English | 繁體

Search in the results

UM

Browse/Search Results:  1-10 of 13 Help

Selected(0)Clear Items/Page:    Sort:
Intercellular interactions mediated by hgf and tgf-Β promote the 3d spherical and xenograft growth of liver cancer cells Journal article
Peng, Zheng, Lv, Xiaolan, Zhang, Pengfei, Chen, Qiao, Zhang, Hongyu, Chen, Jianlin, Ma, Xingxuan, Ouyang, Bohui, Hao, Meng, Tong, Haibo, Guo, Dongwei, Luo, Yi, Huang, Shigao. Intercellular interactions mediated by hgf and tgf-Β promote the 3d spherical and xenograft growth of liver cancer cells[J]. Current Protein and Peptide Science, 2024, 25(1), 71-82.
Authors:  Peng, Zheng;  Lv, Xiaolan;  Zhang, Pengfei;  Chen, Qiao;  Zhang, Hongyu; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:1.9/3.0 | Submit date:2024/09/03
3D spheroid  Coculture  Fibroblasts  Hepatocyte growth factor  Liver cancer cells  Transforming growth factor-β  
Achieving a colour-tuneable afterglow through pH-responsive exciton transfer channels in a carbon dot matrix system Journal article
Tan, Jing, Gu, Hailing, Cheng, Dengke, Yang, Daiqi, Xiao, Chi, Li, Yi, Ouyang, Yaobin, Zhu, Changchao, Qu, Songnan, Li, Qijun. Achieving a colour-tuneable afterglow through pH-responsive exciton transfer channels in a carbon dot matrix system[J]. Journal of Materials Chemistry C, 2024, 12(25), 9175-9181.
Authors:  Tan, Jing;  Gu, Hailing;  Cheng, Dengke;  Yang, Daiqi;  Xiao, Chi; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:5.7/6.0 | Submit date:2024/07/04
Intercellular interactions mediated by hgf and tgf-Β promote the 3d spherical and xenograft growth of liver cancer cells Review article
2024
Authors:  Peng, Zheng;  Lv, Xiaolan;  Zhang, Pengfei;  Chen, Qiao;  Zhang, Hongyu; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:1.9/3.0 | Submit date:2024/05/16
3d Spheroid  Coculture  Fibroblasts  Hepatocyte Growth Factor  Liver Cancer Cells  Transforming Growth Factor-β  
MIPI 2022 Challenge on Under-Display Camera Image Restoration: Methods and Results Conference paper
Feng,Ruicheng, Li,Chongyi, Zhou,Shangchen, Sun,Wenxiu, Zhu,Qingpeng, Jiang,Jun, Yang,Qingyu, Loy,Chen Change, Gu,Jinwei, Zhu,Yurui, Wang,Xi, Fu,Xueyang, Hu,Xiaowei, Hu,Jinfan, Liu,Xina, Chen,Xiangyu, Dong,Chao, Zhang,Dafeng, Huang,Feiyu, Liu,Shizhuo, Wang,Xiaobing, Jin,Zhezhu, Jiang,Xuhao, Shao,Guangqi, Wang,Xiaotao, Lei,Lei, Zhang,Zhao, Zhao,Suiyi, Zheng,Huan, Gao,Yangcheng, Wei,Yanyan, Ren,Jiahuan, Huang,Tao, Fang,Zhenxuan, Huang,Mengluan, Xu,Junwei, Zhang,Yong, Yang,Yuechi, Shu,Qidi, Yang,Zhiwen, Li,Shaocong, Yao,Mingde, Xu,Ruikang, Guan,Yuanshen, Huang,Jie, Xiong,Zhiwei, Zhu,Hangyan, Liu,Ming, Liu,Shaohui, Zuo,Wangmeng, Jia,Zhuang, Song,Binbin, Song,Ziqi, Mao,Guiting, Hou,Ben, Liu,Zhimou, Ke,Yi, Ouyang,Dengpei, Han,Dekui, Zhang,Jinghao, Zhu,Qi, Zheng,Naishan, Zhao,Feng, Jin,Wu, Conde,Marcos, Nathan,Sabari, Timofte,Radu, Xu,Tianyi, Xu,Jun, Hrishikesh,P. S., Puthussery,Densen, Jiji,C. V., Jiang,Biao, Ding,Yuhan, Li,Wan Zhang, Feng,Xiaoyue, Chen,Sijing, Zhong,Tianheng, Lu,Jiyang, Chen,Hongming, Fan,Zhentao, Chen,Xiang. MIPI 2022 Challenge on Under-Display Camera Image Restoration: Methods and Results[C]. Leonid Karlinsky, Tomer Michaeli, Ko Nishino:Springer Science and Business Media Deutschland GmbH, 2023, 60-77.
Authors:  Feng,Ruicheng;  Li,Chongyi;  Zhou,Shangchen;  Sun,Wenxiu;  Zhu,Qingpeng; et al.
Favorite | TC[Scopus]:2 | Submit date:2023/08/03
Image Restoration  Mipi Challenge  Under-display Camera  
Hydrogels with Reversible Heat-Trained Toughness for Convenient Manufacture Journal article
Liu, Yi, Cui, Hongyuan, Wang, Xiaolin, Ouyang, Gangfeng, Guo, Hui. Hydrogels with Reversible Heat-Trained Toughness for Convenient Manufacture[J]. Advanced Materials Technologies, 2022.
Authors:  Liu, Yi;  Cui, Hongyuan;  Wang, Xiaolin;  Ouyang, Gangfeng;  Guo, Hui
