English | 繁體

Search in the results

UM

Browse/Search Results:  1-10 of 35 Help

Selected(0)Clear Items/Page:    Sort:
Proton and molecular permeation through the basal plane of monolayer graphene oxide Journal article
Wu, Z. F., Sun, P. Z., Wahab, O. J., Tan, Y. T., Barry, D., Periyanagounder, D., Pillai, P. B., Dai, Q., Xiong, W. Q., Vega, L. F., Lulla, K., Yuan, S. J., Nair, R. R., Daviddi, E., Unwin, P. R., Geim, A. K., Lozada-Hidalgo, M.. Proton and molecular permeation through the basal plane of monolayer graphene oxide[J]. Nature Communications, 2023, 14, 7756.
Authors:  Wu, Z. F.;  Sun, P. Z.;  Wahab, O. J.;  Tan, Y. T.;  Barry, D.; et al.
Favorite | TC[WOS]:13 TC[Scopus]:14  IF:14.7/16.1 | Submit date:2024/01/02
Proton and molecular permeation through the basal plane ofmonolayer graphene oxide Journal article
Z. F. Wu, Sun, Pengzhan, O. J. Wahab, Y. T. Tan, D. Barry, D. Periyanagounder, P. B. Pillai, Q. Dai, W. Q. Xiong, L. F. Vega, K. Lulla, S. J. Yuan, R. R. Nair, E. Daviddi, P. R. Unwin, A. K. Geim, M. Lozada-Hidalgo. Proton and molecular permeation through the basal plane ofmonolayer graphene oxide[J]. Nature Communications, 2023, 14, 7756.
Authors:  Z. F. Wu;  Sun, Pengzhan;  O. J. Wahab;  Y. T. Tan;  D. Barry; et al.
Favorite | TC[WOS]:13 TC[Scopus]:14 | Submit date:2023/11/30
Distributionally Robust Chance-Constrained Optimization for Soft Open Points Operation in Active Distribution Networks Journal article
Hou, Q. L., Chen, G., Dai, N. Y., Zhang, H.. Distributionally Robust Chance-Constrained Optimization for Soft Open Points Operation in Active Distribution Networks[J]. CSEE JOURNAL OF POWER & ENERGY SYSTEMS, 2022.
Authors:  Hou, Q. L.;  Chen, G.;  Dai, N. Y.;  Zhang, H.
Favorite |   IF:6.9/6.9 | Submit date:2022/08/21
Soft Open Points  Distributionally Robust Chance-constrained Optimization  Active Distribution Networks  
Phototheranostic Metal-Phenolic Networks with Antiexosomal PD-L1 Enhanced Ferroptosis for Synergistic Immunotherapy Journal article
Xie, L., Li, J., Wang, G., Sang, W., Xu, M., Li, W., Yan, J., Li, B., Zhang, Z., Zhao, Q., Yuan, Z., Fan, Q., Dai, Y.. Phototheranostic Metal-Phenolic Networks with Antiexosomal PD-L1 Enhanced Ferroptosis for Synergistic Immunotherapy[J]. Journal of the American Chemical Society, 2022, 787-797.
Authors:  Xie, L.;  Li, J.;  Wang, G.;  Sang, W.;  Xu, M.; et al.
Favorite |   IF:14.4/14.8 | Submit date:2023/08/08
Metal-Phenolic Networks  Ferroptosis  Immunotherapy  
NIR-II-absorbing conjugated polymer-based theranostic agent for NIR-II fluorescence imaging-guided photothermal therapy acting synergistically with tumor microenvironment-responsive nitric oxide therapy Journal article
Li, J., Xie, L., Sang, W., Li, W., Wang, G., Tian, H., Zhang, Z., Liu, J., Fan, Q., Dai, Y.. NIR-II-absorbing conjugated polymer-based theranostic agent for NIR-II fluorescence imaging-guided photothermal therapy acting synergistically with tumor microenvironment-responsive nitric oxide therapy[J]. ChemPhysMater, 2021, 51-55.
Authors:  Li, J.;  Xie, L.;  Sang, W.;  Li, W.;  Wang, G.; et al.
Favorite |  | Submit date:2023/08/08
