Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Single Atomically Sharp Lateral Monolayer p-n Heterojunction Solar Cells with Extraordinarily High Power Conversion Efficiency.

Literature DB >> 28650580

Single Atomically Sharp Lateral Monolayer p-n Heterojunction Solar Cells with Extraordinarily High Power Conversion Efficiency.

Meng-Lin Tsai^1,2, Ming-Yang Li³, José Ramón Durán Retamal¹, Kai-Tak Lam⁴, Yung-Chang Lin⁵, Kazu Suenaga⁵, Lih-Juann Chen², Gengchiau Liang⁴, Lain-Jong Li³, Jr-Hau He¹.

Abstract

The recent development of 2D monolayer lateral semiconductor has created new paradigm to develop p-n heterojunctions. Albeit, the growth methods of these heterostructures typically result in alloy structures at the interface, limiting the development for high-efficiency photovoltaic (PV) devices. Here, the PV properties of sequentially grown alloy-free 2D monolayer WSe2 -MoS2 lateral p-n heterojunction are explores. The PV devices show an extraordinary power conversion efficiency of 2.56% under AM 1.5G illumination. The large surface active area enables the full exposure of the depletion region, leading to excellent omnidirectional light harvesting characteristic with only 5% reduction of efficiency at incident angles up to 75°. Modeling studies demonstrate the PV devices comply with typical principles, increasing the feasibility for further development. Furthermore, the appropriate electrode-spacing design can lead to environment-independent PV properties. These robust PV properties deriving from the atomically sharp lateral p-n interface can help develop the next-generation photovoltaics.

Entities: Species

Keywords: 2D materials; lateral heterostructures; monolayer; solar cells; transition metal dichalcogenides

Year: 2017 PMID： 28650580 DOI： 10.1002/adma.201701168

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

Keyword Cloud
Cited

8 in total

1. Performance analysis of WSe₂-based bifacial solar cells with different electron transport and hole transport materials by SCAPS-1D.

Authors: M Atowar Rahman
Journal: Heliyon Date: 2022-06-25

2. Janus transition metal dichalcogenides in combination with MoS₂ for high-efficiency photovoltaic applications: a DFT study.

Authors: Birhan Tesfaye Beshir; Kingsley O Obodo; Georgies A Asres
Journal: RSC Adv Date: 2022-05-06 Impact factor: 4.036

8. Ultrahigh, Ultrafast, and Self-Powered Visible-Near-Infrared Optical Position-Sensitive Detector Based on a CVD-Prepared Vertically Standing Few-Layer MoS₂/Si Heterojunction.

Authors: Ridong Cong; Shuang Qiao; Jihong Liu; Jiansong Mi; Wei Yu; Baolai Liang; Guangsheng Fu; Caofeng Pan; Shufang Wang
Journal: Adv Sci (Weinh) Date: 2017-12-01 Impact factor: 16.806

8 in total

Single Atomically Sharp Lateral Monolayer p-n Heterojunction Solar Cells with Extraordinarily High Power Conversion Efficiency.

1. Performance analysis of WSe₂-based bifacial solar cells with different electron transport and hole transport materials by SCAPS-1D.

2. Janus transition metal dichalcogenides in combination with MoS₂ for high-efficiency photovoltaic applications: a DFT study.

Review 3. Charge carrier injection and transport engineering in two-dimensional transition metal dichalcogenides.

4. Layer-edge device of two-dimensional hybrid perovskites.

5. Multilayer Lateral Heterostructures of Van Der Waals Crystals with Sharp, Carrier-Transparent Interfaces.

Review 6. Mechanism, Material, Design, and Implementation Principle of Two-Dimensional Material Photodetectors.

7. 2D pn junctions driven out-of-equilibrium.

8. Ultrahigh, Ultrafast, and Self-Powered Visible-Near-Infrared Optical Position-Sensitive Detector Based on a CVD-Prepared Vertically Standing Few-Layer MoS₂/Si Heterojunction.

Single Atomically Sharp Lateral Monolayer p-n Heterojunction Solar Cells with Extraordinarily High Power Conversion Efficiency.

1. Performance analysis of WSe2-based bifacial solar cells with different electron transport and hole transport materials by SCAPS-1D.

2. Janus transition metal dichalcogenides in combination with MoS2 for high-efficiency photovoltaic applications: a DFT study.

Review 3. Charge carrier injection and transport engineering in two-dimensional transition metal dichalcogenides.

4. Layer-edge device of two-dimensional hybrid perovskites.

5. Multilayer Lateral Heterostructures of Van Der Waals Crystals with Sharp, Carrier-Transparent Interfaces.

Review 6. Mechanism, Material, Design, and Implementation Principle of Two-Dimensional Material Photodetectors.

7. 2D pn junctions driven out-of-equilibrium.

8. Ultrahigh, Ultrafast, and Self-Powered Visible-Near-Infrared Optical Position-Sensitive Detector Based on a CVD-Prepared Vertically Standing Few-Layer MoS2/Si Heterojunction.

1. Performance analysis of WSe₂-based bifacial solar cells with different electron transport and hole transport materials by SCAPS-1D.

2. Janus transition metal dichalcogenides in combination with MoS₂ for high-efficiency photovoltaic applications: a DFT study.

8. Ultrahigh, Ultrafast, and Self-Powered Visible-Near-Infrared Optical Position-Sensitive Detector Based on a CVD-Prepared Vertically Standing Few-Layer MoS₂/Si Heterojunction.