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Feng GAO. Linköping University. Verified email at ifm.liu.se. Organic electronics Photovoltaics Perovskites Light-emitting diodes Nanocrystals.
- Research
- Organic Semiconductors
- Metal Halide Perovskites
- Solar Cells
- LEDs
- Lasers
- Funding
- Group and Supervision
Prof. Gao’s group dedicates its efforts to energy devices, with the ambition to both improve device performance and understand the underlying fundamentals. Their current investigations include organic semiconductors and metal halide perovskites, with research focuses such as:
Organic semiconductors have a large potential in low-cost and large-area device applications, benefiting from cheap manufacturing processes such as solution-based roll-to-roll printing. All device applications previously dominated by inorganic semiconductors have presented opportunities for their organic counterparts. Such applications include sola...
Metal halide perovskites have emerged as one of the most popular semiconducting materials since 2009. They have shown unique properties, including: 1. Tunable bandgap 2. High absorption coefficient 3. Broad absorption spectrum 4. High charge carrier mobility 5. Long charge diffusion lengths These properties enable metal halide perovskites to be use...
Although the current solar cell market is dominated by silicon-based devices, the recent emergence of solution-processed solar cells based on organic semiconductors and metal halide perovskites has shown great potential for commercial applications. For example, the power conversion efficiency of perovskite solar cells has soared from a few percent ...
LEDs, which emit light by a solid-state process called electroluminescence, are considered the most promising energy-efficient technologies for future lighting and displays. Metal halide perovskites demonstrate strong photoluminescence and tunable emission energy, making them a promising candidate for the next generation of highly efficient LEDs.
Electrically pumped lasers are considered as a holy grail in the field of optoelectronics. Recent breakthroughs on optically pumped perovskite lasers and high-performance perovskite LEDs indicate great potential of developing perovskites into a new generation of materials for electrically pumped lasers.
Prof. Gao's research group is mainly supported by the following funding agencies: 1. European Research Council 2. VR 3. Swedish Strategic Research Foundation - SSF 4. The Wallenberg Foundations 5. Swedish Energy Agency - Energimyndigheten 6. FORMAS 7. Vinnova 8. Marie Skłodowska-Curie actions
Prof. Feng Gao is deeply involved in both the scientific and career development of his group members. The senior researchers in his group have been awarded the prestigious VR (Starting) Grants, Marie Skłodowska-Curie Individual Fellowship, VINNMER Fellowship. He also values the exchange of ideas: he has sponsored members of his group in exchanges t...
- feng.gao@liu.se
Aug 19, 2014 · Jiaxiang Xia, Hongfei Gao, Shangfa Pan, Tao Huang, Li Zhang, Kunyan Sui, Jun Gao, Xueli Liu, Lei Jiang. Light-Augmented Multi-ion Interaction in MXene Membrane for Simultaneous Water Treatment and Osmotic Power Generation.
- Jun Gao, Wei Guo, Dan Feng, Huanting Wang, Dongyuan Zhao, Lei Jiang
- 2014
Aug 30, 2021 · Open access. Published: 30 August 2021. Quantum superposition demonstrated higher-order topological bound states in the continuum. Yao Wang, Bi-Ye Xie, Yong-Heng Lu, Yi-Jun Chang, Hong-Fei Wang,...
- Yao Wang, Bi Ye Xie, Yong Heng Lu, Yi Jun Chang, Hong Fei Wang, Jun Gao, Zhi Qiang Jiao, Zhen Feng, ...
- 2021
Dec 23, 2022 · Zhonghan Wu, Youxuan Ni, Sha Tan, Enyuan Hu, Lunhua He, Jiuding Liu, Machuan Hou, Peixin Jiao, Kai Zhang, Fangyi Cheng, Jun Chen. Realizing High Capacity and Zero Strain in Layered Oxide Cathodes via Lithium Dual-Site Substitution for Sodium-Ion Batteries.
Articles 1–20. Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences - Cited by 3,090 - nanofluidics - ion transport - bioinspired material.
Articles 1–20. KTH Royal Institute of Technology - Cited by 2,058 - Quantum Information - Quantum Physics.
