![Thickness-Dependent Structural and Electrical Properties of WS2 Nanosheets Obtained via the ALD-Grown WO3 Sulfurization Technique as a Channel Material for Field-Effect Transistors | ACS Omega Thickness-Dependent Structural and Electrical Properties of WS2 Nanosheets Obtained via the ALD-Grown WO3 Sulfurization Technique as a Channel Material for Field-Effect Transistors | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.1c04532/asset/images/large/ao1c04532_0003.jpeg)
Thickness-Dependent Structural and Electrical Properties of WS2 Nanosheets Obtained via the ALD-Grown WO3 Sulfurization Technique as a Channel Material for Field-Effect Transistors | ACS Omega
![purple Laser High Power purple Laser Pointer 532nm Pointer Pen Adjustable Red 1000 m 1mw Lazer Pointer USB charger 405nm laser| | - AliExpress purple Laser High Power purple Laser Pointer 532nm Pointer Pen Adjustable Red 1000 m 1mw Lazer Pointer USB charger 405nm laser| | - AliExpress](https://ae01.alicdn.com/kf/H88434d3b7f5f491cbf8c8ab3186592f0V/purple-Laser-High-Power-purple-Laser-Pointer-532nm-Pointer-Pen-Adjustable-Red-1000-m-1mw-Lazer.jpg_Q90.jpg_.webp)
purple Laser High Power purple Laser Pointer 532nm Pointer Pen Adjustable Red 1000 m 1mw Lazer Pointer USB charger 405nm laser| | - AliExpress
![Industry/Lab High Power 532nm 1000mw 1W Green Laser Dot Module + TTL 0-30KHZ + TEC Cooling 85-265V + Lab Adjustable Power Supply LSR-PS-FA: Amazon.com: Industrial & Scientific Industry/Lab High Power 532nm 1000mw 1W Green Laser Dot Module + TTL 0-30KHZ + TEC Cooling 85-265V + Lab Adjustable Power Supply LSR-PS-FA: Amazon.com: Industrial & Scientific](https://m.media-amazon.com/images/I/71tlDvYeZvL.jpg)
Industry/Lab High Power 532nm 1000mw 1W Green Laser Dot Module + TTL 0-30KHZ + TEC Cooling 85-265V + Lab Adjustable Power Supply LSR-PS-FA: Amazon.com: Industrial & Scientific
![Photonics | Free Full-Text | Optically Tunable Diffraction Efficiency in Reflection Grating Written in Photomobile Polymers Photonics | Free Full-Text | Optically Tunable Diffraction Efficiency in Reflection Grating Written in Photomobile Polymers](https://www.mdpi.com/photonics/photonics-09-00751/article_deploy/html/images/photonics-09-00751-g001.png)