A highly efficient CMOS nanoplasmonic crystal enhanced slow-wave thermal emitter improves infrared gas-sensing devices

A highly efficient CMOS nanoplasmonic crystal enhanced slow-wave thermal emitter improves infrared gas-sensing devices

10.1038/srep17451

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Bibliographic Details
Main Authors: Saw, W.-Y, Liu, X, Khor, C.-C, Takeuchi, F, Katsuya, T, Kimura, R, Nabika, T, Ohkubo, T, Tabara, Y, Yamamoto, K, Yokota, M, Akiyama, K, Asano, H, Asayama, K, Haga, T, Hara, A, Hirose, T, Hosaka, M, Ichihara, S, Imai, Y, Inoue, R, Ishiguro, A, Isomura, M, Isono, M, Kamide, K, Kato, N, Kikuya, M, Kohara, K, Matsubara, T, Matsuda, A, Metoki, H, Miki, T, Murakami, K, Nakatochi, M, Ogihara, T, Ohnaka, K, Rakugi, H, Satoh, M, Shiwaku, K, Sugimoto, K, Takami, Y, Takayanagi, R, Tsubota-Utsugi, M, Yamasaki, M, Yasui, D, Teo, Y.-Y, Japanese Genome Variation Consortium, Pusch, A, De Luca, A, Oh, S.S, Wuestner, S, Roschuk, T, Chen, Y, Boual, S, Ali, Z, Phillips, C.C, Hong, M, Maier, S.A, Udrea, F, Hopper, R.H, Hess, O
Other Authors: DEPT OF ELECTRICAL & COMPUTER ENGG
Format: Article
Published: 2020
Online Access:https://scholarbank.nus.edu.sg/handle/10635/175974
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Institution: National University of Singapore
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Summary:10.1038/srep17451

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