| Semiconductor metasurfaces Part 1 |
2024 |
volume 115 |
| Semiconductor metasurfaces Part 2 |
2024 |
volume 117 |
| Boron nitride |
2024 |
volume 116 |
| Emerging ferroelectric materials and devices |
2023 |
volume 114 |
| Non-layered 2D materials |
2023 |
volume 113 |
| 2D excitonic materials and devices |
2023 |
volume 112 |
| Roadmap for skutterudites and point defects in GaN |
2022 |
volume 111 |
| Brillouin scattering Part 2 |
2022 |
volume 110 |
| Brillouin scattering Part 1 / edited by Benjamin J. Eggleton (School of Physics, University of Nano Institute (Sydney Nano), University of Sidney, NSW, Australia), Michael J. Steel (School of Mathematical and Physical Sciences, Macquarie University, Sydney, NSW, Australia), Christoper G. Poulton (School of Mathematical and Physical Sciences, University of Technology Sydney, Sydney, NSW, Australia) |
2022 |
volume 109 |
| Micro LEDs |
2021 |
volume 106 |
| Diamond for quantum applications Part 2 |
2021 |
volume 104 |
| Ultrawide bandgap semiconductors |
2021 |
volume 107 |
| Topological insulator and related topics |
2021 |
volume 108 |
| Diamond for quantum applications Part 1 |
2020 |
volume 103 |
| Semiconductors and semimetals volume 103 Diamond for quantum applications Part 1 / edited by Christoph Nebel (Fraunhofer Institute for Applied Solid State Physics, Freiburg, Germany; Nanomaterials Research Institute, Kanazawa University, Kanazawa, Japan), Igor Aharonovich (Faculty of Science, University of Technology Sydnea, Australia), Norikazu Mizuochi (Kyoto University, Kyoto, Japan), Mutsuko Hatano (Tokyo Institute of Technology, Tokyo, Japan) |
2020 |
volume 103 |
| Semiconductor quantum science and technology |
2020 |
volume 105 |
| Photonic crystal metasurface optoelectronics |
2019 |
volume 100 |
| III-nitride electronic devices |
2019 |
volume 102 |
| Future directions in silicon photonics |
2019 |
volume 101 |
| Nanowires for energy applications |
2018 |
volume 98 |
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