Younghwan Yang, Youngsun Jeon, Zhaogang Dong, Joel K. W. Yang, Mahsa Haddadi Moghaddam, Dai-Sik Kim, Dong Kyo Oh, Jihae Lee, Mario Hentschel, Harald Giessen, Dohyun Kang, Gyeongtae Kim, Takuo Tanaka, Yang Zhao, Johannes Bürger, Stefan A. Maier, Haoran Ren, Wooik Jung, Mansoo Choi, Gwangmin Bae, Haomin Chen, Seokwoo Jeon, Jaekyung Kim, Eunji Lee, Hyunjung Kang, Yujin Park, Dang Du Nguyen, Inki Kim, Pablo Cencillo-Abad, Debashis Chanda, Xinxin Jing, Na Liu, Irina V. Martynenko, Tim Liedl, Yuna Kwak, Jwa-Min Nam, Sang-Min Park, Teri W. Odom, Hye-Eun Lee, Ryeong Myeong Kim, Ki Tae Nam, Hyunah Kwon, Hyeon-Ho Jeong, Peer Fischer, Jiwon Yoon, Shin-Hyun Kim, Sangmin Shim, Dasol Lee, Luis A. Pérez, Xiaoyu Qi, Agustin Mihi, Hohyun Keum, Moonsub Shim, Seok Kim, Hanhwi Jang, Yeon Sik Jung, Christian Rossner, Tobias A.F. König, Andreas Fery, Zhiwei Li, Koray Aydin, Chad A. Mirkin, Junhwa Seong, Nara Jeon, Zhiyun Xu, Tian Gu, Juejun Hu, Hyounghan Kwon, Hojoong Jung, Hossein Alijani, Igor Aharonovich, Joohoon Kim and Junsuk Rho*,
{"title":"纳米光子学的纳米制造","authors":"Younghwan Yang, Youngsun Jeon, Zhaogang Dong, Joel K. W. Yang, Mahsa Haddadi Moghaddam, Dai-Sik Kim, Dong Kyo Oh, Jihae Lee, Mario Hentschel, Harald Giessen, Dohyun Kang, Gyeongtae Kim, Takuo Tanaka, Yang Zhao, Johannes Bürger, Stefan A. Maier, Haoran Ren, Wooik Jung, Mansoo Choi, Gwangmin Bae, Haomin Chen, Seokwoo Jeon, Jaekyung Kim, Eunji Lee, Hyunjung Kang, Yujin Park, Dang Du Nguyen, Inki Kim, Pablo Cencillo-Abad, Debashis Chanda, Xinxin Jing, Na Liu, Irina V. Martynenko, Tim Liedl, Yuna Kwak, Jwa-Min Nam, Sang-Min Park, Teri W. Odom, Hye-Eun Lee, Ryeong Myeong Kim, Ki Tae Nam, Hyunah Kwon, Hyeon-Ho Jeong, Peer Fischer, Jiwon Yoon, Shin-Hyun Kim, Sangmin Shim, Dasol Lee, Luis A. Pérez, Xiaoyu Qi, Agustin Mihi, Hohyun Keum, Moonsub Shim, Seok Kim, Hanhwi Jang, Yeon Sik Jung, Christian Rossner, Tobias A.F. König, Andreas Fery, Zhiwei Li, Koray Aydin, Chad A. Mirkin, Junhwa Seong, Nara Jeon, Zhiyun Xu, Tian Gu, Juejun Hu, Hyounghan Kwon, Hojoong Jung, Hossein Alijani, Igor Aharonovich, Joohoon Kim and Junsuk Rho*, ","doi":"10.1021/acsnano.4c1096410.1021/acsnano.4c10964","DOIUrl":null,"url":null,"abstract":"<p >Nanofabrication, a pivotal technology at the intersection of nanoscale engineering and high-resolution patterning, has substantially advanced over recent decades. This technology enables the creation of nanopatterns on substrates crucial for developing nanophotonic devices and other applications in diverse fields including electronics and biosciences. Here, this mega-review comprehensively explores various facets of nanofabrication focusing on its application in nanophotonics. It delves into high-resolution techniques like focused ion beam and electron beam lithography, methods for 3D complex structure fabrication, scalable manufacturing approaches, and material compatibility considerations. Special attention is given to emerging trends such as the utilization of two-photon lithography for 3D structures and advanced materials like phase change substances and 2D materials with excitonic properties. By highlighting these advancements, the review aims to provide insights into the ongoing evolution of nanofabrication, encouraging further research and application in creating functional nanostructures. This work encapsulates critical developments and future perspectives, offering a detailed narrative on the state-of-the-art in nanofabrication tailored for both new researchers and seasoned experts in the field.