Yannan Li, Yaning Sun, Dan Zhang, Yu Xue, Jie Wang, Nan Zhang, Jun Wang, Jiangwei Zhang, Yan Zhao, JunJie Liu* , Four-birds-with-one-stone: A multifunctional Ti-based material for solar driven water evaporation, Nano Research, 2024, 17(5): 4498-4506
Yannan Li, Yu Xue, Jie Wang, Dan Zhang, Yan Zhao*, Jun-Jie Liu*, Antibacterial Hydrophilic ZnO Microstructure Film with Underwater Oleophobic and Self-Cleaning Antifouling Properties, Nanomaterials, 2024, 14(150):
Nan Zhang, Yue-Ting Du, Pei-Qi Yao, Hui-Yi Huang, Li-Rong Zhang, Feng-Shou Zhang, JunJie Liu* , Synergistic Effect of Hyperactive Antifreeze Protein on Inhibition of Gas-Hydrate Growth by Hydrophobic and Hydrophilic Groups, The Journal of Physical Chemistry B, 2023, 127(49): 10469-10477
Yan‑Nan Li Yan Zhao Jun‑Jie Liu*, Precisely engineered bionic Cu‑doped titanium dioxide nanoarrays/fluorine‑doped tin oxide with excellent antibacterial and antifouling properties, Tungsten, 2023, 42864
Ya-Qian Du, Lei Zhang, Gui-Bin Zhang, Bing-Bing Fang, Xin-Peng Luan, Yan-Nan Li, Ta La, JunJie Liu*, Jun Wang*, Discoveries on the link between the properties of thermoelectric and infrared radiation, Applied Physics Letters, 2023, 123, 133903-1-133903-7.
Lirong Zhang, Yanchao Yang, Lu Chai, Qianzhong Li, Junjie Liu*, Hao Lin* and Li Liu,A deep learning model to identify gene expression level using co-binding transcription factor signals,Briefings in Bioinformatics, 2022, 23,1–13.
Recognition of driver genes with potential prognostic implications in lung adenocarcinoma based on H3K79me2. Lu-Qiang Zhang, Hao Yang, Jun-Jie Liu, Li-Rong Zhang , Yu-Duo Hao, Jun-Mei Guo, Hao Lin, Computational and Structural Biotechnology Journal,2022, 20: 5535-5546.
Luqiang Zhang, Guoliang Fan, Junjie Liu, Li Liu, Qianzhong Li*, Hao Lin*, Identification of Key Histone Modifications and Their Regulatory Regions on Gene Expression Level Changes in Chronic Myelogenous Leukemia, Frontiers in Cell and Developmental Biology, 2021, 8 (621578).
Luqiang Zhang#, Junjie Liu#, Li Liu, Guoliang Fan, Yannan Li, Qianzhong Li*, The impact of gene-body H3K36me3 patterns on gene expression level changes in chronic myelogenous leukemia, Gene, 2021, 802 (145862).
Lirong Zhang*, Gaogao Xue, Junjie Liu, Qianzhong Li & Yong Wang*, Revealing transcription factor and histone modification co-localization and dynamics across cell lines by integrating ChIP-seq and RNA-seq data, BMC genomics, 2018, 19:914.
Xue fudong, Liu Junjie*, Guo longfang, Zhang lirong, Li qianzhong, Theoretical study on the bactericidal nature of nanopatterned surfaces, Journal of theoretical biology, 2015, 385:1-7.
Liu Junjie, Qin, Yangzhong, Maya, Bar, Celik, Yeliz, J.S.Wettetlaffer., Braslavsky, Ido, Modeling the influence of antifreeze proteins on three-dimensional ice crystal melt shapes using a geometric approach, Proceedings of the royal society A,2012,468(2147):3311-3322.
Junjie Liu, Qianzhong Li, A theoretical model on thermal hysteresis activity of winter flounder protein ‘HPLC-6’, Chemical Physics Letters , 2003, 378(3-4):238-243.
Junjie Liu, Qianzhong Li, Theoretical model of antifreeze protein-ice adsorption: Binding of large ligands to a two-dimensional homogeneous lattice, Chemical Physics Letters, 2006, 422(1-2):67-71.
Qianzhong Li, Y. Yin, Junjie Liu ,et al, Adsorption Kinetic Model for Thermal Hysteresis Activity in Antifreeze Proteins, Journal of chemical physics, 2006, 124(20):204702-1-204702-8.
