SCI 论文：
22) Zeng, Y.C., Han, S., Zheng, G.X., Li, Z.Y., & Zeng, Y. Q.* "In-plane emission manipulation of random optical modes by using a zero-index material". Optics Express, 31, 26565 (2023).（编辑精选）
21) Han S., Chua Y. D., Zeng Y. Q.*, et al. "Photonic Majorana quantum cascade laser with polarization-winding emission", Nature Communications, 14, 707 (2023). （编辑精选）
20) Kim, K., Bittner, S., Zeng, Y. Q., et al. “Massively parallel ultrafast random bit generation with a chip-scale laser", Science 371, 948-952(2021).
19) Bittner, S., Kim, K., Zeng, Y. Q., et al. “Spatial structure of lasing modes in wave-chaotic semiconductor microcavities”, New Journal of Physics, 22, 083002 (2020).
18) Zeng, Y. Q., Chattopadhyay, U., Zhu, B. F., et al. “Electrically Pumped Topological Laser with Valley Edge Modes”, Nature 578, 246–250 (2020). (封面)
17) Zeng, Y. Q., Qiang, B. & Wang, Q. J. “Photonic Engineering Technology for the Development of Terahertz Quantum Cascade Lasers”, Advanced Optical Materials 8, 1900573 (2020).
16) Kim, K., Bittner, S., Zeng, Y. Q., et al. “Electrically pumped semiconductor laser with low spatial coherence and directional emission", Applied Physics Letters, 115, 071101 (2019). (封面)
15) Cerjan, A., Bittner, S., Constantin, M., Guy, M., Zeng, Y. Q., et al. “Multimode lasing in wave-chaotic semiconductor microlasers”, Physical Review B 100.6 (2019): 063814.
14) Li, N., Yuan, H., Xu, et al. “Radiation Enhancement by Graphene Oxide on Microelectromechanical System Emitters for Highly Selective Gas Sensing”, ACS sensors 4, 2746-2753 (2019). (封面)
13) Bittner, S., Guazzotti, S., Zeng, Y. Q., et al. “Suppressing spatio-temporal lasing instabilities with wave-chaotic microcavities”, Science 361, 1225-1231(2018).
12) Zeng, Y. Q., Liang, G. Z., Qiang, B., et al. “Two-Dimensional Multimode Terahertz Random Lasing with Metallic Pillars”, ACS Photonics 5, 2928-2935 (2018).
11) Zeng, Y. Q., Liang, G. Z., Qiang, B., et al. “Terahertz emission from localized modes in one-dimensional disordered systems”, Photonics Research 6, 117-122 (2018).
10) Liang, G. Z., Zeng, Y. Q., Hu, X. N., et al. “Monolithic semiconductor lasers with dynamically tunable linear-to-circular polarization”, ACS Photonics 4, 517-524 (2017).
9) Zeng, Y. Q., Liang, G. Z., Liang, H. K., et al. “Designer Multimode Localized Random Lasing in Amorphous lattice at Terahertz Frequencies", ACS Photonics 3, 2453–2460 (2016).
8) Mansha, S., Zeng, Y. Q., Wang, Q. J., et al. “Optimization of TM modes for amorphous slab lasers”, Optics Express 24, 4890-4898 (2016).
7) Yu, X., Dong, Z., Liu, Y., Liu, T., Tao, J., Zeng, Y. Q., et al. “A high performance, visible to mid-infrared photodetector based on graphene nanoribbons passivated with HfO2”, Nanoscale, 8, 327-332 (2016)
6) Meng, B., Zeng, Y. Q., Liang, G. Z., et al. “Broadly continuously tunable slot waveguide quantum cascade lasers based on a continuum-to-continuum active region design”, Applied Physics Letters 107 (2015).
5) Meng, B., Tao, J., Hui Li, X., Zeng, Y. Q., et al. “Tunable single-mode slot waveguide quantum cascade lasers”, Applied Physics Letters, 104, 201106 (2014).
4) Luo, Q., Zeng, Y. Q., Chen, L. W., et al. “Controllable Synthesis of Wurtzite Cu2ZnSnS4 Nanocrystals by Hot-Injection Approach and Growth Mechanism Studies”, Chemistry-an Asian Journal 9, 2309-2316 (2014).
3) Bao, J., Zhou, M., Zeng, Y. Q., et al. “Li0.3V2O5 with high lithium diffusion rate: a promising anode material for aqueous lithium-ion batteries with superior rate performance”, Journal of Materials Chemistry A 1, 5423-5429 (2013).
2) Zhou, M., Bao, J., Bi, W. T., Zeng, Y. Q., et al. “Efficient Water Splitting via a Heteroepitaxial BiVO4 Photoelectrode Decorated with Co-Pi Catalysts”, ChemSusChem, 5, 1420-1425 (2012).
1) Zhou, M., Bao, J., Tao, M., Zhu, R., Zeng, Y. Q., et al. “Rational design of the nanowall photoelectrode for efficient solar water splitting”, Chemical Communications, 48, 3439-3441 (2012).

专利：
1) Zeng, Y. Q., Chattopadhyay, U., Zhang, B. L., Chong, Y. D., Wang, Q. J. “Quantum Cascade Topological Laser with Robust Valley Edge Modes”, 10201906528Y, Singapore.

会议报告：
9) Zeng, Y. Q., Chattopadhyay, U., Zhang, B., et al. “Electrically Pumped Topological Laser with Valley Edge Modes” in Institute of Physics Singapore Meeting 2020 (Singapore, 2020). (邀请报告)
8) Wang, Q. J., Zeng, Y. Q., “Random Lasers at the Mid-infrared and Terahertz Frequencies” in Asia Communications and Photonics Conference 2019 (Chengdu, 2019). (邀请报告)
7) Zeng, Y. Q., Wang, Q. J., “Topological Insulator Terahertz Laser” in 10th International Conference on Materials for Advanced Technologies (Singapore, 2019).
6) Hu, X. N., Cao, Y. L., Cheng, Y. B., Luo, X. S., Song, J. F., Liow, T. Y., Lo, G. Q., Zeng, Y. Q., Wang, Q. J., “ Hybrid lasers in both near- and mid- infrared region” in 2017 Progress in Electromagnetics Research Symposium (Singapore, 2017). (邀请报告)
5) Zeng, Y. Q., Liang, G. Z., Qiang, B., et al. “Two-Dimensional Multimode Terahertz Random Lasing with Metallic Pillars”, in 14th International Conference on Intersubband Transisiton in Quantum Wells (Singapore, 2017).
4) Zeng, Y. Q., Liang, G. Z., Liang, H. K., et al. “Terahertz Emission in One-Dimensional Disordered Systems”, in Conference on Lasers and Electro-Optics (Optical Society of America, 2017): JW2A. 107.
3) Zeng, Y. Q. “Two-Dimensional Terahertz Random Lasers”, in 2016 Young Researchers Workshop on Novel Development and Application of Microwave Metamaterials (Singapore, 2016).
2) Zeng, Y. Q., Liang, G. Z., Liang, H. K., et al. "Random Lasing at Far-infrared Frequency Range”, in International Quantum Cascade Lasers School and Workshop (Cambridge, UK,2016).
1) Zeng, Y. Q., Liang, G. Z., Liang, H. K., et al. "Amorphous Random Lasing at Terahertz Frequency", in Conference on Lasers and Electro-Optics (Optical Society of America, 2016), p. SM2L.5.