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Neutrophil membrane camouflaged nanoprobes for NIR-II fluorescence imaging of inflamed, high-risk atherosclerotic plaques in mouse and rabbit models Journal article
Jiang, Z. Z., Geng, X. R., Su, L. L., Chen, A. N., Sheng, Z. H., Jiang, T. A.. Neutrophil membrane camouflaged nanoprobes for NIR-II fluorescence imaging of inflamed, high-risk atherosclerotic plaques in mouse and rabbit models[J]. Materials Today Chemistry, 2022, 26, 101062.
Authors:  Jiang, Z. Z.;  Geng, X. R.;  Su, L. L.;  Chen, A. N.;  Sheng, Z. H.; et al.
Favorite | TC[WOS]:13 TC[Scopus]:12  IF:6.7/7.1 | Submit date:2023/01/30
Neutrophils  Bionic Nanoparticles  Atherosclerotic Plaque  Second Near-infrared Spectral Region  Fluorescence Imaging  
Accelerating precision anti-cancer therapy by time-lapse and label-free 3D tumor slice culture platform Journal article
Xing, F., Huang, S., Liu, Y.-C., Lyu, X., Su, S. M., Chan, U. I., Wu, P.-C., Yan, Y., Ai, N., Li, J., Zhao, M., Rajendran, B., Liu, J., Shao, F., Sun, H., Luo, G., Zhu, W., Miao, K., Zhao, Q., Luo, KQ., Ge, W., Xu, X., Wang, G., Liu, T.-M., Deng, C.-X.. Accelerating precision anti-cancer therapy by time-lapse and label-free 3D tumor slice culture platform[J]. Theranostics, 2021, 9415-9430.
Authors:  Xing, F.;  Huang, S.;  Liu, Y.-C.;  Lyu, X.;  Su, S. M.; et al.
Favorite |   IF:12.4/12.0 | Submit date:2022/08/26
Tumor Organoid  Lipofuscin  Two-photon Fluorescence Microscopy  
Integrated computer-aided formulation design: A case study of andrographolide/ cyclodextrin ternary formulation Journal article
Gao, H., Su, Y, Wang, W., Xiong, W., Sun, X., Ji, Y., Yu, H., Li, H.-F., Ouyang, D.. Integrated computer-aided formulation design: A case study of andrographolide/ cyclodextrin ternary formulation[J]. Asian Journal of Pharmaceutical Sciences, 2021, XXX-XXX.
Authors:  Gao, H.;  Su, Y;  Wang, W.;  Xiong, W.;  Sun, X.; et al.
Favorite |   IF:10.7/9.0 | Submit date:2022/08/11
computer-aided  formulation design  andrographolide/cyclodextrin  
The potentials of Uncariae Ramulus Cum Uncis for treatment of migraine: Targeting CGRP in the trigeminovascular system Journal article
Chong, C. M., Zhong, Z., Vong, C. T., Wang, S., Lu, J., Zhong, H., Su, H. X., Wang, Y. T.. The potentials of Uncariae Ramulus Cum Uncis for treatment of migraine: Targeting CGRP in the trigeminovascular system[J]. Current Neuropharmacology, 2020, 1090-1100.
Authors:  Chong, C. M.;  Zhong, Z.;  Vong, C. T.;  Wang, S.;  Lu, J.; et al.
Favorite | TC[WOS]:3 TC[Scopus]:3 | Submit date:2022/07/27
Cgrp  Uncariae Ramulus Cum Uncis  Inflammation  Migraine  Nitric Oxide  Trigeminovascular System  
Genetic risk of extranodal natural killer T-cell lymphoma: a genome-wide association study in multiple populations Journal article
Lin G.-W., Xu C., Chen K., Huang H.-Q., Chen J., Song B., Chan J.K.C., Li W., Liu W., Shih L.-Y., Chuang W.-Y., Kim W.S., Tan W., Peng R.-J., Laurensia Y., Cheah D.M.Z., Huang D., Cheng C.L., Su Y.-J., Tan S.-Y., Ng S.-B., Tang T.P.L., Han K., Wang V.Y.-F., Jia W.-H., Pei Z., Li Y.-J., Gao S., Shi Y., Hu Z., Zhang F., Zhang B., Zeng Y.-X., Shen H., He L., Ong C.K., Lim S.T., Chanock S., Kwong Y.-L., Lin D., Rothman N., Khor C.C., Lan Q., Bei J.-X., Au W.-Y., Chiu B., Fan L., Li Z., LAM T.H., Liang R., Yeh S.-P., Xu J., Ip D.K.M., Li G., Xu G., Wang X., Bai O., Cai Q.-Q., Xia Y., Chen J.-R., Luo C.-L., Xiong X.-Y., Zeng Y., Wei P.-P., Liu C.-J., Liu Y.-X., Cao Y.-L., He S., Liu Y., Ha J.C.H., Khoo L.P., Kee R.X., Tan J., Liu Y., Zhang F., Feng Y., Rao H., Chng W.J., Chan J.Y.S., Somasundaram N.D., Tao M., Ras M.F.B.H., Yeoh K.-W., Goh Y.T., Ong S.Y., Grigoropoulos N.F., Wong E.K.Y., Pang J.W.L., Lim J.Q., Chia B.K.H., Kim S.J., Yoon S.E., Choi S., Kuo C.-Y., Chen T.-Y., Su Y.-C., Huang W.-T., Lee M.-Y., Yao W., Ngan K.-C., Liu H., Lee H., Yip S.-F., Liu J., Li J., Rabkin C.S., Berndt S., Bassig B., Hu W., Zhao M., Li Y., Zhai Q., Shao Z., Qiu L., Wang J., Xu F.-P., Chen L., Hou Y., Xu S., Huang Z., Xie M., Li M., Zhong S., Zhang Y., Gu D., Wang X., Foo J.N., Li Z., Dai J., Sun L., Wang Z., Liu H., Zhou H., Sun Y., Koh W.-P., Heng C.-K., Hong C.S., Ahn J., Park K.H., Tin A., Gu J., Xia X., Li B., Yu X., International NKTCL Working Group. Genetic risk of extranodal natural killer T-cell lymphoma: a genome-wide association study in multiple populations[J]. The Lancet Oncology, 2020, 21(2), 306-316.