Junjie Liu,Wenjing xie,Effects of bound antifreeze proteins on equilibrium configuration of ice-liquid interface, 2010, 3rd international conference on biomedical engineering and informatics, 2556-2559.
Junjie Liu,Wenjing xie,A theoretical model on thermal hysteresis activity of type III antifreeze protein, 2010, 3rd international conference on biomedical engineering and informatics, 2387-2389.
Braslavsky, Ido, Maya, Bar, Liu, Junjie, Qin, Yangzhong, Celik, Yeliz, Davies, Peter L,J.S. Wettetlaffer., 2010. Ice crystal shapes in antifreeze solutions. Cryoletters.
Braslavsky, Ido, Celik, Yeliz, Pertaya, Natalya, Graham, Laurie, Mok, Yee-Foong, Liu, Junjie, Qin, Yangzhong, Davies, Peter L. 2010. Characterization of hyperactive antifreeze proteins. Cryoletters. 31(2):169.
谢文静,刘俊杰,李前忠,第一类鱼抗冻蛋白对冰晶生长界面层结构的影响 ,生物物理学报, 2011 ,27(1):66-76。
刘俊杰,李前忠,抗冻糖蛋白溶液中冰晶生长速率的研究,生物物理学报, 2001, 17(4):713-716
刘俊杰,李前忠,甲虫抗冻蛋白热滞活性的二维吸附结合模型,生物物理学报,2006, 22(4):268-274
刘俊杰,李前忠,抗冻蛋白的二维吸附结合模型,生物物理学报,2006, 22(增刊):369。
刘俊杰,李前忠, 第一类热滞蛋白HPLC-6热滞活性的研究, 太阳成集团tyc122cc学报(自然科学版), 2002, 33(6):642-647。
刘俊杰,李前忠, 第一类热滞蛋白HPLC-6溶液中冰晶表面局部曲率的变化, 太阳成集团tyc122cc学报(自然科学版), 2003, 34(4):412-415。
刘俊杰,李前忠,在低过冷度HPLC-6溶液中冰晶生长习性的研究,太阳成集团tyc122cc学报(自然科学版) (2002) 33(3):267-270
刘俊杰,李前忠,热滞蛋白HPLC-6热滞活性的研究,全国生物物理研讨会论文摘要集,2002,大连
刘俊杰,李前忠, 第一类鱼抗冻蛋白分子对冰晶表面平衡结构的影响,2007,太阳成集团tyc122cc学报(自然科学版), 38(2):187-192,(综合类核心)
刘俊杰,谢文静,李前忠,具有不同重复结构单元数的AFPIII分子的热滞活性,生物物理学报,2009, 25(增刊):348。
谢文静,刘俊杰,李前忠,抗冻蛋白与冰晶表面结合的平衡方程,生物物理学报,2009, 25(增刊):180。
薛福东,刘俊杰,郭龙芳,李前忠,蝉翼表面结构对细菌细胞作用的理论研究,生物物理学报,2014,30(6)1-12.
史明卉, 刘俊杰,赵雪珺,刘俊平(2018). 抗冻蛋白诱导冰晶界面层融化的分子动力学模拟. 太阳成集团tyc122cc学报(自然科学版), 48(5):515-521.
王超,刘俊杰,抗冻蛋白冰水复合体系的分子动力学模拟,太阳成集团tyc122cc学报(自然科学版),2019,50(1):66-73.
刘晓霞,邢光耀,张利绒,刘俊杰,黄粉虫抗冻蛋白分子与冰水界面相互作用的分子动力学模拟,太阳成集团tyc122cc学报(自然科学版),2020,51(6):615-622.
郭庭赫,张利绒,刘俊杰,抗冻糖蛋白在冰晶表面吸附结合的随机不可逆吸附模型,太阳成集团tyc122cc学报(自然科学版),2021,52(6):593-600.
王燕,李艳男,孙亚宁,刘俊杰,亲水型 TiO2 纳米阵列的制备及其抗菌性能的研究,太阳成集团tyc122cc学报(自然科学版),2022,53(2):166-171.
杜跃庭,张楠,张利绒,刘俊杰,第一类鱼抗冻蛋白与天然气水合物吸附结合过程中局部结构变化研究,太阳成集团tyc122cc学报(自然科学版),2023,53(3):251-260.