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Deterministic Polymorphic Engineering of MoTe<sub>2</sub> for Photonic and Optoelectronic Applications

Faisal Ahmed, Carlos Rodríguez‐Fernández, Henry A. Fernández, Yi Zhang, Abde Mayeen Shafi, Md Gius Uddin, Xiaoqi Cui, Hoon Hahn Yoon, Naveed Mehmood, Andreas C. Liapis, Lide Yao, Hümeyra Çağlayan, Zhipei Sun, Harri Lipsanen

2023Advanced Functional Materials23 citationsDOIOpen Access PDF

Abstract

Abstract Developing selective and coherent polymorphic crystals at the nanoscale offers a novel strategy for designing integrated architectures for photonic and optoelectronic applications such as metasurfaces, optical gratings, photodetectors, and image sensors. Here, a direct optical writing approach is demonstrated to deterministically create polymorphic 2D materials by locally inducing metallic 1T′‐MoTe 2 on the semiconducting 2H‐MoTe 2 host layer. In the polymorphic‐engineered MoTe 2 , 2H‐ and 1T′‐ crystalline phases exhibit strong optical contrast from near‐infrared to telecom‐band ranges (1–1.5 µm), due to the change in the band structure and increase in surface roughness. Sevenfold enhancement of third harmonic generation intensity is realized with conversion efficiency (susceptibility) of ≈1.7 × 10 −7 (1.1 × 10 −19 m 2 V −2 ) and ≈1.7 × 10 −8 (0.3 × 10 −19 m 2 V −2 ) for 1T′ and 2H‐MoTe 2 , respectively at telecom‐band ultrafast pump laser. Lastly, based on polymorphic engineering on MoTe 2 , a Schottky photodiode with a high photoresponsivity of 90 AW −1 is demonstrated. This study proposes facile polymorphic engineered structures that will greatly benefit realizing integrated photonics and optoelectronic circuits.

Topics & Concepts

PhotonicsMaterials scienceOptoelectronicsLaserPhotodiodePhotodetectorUltrashort pulsePhotonic integrated circuitOpticsPhysics2D Materials and ApplicationsMetamaterials and Metasurfaces ApplicationsTopological Materials and Phenomena
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