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Organic nanoelectronics

Organic nano electronics

Our focus is on creating innovative materials and devices that utilize ion-electron coupling to enhance the capabilities of future electronics.

The Organic Nanoelectronics group (ONE) specializes in creating and studying new multifunctional materials for various purposes, primarily in electronics and energy harvesting. Our group envisions a world where electronic components are seamlessly integrated into everyday objects and even the human body, constantly monitoring our health and transforming the way we interact and communicate with our surroundings. To achieve this, we focus on developing novel functional materials and devices with ion-electron coupled functionalities.

Our research is interdisciplinary, combining chemistry, physics, materials science, and device engineering. In our group, students and postdoctoral fellows can receive training in a wide range of areas, such as polymer synthesis, surface chemistry, printing, device fabrication, and the use of advanced techniques to analyze physical properties.

Our goal is to foster a research environment that promotes creativity and innovation. We focus on advancing the boundaries of polymer electronics and contributing to the development of transformative technologies that will shape a connected future.

Group members

Photo of Ugo Bruno
Ugo Bruno
Photo of Lorenzo Calcaterra
Lorenzo Calcaterra
PhD student
Photo of Simone Fabiano
Simone Fabiano
Professor, Head of Unit
Photo of Dace Gao
Dace Gao
Postdoc
Photo of Jennifer Gerasimov
Jennifer Gerasimov
Principal Research Engineer
Photo of Junda Huang
Junda Huang
PhD student
Photo of Junpeng Ji
Junpeng Ji
PhD student
Placeholder for missing image of Wenlong Jin
Wenlong Jin
Postdoc
Photo of Qifan Li
Qifan Li
PhD student
Photo of Tiefeng Liu
Tiefeng Liu
Postdoc
Photo of Tom van der Pol
Tom van der Pol
Postdoc
Photo of Marc-Antoine Stoeckel
Marc-Antoine Stoeckel
Postdoc
Photo of Deyu Tu
Deyu Tu
Associate Professor, Docent
Photo of Han-Yan Wu
Han-Yan Wu
Principal Research Engineer
Photo of Miao Xiong
Miao Xiong
Postdoc
Photo of Chi-Yuan Yang
Chi-Yuan Yang
Assistant Professor

News

Two pipettes poring liquids on to a disk.

Research for a sustainable future in ten new projects

Photosynthetic materials, two-dimensional noble metals and sustainable semiconductors are some of the projects at LiU that have been granted funding from the research programme Wallenberg initiative materials science for sustainability – WISE.
Sheet of glass with droplet.

Next-generation sustainable electronics are doped with air

Researchers at LiU have developed a new method where organic semiconductors can become more conductive with the help of air as a dopant. The study is a significant step towards future sustainable organic semiconductors.
Person in labcoat and gloves pours a blue liquid onto a glass surface.

New sustainable method for creating organic semiconductors

Researchers at LiU have developed a new, more environmentally friendly way to create conductive inks for use in organic electronics. The findings pave the way for future sustainable technology.

Publications

2025

Tero-Petri Ruoko, Marc-Antoine Stoeckel, Rakesh Puttreddy, Chiyuan Yang, Silan Zhang, Ziang Wu, Nuno R. Candeias, Paolo Samori, Han Young Woo, Simone Fabiano, Arri Priimagi (2025) Angewandte Chemie International Edition, Vol. 64, Article e202424979 (Article in journal)
Junpeng Ji, Dace Gao, Hanyan Wu, Miao Xiong, Nevena Stajkovic, Claudia Latte Bovio, Chiyuan Yang, Francesca Santoro, Deyu Tu, Simone Fabiano (2025) Nature Communications, Vol. 16, Article 4334 (Article in journal)
Jun-Da Huang, Qifan Li, Qingqing Wang, Tiefeng Liu, Sang Young Jeong, Sri Harish Kumar Paleti, Tom van der Pol, Kai Xu, Hanyan Wu, Natalie Pinchin, Marc-Antoine Stoeckel, Wenlong Jin, Aleksandr Perevedentsev, Xianjie Liu, Juan Sebastian Reparaz, Mariano Campoy-Quiles, Han Young Woo, Christian Muller, Mats Fahlman, Chiyuan Yang, Simone Fabiano (2025) Advanced Materials, Vol. 37, Article 2502426 (Article in journal)
Sri Harish Kumar Paleti, Shuichi Haraguchi, Zhiqiang Cao, Mariavittoria Craighero, Joost Kimpel, Zijin Zeng, Przemyslaw Sowinski, Di Zhu, Judith Tarres, Youngseok Kim, Qifan Li, Jun-Da Huang, Alexei Kalaboukhov, Besira Mihiretie, Simone Fabiano, Xiaodan Gu, Christian Muller (2025) Macromolecules, Vol. 58, p. 3578-3588 (Article in journal)
Yao Yao, Robert M. Pankow, Wei Huang, Cui Wu, Lin Gao, Yongjoon Cho, Jianhua Chen, Dayong Zhang, Sakshi Sharma, Xiaoxue Liu, Yuyang Wang, Bo Peng, Sein Chung, Kilwon Cho, Simone Fabiano, Zunzhong Ye, Jianfeng Ping, Tobin J. Marks, Antonio Facchetti (2025) Proceedings of the National Academy of Sciences of the United States of America, Vol. 122, Article e2414879122 (Article in journal)
Neha Sepat, Mikhail Vagin, Stefano Carli, Edoardo Marchini, Stefano Caramori, Qilun Zhang, Slawomir Braun, Zhixing Wu, Penghui Ding, Kosala Wijeratne, Ioannis Petsagkourakis, Ujwala Ail, Eleni Pavlopoulou, Tero-Petri Ruoko, Simone Fabiano, Klas Tybrandt, Mats Fahlman, Reverant Crispin, Magnus Berggren, Viktor Gueskine, Isak Engquist (2025) Small, Vol. 21, Article 2409471 (Article in journal)

