Nanofabrication for Nanophotonics

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; Junsuk Rho

doi:10.1021/acsnano.4c10964

Nanofabrication for Nanophotonics

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, Junsuk Rho

Department of Biophysics

Pohang University of Science and Technology
Agency for Science, Technology and Research, Singapore
National University of Singapore
Singapore University of Technology and Design
Ulsan National Institute of Science and Technology
University of Stuttgart
RIKEN
Tokushima University
University of Illinois at Urbana-Champaign
Ludwig Maximilian University of Munich
Monash University
Imperial College London
Hanbat National University
Seoul National University
Korea University
Sungkyunkwan University
University of Central Florida
Max Planck Institute for Solid State Research
Skolkovo Institute of Science and Technology
Northwestern University
Max Planck Institute for Medical Research
Heidelberg University
Gwangju Institute of Science and Technology
Korea Basic Science Institute
Yonsei University
Korea Advanced Institute of Science and Technology
Yonsei University Mirae Campus
Institute of Materials Science of Barcelona (ICMAB-CSIC)
Korea Institute of Industrial Technology
Leibniz Institute of Polymer Research Dresden
Technische Universität Dresden
University of Chemistry and Technology, Prague
University of Maryland, College Park
Massachusetts Institute of Technology
Korea Institute of Science and Technology
University of Science and Technology UST
University of Technology Sydney
Research Institute of Industrial Science & Technology, Pohang

Research output: Contribution to journal › Review article › peer-review

72 Scopus citations

Abstract

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.

Original language	English
Pages (from-to)	12491-12605
Number of pages	115
Journal	ACS Nano
Volume	19
Issue number	13
DOIs	https://doi.org/10.1021/acsnano.4c10964
State	Published - 8 Apr 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

Keywords

Additive manufacturing
Bottom-up fabrication
High-resolution lithography
Metamaterials
Metaphotonics
Metasurfaces
Nanofabrication
Nanomanufacturing
Scalable manufacturing
Top-down fabrication

Access to Document

10.1021/acsnano.4c10964

Cite this

@article{2053b5d5c6014b78ad24046db329770d,

title = "Nanofabrication for Nanophotonics",

abstract = "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.",

keywords = "Additive manufacturing, Bottom-up fabrication, High-resolution lithography, Metamaterials, Metaphotonics, Metasurfaces, Nanofabrication, Nanomanufacturing, Scalable manufacturing, Top-down fabrication",

author = "Younghwan Yang and Youngsun Jeon and Zhaogang Dong and Yang, \{Joel K.W.\} and \{Haddadi Moghaddam\}, Mahsa and Kim, \{Dai Sik\} and Oh, \{Dong Kyo\} and Jihae Lee and Mario Hentschel and Harald Giessen and Dohyun Kang and Gyeongtae Kim and Takuo Tanaka and Yang Zhao and Johannes B{\"u}rger and Maier, \{Stefan A.\} and Haoran Ren and Wooik Jung and Mansoo Choi and Gwangmin Bae and Haomin Chen and Seokwoo Jeon and Jaekyung Kim and Eunji Lee and Hyunjung Kang and Yujin Park and \{Du Nguyen\}, Dang and Inki Kim and Pablo Cencillo-Abad and Debashis Chanda and Xinxin Jing and Na Liu and Martynenko, \{Irina V.\} and Tim Liedl and Yuna Kwak and Nam, \{Jwa Min\} and Park, \{Sang Min\} and Odom, \{Teri W.\} and Lee, \{Hye Eun\} and Kim, \{Ryeong Myeong\} and Nam, \{Ki Tae\} and Hyunah Kwon and Jeong, \{Hyeon Ho\} and Peer Fischer and Jiwon Yoon and Kim, \{Shin Hyun\} and Sangmin Shim and Dasol Lee and P{\'e}rez, \{Luis A.\} and Xiaoyu Qi and Agustin Mihi and Hohyun Keum and Moonsub Shim and Seok Kim and Hanhwi Jang and Jung, \{Yeon Sik\} and Christian Rossner and K{\"o}nig, \{Tobias A.F.\} and Andreas Fery and Zhiwei Li and Koray Aydin and Mirkin, \{Chad A.\} and Junhwa Seong and Nara Jeon and Zhiyun Xu and Tian Gu and Juejun Hu and Hyounghan Kwon and Hojoong Jung and Hossein Alijani and Igor Aharonovich and Joohoon Kim and Junsuk Rho",