Authors:  Lin G.-W.;  Xu C.;  Chen K.;  Huang H.-Q.;  Chen J.; et al.
Favorite | TC[WOS]:49 TC[Scopus]:52  IF:41.6/42.2 | Submit date:2022/06/15
Noncollinear magnetic structure and anisotropic magnetoelastic coupling in cobalt pyrovanadate Co2V2O7 Journal article
Ji, W. H., Yin, L., Zhu, W. M., Kumar , C. M. N., Li, C., Li, H.-F., Jin, W. T., Nandi, S., Sun, X., Su, Y., Brueckel, Th., Lee, Y., Harmon, B. N., Ke, L., Ouyang, Z. W., Xiao, Y.. Noncollinear magnetic structure and anisotropic magnetoelastic coupling in cobalt pyrovanadate Co2V2O7[J]. PHYSICAL REVIEW B, 2019, 100(13), 134420.
Authors:  Ji, W. H.;  Yin, L.;  Zhu, W. M.;  Kumar , C. M. N.;  Li, C.; et al.
Favorite | TC[WOS]:14 TC[Scopus]:16 | Submit date:2022/08/11
Magnetic Structure  Magnetoelastic Coupling  Cobalt Pyrovanadate  
Noncollinear magnetic structure and anisotropic magnetoelastic coupling in cobalt pyrovanadate Co2 V2 O7 Journal article
Ji, W. H., Yin, L., Zhu, W. M., Kumar, C. M.N., Li, C., Li, H. F., Jin, W. T., Nandi, S., Sun, X., Su, Y., Brückel, Th, Lee, Y., Harmon, B. N., Ke, L., Ouyang, Z. W., Xiao, Y.. Noncollinear magnetic structure and anisotropic magnetoelastic coupling in cobalt pyrovanadate Co2 V2 O7[J]. Physical Review B, 2019, 100(13), 134420.
Authors:  Ji, W. H.;  Yin, L.;  Zhu, W. M.;  Kumar, C. M.N.;  Li, C.; et al.
Favorite | TC[WOS]:14 TC[Scopus]:16  IF:3.2/3.3 | Submit date:2021/10/02
Using induced pluripotent stem cells for modeling Parkinson's disease Journal article
Ke, M, Chong, C. M., Su, H. X.. Using induced pluripotent stem cells for modeling Parkinson's disease[J]. World Journal of Stem Cells, 2019, 634-649.
Authors:  Ke, M;  Chong, C. M.;  Su, H. X.
Favorite | TC[WOS]:19 TC[Scopus]:22  IF:3.6/4.2 | Submit date:2022/07/27
Aging  Dopaminergic Neurons  Induced Pluripotent Stem Cells  Parkinson’s Disease  Somatic Cell Reprogramming  
Efficiently strengthen and broaden 3 μm fluorescence in PbF2 crystal by Er3+/Ho3+ as co-luminescence centers and Pr3+ deactivation Journal article
Huang, X., Wang, Y., Zhang, P., Su, Z., Xu, J., Xin, K., Hang, Y., Zhu, S., Yin, H., Li, Z., Chen, Z., Zheng, Y., Li, H.-F.. Efficiently strengthen and broaden 3 μm fluorescence in PbF2 crystal by Er3+/Ho3+ as co-luminescence centers and Pr3+ deactivation[J]. Journal of Alloys and Compounds, 2019, 152027-1-152027-16.
Authors:  Huang, X.;  Wang, Y.;  Zhang, P.;  Su, Z.;  Xu, J.; et al.
Favorite |   IF:5.8/5.3 | Submit date:2022/08/11
PbF2  co-luminescence centers  
Postnatal deletion of Alk5 gene in meniscal cartilage accelerates age-dependent meniscal degeneration in mice Journal article
Wang Q., Tan Q., Xu W., Kuang L., Zhang B., Wang Z., Ni Z., Su N., Jin M., Li C., Jiang W., Huang J., Li F., Zhu Y., Chen H., Du X., Chen D., Deng C., Qi H., Xie Y., Chen L.. Postnatal deletion of Alk5 gene in meniscal cartilage accelerates age-dependent meniscal degeneration in mice[J]. Journal of Cellular Physiology, 2019, 234(1), 595-605.
Authors:  Wang Q.;  Tan Q.;  Xu W.;  Kuang L.;  Zhang B.; et al.
Favorite | TC[WOS]:6 TC[Scopus]:5 | Submit date:2018/12/13
Activing Receptor-like Kinases 5 (Alk5)  Matrix Degradation  Meniscal Degeneration  Transforming Growth Factor-β (Tgf-β) Signaling