1. Guan Y. J., Li Z., He F., Huang Y. T., Song W. J., Hu J. “On-Off” thermoresponsive coating agent containing salicylic acid applied to maize seeds for chilling tolerance. PloS One, 2015, 10(3): e0120695
2. Guan Y. J., Wang J. C., Tian Y. X., Hu W. M., Zhu L. W., Zhu S. J., Hu J. The novel approach to enhance seed security: dual anti-counterfeiting methods applied on tobacco pelleted seeds. Plos One, 2013, 8(2): e57274
3. Guan Y. J., Wang J. C., Hu J., Li Y. P., Ma W. G., Hu W. M., Zhu S. J. Pathway to keep seed security: The application of fluorescein to identify true and fake pelleted seed in tobacco. Industrial Crops and Products, 2013, 45: 367-372
4. Tian Y. X., Li Z., He F., Guan Y. J.,* Zhu S. J., Hu J. A novel anti-counterfeiting method: Application and decompositionof RB for broad bean seeds (Vicia faba L.). Industrial Crops and Products, 2014, 61: 278-283
5. Guan Y. J., Wang J. C., Hu J., Tian Y. X., Hu W. M., Zhu S. J. A novel fluorescent dual-labeling method for anti-counterfeiting pelleted tobacco seeds. Seed Science and Technology, 2013, 41(1): 1-6
6. Guan Y. J., Hu J., Wang Z. F., Zhu S. J., Wang J. C., Knapp, A. Time series regression analysis between changes in kernel size and seed vigor during developmental stage of sh2 sweet corn (Zea mays L.) seeds. Scientia Horticulturae, 2013. 154: 25-30
7. Guan Y. J., Li Y. P., Hu J., Ma W. G., Zheng Y. Y., Zhu S. J. A new effective fluorescent labeling method for anti-counterfeiting of tobacco seed using Rhodamine B. Australian Journal of Crop Science, 2013, 7(2): 234-240
8. Guan Y. J., Cui H. W., Ma W.G., Zheng Y. Y., Tian Y. X., Hu J. An enhanced drought-tolerant method using SA-loaded PAMPS polymer materials applied on tobacco pelleted seeds. Scientific World Journal. 2014, 2014, Article ID 752658, 9 pages.
9. Guan Y. J., Hu J., Li Y. P., Ma W. G., Zheng Y. Y. A new anti-counterfeiting method - fluorescent labeling by safranine T in tobacco seed. Acta Physiologiae Plantarum, 2011, 33:1271-1276
10. Guan Y. J., Hu J., Wang X. J, Shao C. X. Seed priming with chitosan improves maize germination and seedling growth in relation to physiological changes under low temperature stress. Journal of Zhejiang University SCIENCE B, 2009, 10(6): 427-433