Dr. Zeng received his Ph.D degree from South China Normal University in 2018. His research interests focus on biophysical new technologies, new methods in the application of botany and brain science: including the research of optical molecular probe technology in the detection of plant stress physiology, and the development of bio-photonics sensing equipment.

Email：zenglzh@scnu.edu.cn, 281014933@qq.com

Employment

2006/7-Now South China Normal University, Teaching assistant/Lecturer/associate professor

Publications 

(1) Lizhang Zeng, Jun Zhou, Bo Li and Da Xing*, A high-sensitivity optical device for the early monitoring of plant pathogen attack via the in vivo detection of ROS bursts. Front. Plant Sci. 2015; 6(96). doi:10.3389/fpls.2015.00096 (SCI IF 4.495).

(2)  Lizhang Zeng, Yongqiang Wang, Jun Zhou*, Spectral analysis on origination of the bands at 437 nm and 475.5 nm of chlorophyll fluorescence excitation spectrum in Arabidopsis chloroplasts. Luminescence, 2016; 31, 769 –774. (SCI IF 1.452).

(3) Lizhang Zeng, Da Xing*, Lingrui Zhang，Qiang Li and et al. Spectroscopic studies on origination of the peak at 730 nm in delayed fluorescence of chloroplasts. Luminescence 2007；22(4):387-92(SCI IF 1.452).

(4) Jun Zhou, Lizhang Zeng, Jian Liu, Da Xing*, Dysfunction of xanthophyll cycle increases plant susceptibility to Sclerotinia sclerotiorum, PLOS Pathog. (2015), Dio: 10.1371/journal.ppat.1004878. (SCI IF 7.003).

(5) Yongqiang Wang, Lizhang Zeng and Da Xing*, ROS-mediated enhanced transcription of CYP38 promotes the plant tolerance to high light stress by suppressing GTPase activation of PsbO2, Front. Plant Sci. 2015, 6(777). doi: 10.3389/fpls.2015.00777. (SCI IF 4.495).

(6) Jun Zhou, Meng Cheng, Lizhang Zeng, Weipeng Liu, Tao Zhang, Da Xing*, Specific capture of the hydrolysate on magnetic beads for sensitivedetecting plant vacuolar processing enzyme activity. Biosensors and Bioelectronics, 2016, 79: 881-886. (SCI IF 7.476).

(7) Feifei Lv, Jun Zhou, Lizhang Zeng, Da Xing*, b-cyclocitral upregulates salicylic acid signalling to enhance excess light acclimation in Arabidposis, J. Exp. Bot. 2015, doi: 10.1093/jxb/erv231. (SCI IF 5.677)