Materials properties and device applications of semiconducting bismuth oxyselenide
Layered two‐dimensional (2D) materials have garnered marvelous attention in diverse fields, including sensors, capacitors, nanocomposites and transistors, owing to their distinctive structural morphologies and superior physicochemical properties. Recently, layered quasi‐2D materials, especially laye...
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| Published in | InfoMat Vol. 6; no. 6 |
|---|---|
| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Melbourne
John Wiley & Sons, Inc
01.06.2024
Wiley |
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| Online Access | Get full text |
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| Abstract | Layered two‐dimensional (2D) materials have garnered marvelous attention in diverse fields, including sensors, capacitors, nanocomposites and transistors, owing to their distinctive structural morphologies and superior physicochemical properties. Recently, layered quasi‐2D materials, especially layered bismuth oxyselenide (Bi2O2Se), are of particular interest, because of their different interlayer interactions from other layered 2D materials. On this basis, this material offers richer and more intriguing physics, including high electron mobility, sizeable bandgap, and remarkable thermal and chemical durability, rendering it an utterly prospective contender for use in advanced electronic and optoelectronic applications. Herein, this article reviews the recent advances related with Bi2O2Se. Initially, its structural characterization, band structure, and basic properties are briefly introduced. Further, the synthetic strategies for the preparation of Bi2O2Se are presented. Furthermore, the diverse applications of Bi2O2Se in the field of electronics and optoelectronics, photocatalytic, solar cells and sensing were summarized in detail. Ultimately, the challenges and future perspectives of Bi2O2Se are included.
Oxyselenide Bi2O2Se has emerged as a new type of layered quasi‐2D materials, drawing considerable attention recently due to its excellent physicochemical properties. This review focused on the recent progress related to Bi2O2Se, encompassing structural characteristics, fundamental properties, preparation techniques, and potential applications in devices, which show its great potential for future‐generation electronics and optical technology. |
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| AbstractList | Abstract Layered two‐dimensional (2D) materials have garnered marvelous attention in diverse fields, including sensors, capacitors, nanocomposites and transistors, owing to their distinctive structural morphologies and superior physicochemical properties. Recently, layered quasi‐2D materials, especially layered bismuth oxyselenide (Bi2O2Se), are of particular interest, because of their different interlayer interactions from other layered 2D materials. On this basis, this material offers richer and more intriguing physics, including high electron mobility, sizeable bandgap, and remarkable thermal and chemical durability, rendering it an utterly prospective contender for use in advanced electronic and optoelectronic applications. Herein, this article reviews the recent advances related with Bi2O2Se. Initially, its structural characterization, band structure, and basic properties are briefly introduced. Further, the synthetic strategies for the preparation of Bi2O2Se are presented. Furthermore, the diverse applications of Bi2O2Se in the field of electronics and optoelectronics, photocatalytic, solar cells and sensing were summarized in detail. Ultimately, the challenges and future perspectives of Bi2O2Se are included. Layered two‐dimensional (2D) materials have garnered marvelous attention in diverse fields, including sensors, capacitors, nanocomposites and transistors, owing to their distinctive structural morphologies and superior physicochemical properties. Recently, layered quasi‐2D materials, especially layered bismuth oxyselenide (Bi 2 O 2 Se), are of particular interest, because of their different interlayer interactions from other layered 2D materials. On this basis, this material offers richer and more intriguing physics, including high electron mobility, sizeable bandgap, and remarkable thermal and chemical durability, rendering it an utterly prospective contender for use in advanced electronic and optoelectronic applications. Herein, this article reviews the recent advances related with Bi 2 O 2 Se. Initially, its structural characterization, band structure, and basic properties are briefly introduced. Further, the synthetic strategies for the preparation of Bi 2 O 2 Se are presented. Furthermore, the diverse applications of Bi 2 O 2 Se in the field of electronics and optoelectronics, photocatalytic, solar cells and sensing were summarized in detail. Ultimately, the challenges and future perspectives of Bi 2 O 2 Se are included. image Layered two‐dimensional (2D) materials have garnered marvelous attention in diverse fields, including sensors, capacitors, nanocomposites and transistors, owing to their distinctive structural morphologies and superior physicochemical properties. Recently, layered quasi‐2D materials, especially layered bismuth oxyselenide (Bi2O2Se), are of particular interest, because of their different interlayer interactions from other layered 2D materials. On this basis, this material offers richer and more intriguing physics, including high electron mobility, sizeable bandgap, and remarkable thermal and chemical durability, rendering it an utterly prospective contender for use in advanced electronic and optoelectronic applications. Herein, this article reviews the recent advances related with Bi2O2Se. Initially, its structural characterization, band structure, and basic properties are briefly introduced. Further, the synthetic strategies for the preparation of Bi2O2Se are presented. Furthermore, the diverse applications of Bi2O2Se in the field of electronics and optoelectronics, photocatalytic, solar cells and sensing were summarized in detail. Ultimately, the challenges and future perspectives of Bi2O2Se are included. Oxyselenide Bi2O2Se has emerged as a new type of layered quasi‐2D materials, drawing considerable attention recently due to its excellent physicochemical properties. This review focused on the recent progress related to Bi2O2Se, encompassing structural characteristics, fundamental properties, preparation techniques, and potential applications in devices, which show its great potential for future‐generation electronics and optical technology. |
| Author | Yi, Jiabao Ali, Sharafat Wu, Xiaoqiang Xiao, Haiyan Li, Menglu Raziq, Fazal Zhao, Mei Leng, Huaqian Qiao, Liang Chen, Pei Zhao, Yan Wang, Yong |
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| CitedBy_id | crossref_primary_10_1016_j_electacta_2024_145378 crossref_primary_10_1007_s12598_024_03062_4 crossref_primary_10_1063_5_0223948 crossref_primary_10_1016_j_mattod_2024_11_003 crossref_primary_10_1021_acsanm_4c07065 crossref_primary_10_1021_acs_jpca_5c00378 |
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| Notes | Menglu Li, Pei Chen, and Yan Zhao contributed equally to this study. |
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| Snippet | Layered two‐dimensional (2D) materials have garnered marvelous attention in diverse fields, including sensors, capacitors, nanocomposites and transistors,... Abstract Layered two‐dimensional (2D) materials have garnered marvelous attention in diverse fields, including sensors, capacitors, nanocomposites and... |
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| SubjectTerms | bismuth oxyselenide device applications preparation methods properties two‐dimensional material |
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| Title | Materials properties and device applications of semiconducting bismuth oxyselenide |
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