Haodi Wu
Shenzhen Institute of Advanced Technology,Chinese Academy of Sciences
Address:1068 Xueyuan Avenue, Shenzhen University Town, Shenzhen, P.R.China
E-mail: hd.wu2@siat.ac.cn
My main research focus is on radiation detection materials and devices, and a series of distinctive research results in the "materials-devices-systems" chain have been achieved. Over 50 papers have been published, such as Nature Photonics, Science Advances, Nature Communications, Advanced Materials, Matter, ACS Energy Letters, Advanced Functional Materials, etc.
Google scholar: https://scholar.google.com/citations?hl=en&user=lF8z2T8AAAAJ&view_op=list_works&sortby=pubdate
Research Areas
Radiation detectors, Optoelectronics, Scintillators, Perovskite, X-ray Imaging
Publications
Papers
[1] W. Pan#, H. Wu#, J. Luo#, Z. Deng#, G. Niu*, Q. Xie*, J. Tang*, et al. Cs2AgBiBr6 single-crystal X-ray detectors with a low detection limit. Nature Photonics, 2017, 11, 726. (Highly Cited Papers)
[2] H. Wu#, Qian Wang#, Ao Zhang#, G. Niu*, Yuntao Wu*, J. Tang*, et al. One-dimensional scintillator film with benign grain boundaries for high-resolution and fast X-ray imaging. Science Advances, 2023, 9, eadh1789.
[3] H. Wu#, Xu Chen#, Guangda Niu*, et al. Mechanochemical synthesis of high-entropy perovskite toward highly sensitive and stable X-ray flat panel detector. Advanced Materials, 2023, 35, 2301406.
[4] H. Wu#, G. Niu*, J. Tang*, et al. Metal halide perovskites for X-ray detection and imaging. Matter, 2021, 4, 144. (Highly Cited Papers)
[5] J. Pang#, H. Wu#, G. Niu*, et al. Reconfigurable perovskite X-ray detector for intelligent imaging. Nature Communications, 2024, 15, 1769.
[6] B. Yang#, W. Pan#, H. Wu#, G. Niu*, J. Tang*, et al. Heteroepitaxial passivation of Cs2AgBiBr6 wafers with suppressed ionic migration for X-ray imaging. Nature Communications, 2019, 10, 1989. (Highly Cited Papers)
[7] Z. Liu#, H. Wu*, G. Niu*, et al. Robust perovskite X-ray flat panel detector by anisotropic conductive adhesive to regulate thermal stress. ACS Energy Letters, 2024, 9, 1397.
[8] X. Zhao#, P. Fu#, H. Wu*, Z. Xiao*, J. Luo*, et al. Solution-processed hybrid europium (II) iodide scintillator for sensitive X-ray detection. Research, 2023, 6, 0125.
[9] G. Zheng, H. Wu*, L. Xu*, J. Tang*, et al. Direct X-ray detection made of zero-dimensional hybrid metal halide perovskite single crystal. Journal of Materials Chemistry C, 2024, 12, 6288.
[10] H. Wang#, H. Wu#, G. Niu*, W. Li*, J. Fan*, et al. Controllable CsxFA1-xPbI3 single crystal morphology via rationally regulating the diffusion and collision of micelle towards high performance photon detectors. ACS Applied Materials & Interfaces, 2019, 11, 13812.
[11] F. Ye#, H. Lin#, H. Wu#, W. C. H. Choy*, et al. High-quality cuboid CH3NH3PbI3 single crystals for high performance x-ray and photon detectors. Advanced Functional Materials, 2018, 29, 1806984.
[12] J. Li#, C. Wang#, H. Wu#, L. Chen*, Y. Zhang*, et al. Eco-friendly and highly efficient light-emission ferroelectric scintillators by precise molecular design. Advanced Functional Materials, 2021, 31, 2102848.
[13] Fu D#*, H. Wu*, Y. Zhang*, X. Zhang*. Formamidinium perovskitizers and aromatic spacers synergistically building bilayer Dion–Jacobson perovskite photoelectric bulk crystals. ACS Applied Materials & Interfaces, 2022, 14, 11690.
[14] H. Wu, G. Niu, J. Tang. Roadmap on printable electronic materials for next-generation sensors: Printable lead-halide-perovskite radiation detectors. Nano Future, 2024, 8, 032001.
[15] G. Zheng#, B. Song#, L. Xu*, H. Wu*, J. Tang*. High-performance X-ray detection made of bismuth perovskite single crystal based on hydrogen-bond-free and interlayer-spacing engineering strategies. ACS Applied Materials & Interfaces, 2025, 17, 32711.
[16] Q. Zhang#, H. Wu#, K. Deng*, J. Tang, L. Li*. In situ-grown ligand-free perovskite nanocrystals in a polymer membrane for flexible and dynamic X-ray imaging. ACS Nano, 2025.