Conjugated polymer  NIR-II fluorescence  Photothermal therapy  Tumor environment response  Nitric oxide therapy  
Remodeling of Tumor Microenvironment by Tumor-Targeting Nanozymes Enhances Immune Activation of CAR T Cells for Combination Therapy Journal article
Zhu, L., Liu, J., Zhou, G., Liu, T., Dai, Y., Nie, G., Zhao, Q.. Remodeling of Tumor Microenvironment by Tumor-Targeting Nanozymes Enhances Immune Activation of CAR T Cells for Combination Therapy[J]. Small, 2021, 2102624-2102624.
Authors:  Zhu, L.;  Liu, J.;  Zhou, G.;  Liu, T.;  Dai, Y.; et al.
Favorite |  | Submit date:2023/08/25
B7-H3 immune checkpoint  chimeric antigen receptor T cell  immunotherapy  nanozyme  photothermal-nanocatalytic effect  
Tumor Microenvironment-Modulated Nanozymes for NIR-II-Triggered Hyperthermia-Enhanced Photo-Nanocatalytic Therapy via Disrupting ROS Homeostasis Journal article
Zhu, L., Dai, Y., Gao, L., Zhao, Q.. Tumor Microenvironment-Modulated Nanozymes for NIR-II-Triggered Hyperthermia-Enhanced Photo-Nanocatalytic Therapy via Disrupting ROS Homeostasis[J]. International Journal of Nanomedicine, 2021, 4559-4577.
Authors:  Zhu, L.;  Dai, Y.;  Gao, L.;  Zhao, Q.
Favorite |  | Submit date:2023/08/25
Ros Homeostasis  Nanozyme  Tumor Microenvironment  Catalytic Therapy  Photodynamic/photothermal Therapy  Photothermal/photoacoustic Imaging  
Phenolic immunogenic cell death nanoinducer for sensitizing tumor to PD-1 checkpoint blockade immunotherapy Journal article
Xie, L., Wang, G., Sang, W., Li, J., Zhang, Z., Li, W., Yan, J., Zhao, Q., Dai, Y.. Phenolic immunogenic cell death nanoinducer for sensitizing tumor to PD-1 checkpoint blockade immunotherapy[J]. Biomaterials, 2021, 120638-120638.
Authors:  Xie, L.;  Wang, G.;  Sang, W.;  Li, J.;  Zhang, Z.; et al.
Favorite |   IF:12.8/13.1 | Submit date:2023/08/25
Immunogenic cell death  Metal phenolic coordination  PD-1 immune checkpoint blockade immunotherapy  Phenolic nanoplatform.  
Polyphenol-Based Nanomedicine Evokes Immune Activation for Combination Cancer Treatment Journal article
Zhang, Z., Sang, W., Xie, L., Li, W., Li, B., Li, J., Tian, H., Yuan, Z., Zhao, Q., Dai, Y.. Polyphenol-Based Nanomedicine Evokes Immune Activation for Combination Cancer Treatment[J]. Angewandte Chemie International Edition, 2021, 1967-1975.
Authors:  Zhang, Z.;  Sang, W.;  Xie, L.;  Li, W.;  Li, B.; et al.
Favorite |   IF:16.1/16.2 | Submit date:2023/08/25
PD-L1 checkpoint blockade  combination cancer therapy  gossypol  metal-polyphenol coordination  nanomedicine.  
NIR II-Excited and pH-Responsive Ultrasmall Nanoplatform for Deep Optical Tissue and Drug Delivery Penetration and Effective Cancer Chemophototherapy Journal article
Zhu, L., Gao, D., Xie, L., Dai, Y., Zhao, Q.. NIR II-Excited and pH-Responsive Ultrasmall Nanoplatform for Deep Optical Tissue and Drug Delivery Penetration and Effective Cancer Chemophototherapy[J]. Molecular Pharmaceutics, 2020, 3720-3729.
Authors:  Zhu, L.;  Gao, D.;  Xie, L.;  Dai, Y.;  Zhao, Q.
Favorite |   IF:4.5/4.6 | Submit date:2023/08/25
ultrasmall CuS nanoparticles  optical tissue penetration  drug delivery penetration  photothermal imaging  chemophototherapy