Research

[📄Selected Publications]

•Zhang, X., Yang, Y., Zhang, A., Kim, T. ,Kim, K., Burch, K., Rho, J & Liu, Y.(2025).A Single High-Q Dielectric Metasurface for Multifunctional Visible-Range Chiral Detection. Advanced Materials, In preparation

•Zhang, X., Wang, C., Jin, R., Dong, Z. ,Kivshar, Y., & Liu, Y.(2025). Enhancing Superchiral Fields and Circular Dichroism Detection by Achiral Dielectric Metasurfaces. Nano Letters.

•Zhang, X*., Huang, L*., Xu, C., Wang, J., Zhang, A., Liu, Y., & Zhu, H. (2025). Chiral Sensing of Amino Acids under Visible Light via Hydroxypropyl Cellulose Gels. Advanced Optical Materials, 2500053.

•Cai, Z., Zhang, X., Karnik, T. S., Xu, Y., Kim, T., Hu, J., & Liu, Y. (2025). Electrically Tuning Quasi‐Bound States in theContinuum with Hybrid Graphene‐Silicon Metasurfaces. Advanced Optical Materials, 13(8), 2402344.

•Jin, R., Zhang, X., Huo, P., Cai, Z., Lu, Y., Xu, T., & Liu, Y. (2024). Harnessing enantioselective optical forces by quasiboundstates in the continuum. Physical Review Letters, 133(8), 086901.

•Huang, L., Zhang, X., Deng, L., Wang, Y., Liu, Y., & Zhu, H. (2024). Sustainable cellulose-derived organic photonic gels with tunable and dynamic structural color. ACS nano, 18(4), 3627-3635.r

•Xu, Y., Zhang, X., Fu, Y., & Liu, Y. (2021). Interfacing photonics with artificial intelligence: an innovative design strategy forphotonic structures and devices based on artificial neural networks. Photonics Research, 9(4), B135-B152.

[🧪Research Experience]

• Organic Photonic Gels based on cellulose used for enantiomers sensing and measurementin experiment

Supervisor: Professor Yongming Liu, Northeastern University and Professor Hongli Zhu, Northeastern University

•Chiral Molecule detection and sensing and Bound States in Continuum measurement in experiment

Supervisor: Professor Yongming Liu, Northeastern University

•Being responsible for the preparation of dielectric materials and the simulation of gas sensor induction in the semiconductingchannels for ultrasensitive chemical sensing.

Supervisor: Professor Hui Fang, Northeastern University

•Design a new kind of dielectric ceramics applied to the optoelectronic switch by optimizing the combinations of Ba, Zn and Sifor maximum sensitiveness, and build the equivalent circuit model for it. Research on Crystal structure, phase composition and microwave dielectric properties ofCa3MSi2O9 ceramics.

Supervisor: Professor Lei Wen, Deputy Director of Sensitive Ceramics Engineering Center

•Being responsible for the simulation work to use zemax on metalens design.

Supervisor: Professor Chen Lin, the Associate Professor of the National Laboratory of Optoelectronics, HUST

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