note = "Publisher Copyright: {\textcopyright} 2025 American Chemical Society.",

year = "2025",

month = apr,

day = "8",

doi = "10.1021/acsnano.4c10964",

language = "English",

volume = "19",

pages = "12491--12605",

journal = "ACS Nano",

issn = "1936-0851",

publisher = "American Chemical Society",

number = "13",

}

Yang, Y, Jeon, Y, Dong, Z, Yang, JKW, Haddadi Moghaddam, M, Kim, DS, Oh, DK, Lee, J, Hentschel, M, Giessen, H, Kang, D, Kim, G, Tanaka, T, Zhao, Y, Bürger, J, Maier, SA, Ren, H, Jung, W, Choi, M, Bae, G, Chen, H, Jeon, S, Kim, J, Lee, E, Kang, H, Park, Y, Du Nguyen, D, Kim, I, Cencillo-Abad, P, Chanda, D, Jing, X, Liu, N, Martynenko, IV, Liedl, T, Kwak, Y, Nam, JM, Park, SM, Odom, TW, Lee, HE, Kim, RM, Nam, KT, Kwon, H, Jeong, HH, Fischer, P, Yoon, J, Kim, SH, Shim, S, Lee, D, Pérez, LA, Qi, X, Mihi, A, Keum, H, Shim, M, Kim, S, Jang, H, Jung, YS, Rossner, C, König, TAF, Fery, A, Li, Z, Aydin, K, Mirkin, CA, Seong, J, Jeon, N, Xu, Z, Gu, T, Hu, J, Kwon, H, Jung, H, Alijani, H, Aharonovich, I, Kim, J & Rho, J 2025, 'Nanofabrication for Nanophotonics', ACS Nano, vol. 19, no. 13, pp. 12491-12605. https://doi.org/10.1021/acsnano.4c10964

TY - JOUR

T1 - Nanofabrication for Nanophotonics

AU - Yang, Younghwan

AU - Jeon, Youngsun

AU - Dong, Zhaogang

AU - Yang, Joel K.W.

AU - Haddadi Moghaddam, Mahsa

AU - Kim, Dai Sik

AU - Oh, Dong Kyo

AU - Lee, Jihae

AU - Hentschel, Mario

AU - Giessen, Harald

AU - Kang, Dohyun

AU - Kim, Gyeongtae

AU - Tanaka, Takuo

AU - Zhao, Yang

AU - Bürger, Johannes

AU - Maier, Stefan A.

AU - Ren, Haoran

AU - Jung, Wooik

AU - Choi, Mansoo

AU - Bae, Gwangmin

AU - Chen, Haomin

AU - Jeon, Seokwoo

AU - Kim, Jaekyung

AU - Lee, Eunji

AU - Kang, Hyunjung

AU - Park, Yujin

AU - Du Nguyen, Dang

AU - Kim, Inki

AU - Cencillo-Abad, Pablo

AU - Chanda, Debashis

AU - Jing, Xinxin

AU - Liu, Na

AU - Martynenko, Irina V.

AU - Liedl, Tim

AU - Kwak, Yuna

AU - Nam, Jwa Min

AU - Park, Sang Min

AU - Odom, Teri W.

AU - Lee, Hye Eun

AU - Kim, Ryeong Myeong

AU - Nam, Ki Tae

AU - Kwon, Hyunah

AU - Jeong, Hyeon Ho

AU - Fischer, Peer

AU - Yoon, Jiwon

AU - Kim, Shin Hyun

AU - Shim, Sangmin

AU - Lee, Dasol

AU - Pérez, Luis A.

AU - Qi, Xiaoyu

AU - Mihi, Agustin

AU - Keum, Hohyun

AU - Shim, Moonsub

AU - Kim, Seok

AU - Jang, Hanhwi

AU - Jung, Yeon Sik

AU - Rossner, Christian

AU - König, Tobias A.F.

AU - Fery, Andreas

AU - Li, Zhiwei

AU - Aydin, Koray

AU - Mirkin, Chad A.

AU - Seong, Junhwa

AU - Jeon, Nara

AU - Xu, Zhiyun

AU - Gu, Tian

AU - Hu, Juejun

AU - Kwon, Hyounghan

AU - Jung, Hojoong

AU - Alijani, Hossein

AU - Aharonovich, Igor

AU - Kim, Joohoon

AU - Rho, Junsuk

PY - 2025/4/8

Y1 - 2025/4/8

N2 - 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.

AB - 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.

KW - Additive manufacturing

KW - Bottom-up fabrication

KW - High-resolution lithography

KW - Metamaterials

KW - Metaphotonics

KW - Metasurfaces

KW - Nanofabrication

KW - Nanomanufacturing

KW - Scalable manufacturing

KW - Top-down fabrication

UR - https://www.scopus.com/pages/publications/105002693218

U2 - 10.1021/acsnano.4c10964

DO - 10.1021/acsnano.4c10964

M3 - Review article

C2 - 40152322

AN - SCOPUS:105002693218

SN - 1936-0851

VL - 19

SP - 12491

EP - 12605

JO - ACS Nano

JF - ACS Nano

IS - 13

ER -

Nanofabrication for Nanophotonics

Abstract

UN SDGs

Keywords

Access to Document

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