Lithium-Ion Glass Gating of HgTe Nanocrystal Film with Designed Light-Matter Coupling - Archive ouverte HAL
Article Dans Une Revue Materials Année : 2023

Lithium-Ion Glass Gating of HgTe Nanocrystal Film with Designed Light-Matter Coupling

Tung Huu Dang
Adrien Khalili

Résumé

Nanocrystals’ (NCs) band gap can be easily tuned over the infrared range, making them appealing for the design of cost-effective sensors. Though their growth has reached a high level of maturity, their doping remains a poorly controlled parameter, raising the need for post-synthesis tuning strategies. As a result, phototransistor device geometry offers an interesting alternative to photoconductors, allowing carrier density control. Phototransistors based on NCs that target integrated infrared sensing have to (i) be compatible with low-temperature operation, (ii) avoid liquid handling, and (iii) enable large carrier density tuning. These constraints drive the search for innovative gate technologies beyond traditional dielectric or conventional liquid and ion gel electrolytes. Here, we explore lithium-ion glass gating and apply it to channels made of HgTe narrow band gap NCs. We demonstrate that this all-solid gate strategy is compatible with large capacitance up to 2 µF·cm−2 and can be operated over a broad range of temperatures (130–300 K). Finally, we tackle an issue often faced by NC-based phototransistors:their low absorption; from a metallic grating structure, we combined two resonances and achieved high responsivity (10 A·W−1 or an external quantum efficiency of 500%) over a broadband spectral range.
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hal-04030632 , version 1 (15-03-2023)

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Stefano Pierini, Claire Abadie, Tung Huu Dang, Adrien Khalili, Huichen Zhang, et al.. Lithium-Ion Glass Gating of HgTe Nanocrystal Film with Designed Light-Matter Coupling. Materials, 2023, 16 (6), pp.2335. ⟨10.3390/ma16062335⟩. ⟨hal-04030632⟩
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