</p>","PeriodicalId":21,"journal":{"name":"ACS Nano","volume":"19 13","pages":"12491–12605 12491–12605"},"PeriodicalIF":16.0000,"publicationDate":"2025-03-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Nanofabrication for Nanophotonics\",\"authors\":\"Younghwan Yang, Youngsun Jeon, Zhaogang Dong, Joel K. W. Yang, Mahsa Haddadi Moghaddam, Dai-Sik Kim, Dong Kyo Oh, Jihae Lee, Mario Hentschel, Harald Giessen, Dohyun Kang, Gyeongtae Kim, Takuo Tanaka, Yang Zhao, Johannes Bürger, Stefan A. Maier, Haoran Ren, Wooik Jung, Mansoo Choi, Gwangmin Bae, Haomin Chen, Seokwoo Jeon, Jaekyung Kim, Eunji Lee, Hyunjung Kang, Yujin Park, Dang Du Nguyen, Inki Kim, Pablo Cencillo-Abad, Debashis Chanda, Xinxin Jing, Na Liu, Irina V. Martynenko, Tim Liedl, Yuna Kwak, Jwa-Min Nam, Sang-Min Park, Teri W. Odom, Hye-Eun Lee, Ryeong Myeong Kim, Ki Tae Nam, Hyunah Kwon, Hyeon-Ho Jeong, Peer Fischer, Jiwon Yoon, Shin-Hyun Kim, Sangmin Shim, Dasol Lee, Luis A. Pérez, Xiaoyu Qi, Agustin Mihi, Hohyun Keum, Moonsub Shim, Seok Kim, Hanhwi Jang, Yeon Sik Jung, Christian Rossner, Tobias A.F. König, Andreas Fery, Zhiwei Li, Koray Aydin, Chad A. Mirkin, Junhwa Seong, Nara Jeon, Zhiyun Xu, Tian Gu, Juejun Hu, Hyounghan Kwon, Hojoong Jung, Hossein Alijani, Igor Aharonovich, Joohoon Kim and Junsuk Rho*, \",\"doi\":\"10.1021/acsnano.4c1096410.1021/acsnano.4c10964\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p >Nanofabrication, a pivotal technology at the intersection of nanoscale engineering and high-resolution patterning, has substantially advanced over recent decades. This technology enables the creation of nanopatterns on substrates crucial for developing nanophotonic devices and other applications in diverse fields including electronics and biosciences. Here, this mega-review comprehensively explores various facets of nanofabrication focusing on its application in nanophotonics. It delves into high-resolution techniques like focused ion beam and electron beam lithography, methods for 3D complex structure fabrication, scalable manufacturing approaches, and material compatibility considerations. Special attention is given to emerging trends such as the utilization of two-photon lithography for 3D structures and advanced materials like phase change substances and 2D materials with excitonic properties. By highlighting these advancements, the review aims to provide insights into the ongoing evolution of nanofabrication, encouraging further research and application in creating functional nanostructures. 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Nanofabrication, a pivotal technology at the intersection of nanoscale engineering and high-resolution patterning, has substantially advanced over recent decades. This technology enables the creation of nanopatterns on substrates crucial for developing nanophotonic devices and other applications in diverse fields including electronics and biosciences. Here, this mega-review comprehensively explores various facets of nanofabrication focusing on its application in nanophotonics. It delves into high-resolution techniques like focused ion beam and electron beam lithography, methods for 3D complex structure fabrication, scalable manufacturing approaches, and material compatibility considerations. Special attention is given to emerging trends such as the utilization of two-photon lithography for 3D structures and advanced materials like phase change substances and 2D materials with excitonic properties. By highlighting these advancements, the review aims to provide insights into the ongoing evolution of nanofabrication, encouraging further research and application in creating functional nanostructures. This work encapsulates critical developments and future perspectives, offering a detailed narrative on the state-of-the-art in nanofabrication tailored for both new researchers and seasoned experts in the field.
期刊介绍:
ACS Nano, published monthly, serves as an international forum for comprehensive articles on nanoscience and nanotechnology research at the intersections of chemistry, biology, materials science, physics, and engineering. The journal fosters communication among scientists in these communities, facilitating collaboration, new research opportunities, and advancements through discoveries. ACS Nano covers synthesis, assembly, characterization, theory, and simulation of nanostructures, nanobiotechnology, nanofabrication, methods and tools for nanoscience and nanotechnology, and self- and directed-assembly. Alongside original research articles, it offers thorough reviews, perspectives on cutting-edge research, and discussions envisioning the future of nanoscience and nanotechnology.
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