Favorite | TC[WOS]:4 TC[Scopus]:3  IF:6.4/8.0 | Submit date:2023/01/30
Antifouling  Heat  Hydrogel Coating  Hydrogel Manufacturing  Mechanical Performance  Training  
Near-infrared fluorophores with absolute aggregation-caused quenching and negligible fluorescence re-illumination for in vivo bioimaging of nanocarriers Journal article
Cai, Yifan, Ji, Xin, Zhang, Yunsen, Liu, Chang, Zhang, Zichen, Lv, Yongjiu, Dong, Xiaochun, He, Haisheng, Qi, Jianping, Lu, Yi, Ouyang, Defang, Zhao, Weili, Wu, Wei. Near-infrared fluorophores with absolute aggregation-caused quenching and negligible fluorescence re-illumination for in vivo bioimaging of nanocarriers[J]. Aggregate, 2022.
Authors:  Cai, Yifan;  Ji, Xin;  Zhang, Yunsen;  Liu, Chang;  Zhang, Zichen; et al.
Favorite | TC[WOS]:30 TC[Scopus]:27 | Submit date:2024/01/10
Absolute Aggregation-caused Quenching  Aza-bodipy  Fluorescence Bioimaging  Fluorescence Re-illumination  Molecular Dynamics Simulations  Nanocarriers  Near-infrared  
Multifunctional nanoparticles of sinomenine hydrochloride for treat-to-target therapy of rheumatoid arthritis via modulation of proinflammatory cytokines Journal article
Lin, Ye, Yi, Ouyang, Hu, Mingyue, Hu, Shengtao, Su, Zhaoli, Liao, Jin, Wang, Wei, Wang, Shenzhi, Liu, Liang, Liu, Bin, Cai, Xiong. Multifunctional nanoparticles of sinomenine hydrochloride for treat-to-target therapy of rheumatoid arthritis via modulation of proinflammatory cytokines[J]. Journal of Controlled Release, 2022, 348, 42-56.
Authors:  Lin, Ye;  Yi, Ouyang;  Hu, Mingyue;  Hu, Shengtao;  Su, Zhaoli; et al.
Favorite | TC[WOS]:34 TC[Scopus]:36  IF:10.5/10.6 | Submit date:2023/01/30
Hybrid Membrane  Inflammatory Cytokines  Prussian Blue Nanoparticle  Rheumatoid Arthritis  Sinomenine Hydrochloride  
Effect of Qinggan Xiefei Fang on increasing susceptibility of influenza virus caused by "liver fire invading lung" Journal article
Lu, Yu Hui, Ouyang, Shu Hua, Weng, Jing Yu, Liu, Pei, Chen, Xin Xing, Hiroshi, Kurihara, Li, Yi Fang, He, Rong Rong. Effect of Qinggan Xiefei Fang on increasing susceptibility of influenza virus caused by "liver fire invading lung"[J]. Yaoxue Xuebao, 2022, 57(6), 1649-1656.
Authors:  Lu, Yu Hui;  Ouyang, Shu Hua;  Weng, Jing Yu;  Liu, Pei;  Chen, Xin Xing; et al.
Favorite | TC[Scopus]:1 | Submit date:2023/01/30
emotional stress  influenza viral pneumonia  oxidative stress  phospholipid peroxidation  Qinggan Xiefei Fang  
Lactate metabolism in rheumatoid arthritis: Pathogenic mechanisms and therapeutic intervention with natural compounds Journal article
Yi, Ouyang, Lin, Ye, Hu, Mingyue, Hu, Shengtao, Su, Zhaoli, Liao, Jin, Liu, Bin, Liu, Liang, Cai, Xiong. Lactate metabolism in rheumatoid arthritis: Pathogenic mechanisms and therapeutic intervention with natural compounds[J]. Phytomedicine, 2022, 100.
Authors:  Yi, Ouyang;  Lin, Ye;  Hu, Mingyue;  Hu, Shengtao;  Su, Zhaoli; et al.
Favorite | TC[WOS]:20 TC[Scopus]:21  IF:6.7/6.2 | Submit date:2023/01/30
Hypoxic Microenvironment  Lactate Metabolism  Natural Compounds  Rheumatoid Arthritis  Synovial Fibroblasts  
Simultaneous Manipulation of Electric and Magnetic Surface Waves by Topological Hyperbolic Metasurfaces Journal article
Liu, Yi, Ouyang, Chunmei, Zheng, Peixia, Ma, Jiajun, Xu, Quan, Su, Xiaoqiang, Li, Yanfeng, Tian, Zhen, Gu, Jianqiang, Liu, Liyuan, Han, Jiaguang, Zhang, Weili. Simultaneous Manipulation of Electric and Magnetic Surface Waves by Topological Hyperbolic Metasurfaces[J]. ACS Applied Electronic Materials, 2021, 3(9), 4203-4209.
Authors:  Liu, Yi;  Ouyang, Chunmei;  Zheng, Peixia;  Ma, Jiajun;  Xu, Quan; et al.
Favorite | TC[WOS]:7 TC[Scopus]:8  IF:4.3/4.4 | Submit date:2021/12/08
Hyperbolic Metasurfaces  Self-collimation Frequencies  Surface Waves  Topological Phase Transition  Isofrequency Contour