EDUCATION

• Ph.D., 2014.9-2020.7, University of Science and Technology of China. Major in Synchrotron

Radiation Technology and Application

• Joint Ph.D., 2018.9-2019.9, Lawrence Berkeley National Laboratory - Advanced Light Source

• B.A., 2010.9-2014.7, Chengdu University of Information Technology. Major in Materials Physics

POSTDOCTORAL RESEARCH

Southern University of Science and Technology,2020.9-2022.9. Development of Modulation-based

(Bragg) Coherent Diffraction Imaging.

PROFESSIONAL EXPERIENCE

Research Fellow, 2022.10-now, Southern University of Science and Technology, SUSTech.

Visiting Scholar, 2022.10-now, Deutsches Elektronen-Synchrotron, DESY.

RESEARCH INTERESTS

Modulation-based (Bragg) Coherent Diffraction Imaging; Ptychography; Synchrotron X-ray

Diffraction;

RESEARCH EXPERIENCES

1. Development of Bragg Coherent Modulation Imaging (BCMI) for Highly Strained Nanocrystals

| Advised by A/Prof. Fucai Zhang, SUSTech and Prof. Ivan Vartaniants, DESY

• Established the BCMI principles and designed a dedicated phase retrieval algorithm

• Validation of the effectiveness of BCMI for highly strained nanocrystal by numerical simulations

• First 2D BCMI experiment performed on Max IV’s nanoMax beamline

2. Extended Coherent Modulation Imaging (CMI) for Single-Shot Object Retrieval Free from

Illumination Artifacts | Advised by A/Prof. Fucai Zhang, SUSTech

• A nested CMI phase retrieval algorithm was designed for quantitative imaging

• Committed to releasing the experiment limitations of CMI experiment (e.g. relax the types of

illumination and the sample-to-modulator distance)

3. Development of Continuous Scanning System over Arbitrary Trajectories for Ptychographical

Imaging. | Advised by Prof. David Shapiro, Lawrence Berkeley National Lab.

• Correlative conventional scanning and ptychographic soft x-ray microscopy

• Established a set of offline high-precision sample scanning platform for scanning trajectory

development

4. Probing the Structure of Energy Materials and Epitaxial Heterojunction Film by Synchrotron

X-ray Diffraction Technique. | Advised by Prof. Chen Gao and A/Prof. Zhenlin Luo, USTC

• (In-situ) synchrotron X-ray diffraction researches on the structure-properties relationship of

low-dimensional, metastable perovskite optical functional materials, e.g., colloidal CsPbBr3

nanocrystals and organometallic halide CH3NH3PbI3.

• Probing the structure of VO2, Pb(Mg1/3Nb2/3)O3-0.34 -PbTiO3 epitaxial heterojunction film by

reciprocal space mapping (RSM) technique