2024

Claudia Latte Bovio, Paola Campione, Hanyan Wu, Qifan Li, Ana de la Fuente Duran, Alberto Salleo, Simone Fabiano, Grazia Maria Lucia Messina, Francesca Santoro (2024) Small (Article in journal)
Diana Priyadarshini, Changbai Li, Rebecka Rilemark, Tobias Abrahamsson, Mary Donahue, Xenofon Strakosas, Fredrik Ek, Roger Olsson, Chiara Musumeci, Simone Fabiano, Magnus Berggren, Eva Olsson, Daniel Simon, Jennifer Gerasimov (2024) Advanced Electronic Materials (Article in journal)
Simiao Yu, Hanyan Wu, Vincent Lemaur, Christina J. Kousseff, David Beljonne, Simone Fabiano, Christian B. Nielsen (2024) Angewandte Chemie International Edition, Vol. 63, Article e202410626 (Article in journal)
Haoran Tang, Yuanying Liang, Chiyuan Yang, Xi Luo, Jiangkai Yu, Kai Zhang, Simone Fabiano, Fei Huang (2024) Materials Horizons, Vol. 11, p. 5419-5428 (Article in journal)
Tiefeng Liu, Gulzada Beket, Qifan Li, Qilun Zhang, Sang Young Jeong, Chi-Yuan Yang, Jun-Da Huang, Yuxuan Li, Marc-Antoine Stoeckel, Miao Xiong, Tom van der Pol, Jonas Bergqvist, Han Young Woo, Feng Gao, Mats Fahlman, Thomas Osterberg, Simone Fabiano (2024) Advanced Science, Vol. 11, Article 2405676 (Article in journal)
Wenlong Jin, Chiyuan Yang, Riccardo Pau, Qingqing Wang, Eelco K. Tekelenburg, Hanyan Wu, Ziang Wu, Sang Young Jeong, Federico Pitzalis, Tiefeng Liu, Qiao He, Qifan Li, Jun-Da Huang, Renee Kroon, Martin Heeney, Han Young Woo, Andrea Mura, Alessandro Motta, Antonio Facchetti, Mats Fahlman, Maria Antonietta Loi, Simone Fabiano (2024) Nature, Vol. 630, p. 96-101 (Article in journal)
Dace Gao, Simone Fabiano (2024) Science, Vol. 384, p. 509-510 (Article in journal)
Marc-Antoine Stoeckel, Kui Feng, Chiyuan Yang, Xianjie Liu, Qifan Li, Tiefeng Liu, Sang Young Jeong, Han Young Woo, Yao Yao, Mats Fahlman, Tobin J. Marks, Sakshi Sharma, Alessandro Motta, Xugang Guo, Simone Fabiano, Antonio Facchetti (2024) Angewandte Chemie International Edition, Vol. 63, Article e202407273 (Article in journal)
Harikesh Padinhare Cholakkal, Deyu Tu, Simone Fabiano (2024) NATURE ELECTRONICS, Vol. 7, p. 525-536 (Article, review/survey)

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LOE

Power plant, organic electronics, a red rose.

Laboratory of Organic Electronics

At Laboratory of Organic Electronics, LOE, we explore electronic and optical properties of organic materials and organic-inorganic hybrid systems.

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