15623
Bi2O3 monolayers from elemental liquid bismuth [DUPLICATION of a383154xPUB34945]
Nanoscale 10, 33(2018) 15615-15623
Alkathiri T, Xu K, Zhang B, Khan M, JANNAT A, Syed N, Almutairi A, Ha N, Alsaif , Pillai N, Li Z, Daeneke T, Ou J
2D Palladium Sulphate for Visible-Light-Driven Optoelectronic Reversible Gas Sensing at Room Temperature
Small Science 2, 210097(2018)
2D Palladium Sulphate for Visible-Light-Driven Optoelectronic Reversible Gas Sensing at Room Temperature
Small Science 2, 210097(2018)
Dhar N, JANNAT A, Dhar N, JANNAT A, Syed N, Syed N, Mohiuddin M, Mohiuddin M, JANNAT A, JANNAT A, Zavabeti A, Zavabeti A, Zhang B, Zhang B, Datta R, Datta R, Atkin P, Atkin P, Mahmood N, Mahmood N, Esrafilzadeh D, Esrafilzadeh D, Daeneke T, Daeneke T, Kalantar-zadeh K, Kalantar-zadeh K
Exfoliation Behavior of van der Waals Strings: Case Study of Bi2S3
ACS Applied Materials and Interfaces 10, 49(2018) 42603-42611
Exfoliation Behavior of van der Waals Strings: Case Study of Bi2S3
ACS Applied Materials and Interfaces 10, 49(2018) 42603-42611
Jung J, JANNAT A, Akhtar M, Yang O
Sol-Gel Deposited Double Layer TiO? and Al?O? Anti-Reflection Coating for Silicon Solar Cell
Journal of Nanoscience and Nanotechnology 18, 2(2018) 1274 - 1278
Sol-Gel Deposited Double Layer TiO? and Al?O? Anti-Reflection Coating for Silicon Solar Cell
Journal of Nanoscience and Nanotechnology 18, 2(2018) 1274 - 1278
Messalea K, JANNAT A, Messalea K, JANNAT A, Carey B, Carey B, JANNAT A, JANNAT A, Syed N, Syed N, Mohiuddin M, Mohiuddin M, Zhang B, Zhang B, Zavabeti A, Zavabeti A, Ahmed T, Ahmed T, Mahmood N, Mahmood N, Della Gaspera E, Della Gaspera E, Khoshmanesh K, Khoshmanesh K, Kalantar-zadeh K, Kalantar-zadeh K, Daeneke T, Daeneke T
Bi2O3 monolayers from elemental liquid bismuth
Nanoscale 10, 33(2018) 15615-15623
Bi2O3 monolayers from elemental liquid bismuth
Nanoscale 10, 33(2018) 15615-15623
Syed N, JANNAT A, Syed N, JANNAT A, Zavabeti A, Zavabeti A, Ou J, Ou J, Mohiuddin M, Mohiuddin M, Pillai N, Pillai N, Carey B, Carey B, Zhang B, Zhang B, Datta R, Datta R, JANNAT A, JANNAT A, Haque F, Haque F, Messalea K, Messalea K, Xu C, Xu C, Russo S, Russo S, McConville C, McConville C, Daeneke T, Daeneke T, Kalantar-zadeh K, Kalantar-zadeh K
Printing two-dimensional gallium phosphate out of liquid metal
Nature Communications 9, 1(2018)
Printing two-dimensional gallium phosphate out of liquid metal
Nature Communications 9, 1(2018)
JANNAT A
[DUPLICATE, DELETE] Variation in the Optical Properties of the SiC-SiO2 Composite Antireflection Layer in Crystalline Silicon Solar Cells by Annealing
Journal of Electronic Materials 46, 11(2017) 6357-6366
[DUPLICATE, DELETE] Variation in the Optical Properties of the SiC-SiO
Journal of Electronic Materials 46, 11(2017) 6357-6366
JANNAT A, Li Z, Akhter M, Yang O
Variation in the Optical Properties of the SiC-SiO2 Composite Antireflection Layer in Crystalline Silicon Solar Cells by Annealing
Journal of Electronic Materials 46, 11(2017) 6357-6366
Variation in the Optical Properties of the SiC-SiO2 Composite Antireflection Layer in Crystalline Silicon Solar Cells by Annealing
Journal of Electronic Materials 46, 11(2017) 6357-6366
JANNAT A
[DUPLICATE, DELETE] Low cost sol-gel derived SiC-SiO2 nanocomposite as anti reflection layer for enhanced performance of crystalline silicon solar cells
Applied Surface Science 369(2016) 545-551
[DUPLICATE, DELETE] Low cost sol-gel derived SiC-SiO
Applied Surface Science 369(2016) 545-551
JANNAT A, Lee W, Akhtar M, Li Z, Yang O
Low cost sol-gel derived SiC-SiO2 nanocomposite as anti reflection layer for enhanced performance of crystalline silicon solar cells
Applied Surface Science 369(2016) 545-551
Low cost sol-gel derived SiC-SiO2 nanocomposite as anti reflection layer for enhanced performance of crystalline silicon solar cells
Applied Surface Science 369(2016) 545-551
(62 publications)
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