4886comÍþÄá˹-°ÄÃÅÔÚÏßÍþÄá˹ ÍøÖ·

¾É°æÈë¿Ú| Õþ¸®²É¹ºÐÅÏ¢| У³¤ÐÅÏä| ºÓÖÐҽУÓÑ»á| Ò½Áƹ¤×÷| Ë«ÌØ½¨Éè| ͼÊé¹Ý| English| ×ÊÑ¶Íø| УÎñ¹«¿ª
ѧÊõ¶¯Ì¬
ÄúËùÔÚλÖà °ÄÃÅÔÚÏßÍþÄá˹ ÍøÖ· > ѧÊõ¶¯Ì¬ > ÕýÎÄ
ѧÊõ¶¯Ì¬ HENAN UNIVERSITY OF CHINESE MEDICINE

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¹«²¼2021Äê²é´¦µÄ²»¶ËÐÐΪ°¸¼þ´¦Àí¾ö¶¨£¨µÚÒ»Åú´Î£©

·¢²¼Ê±¼ä£º2021Äê04ÔÂ02ÈÕ ÏûÏ¢À´Ô´£º¿ÆÑ§¼¼Êõ´¦ä¯ÀÀÁ¿£º

±àÕß°´£º2021Äê3ÔÂ31ÈÕ£¬¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¹«²¼ÁË2021ÄêµÚÒ»Åú£¨7·Ý£©¸øÓèͨ±¨ÅúÆÀ´¦ÀíµÄ´¦Àí¾ö¶¨Êé£¨ÍøÂç·¢²¼°æ£©£¬ÏÖÓèÒÔ×ªÔØ¡£


2021Äê²é´¦µÄ²»¶ËÐÐΪ°¸¼þ´¦Àí¾ö¶¨£¨µÚÒ»Åú´Î£©

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á£¨ÒÔϼò³Æ¡°×ÔÈ»¿ÆÑ§»ù½ðί¡±£©¼á¾ö¹á³¹ÂäʵÖй²ÖÐÑë°ì¹«Ìü¡¢¹úÎñÔº°ì¹«Ìü¡¶¹ØÓÚ½øÒ»²½¼ÓÇ¿¿ÆÑгÏÐŽ¨ÉèµÄÈô¸ÉÒâ¼û¡·¡¶¹ØÓÚ½øÒ»²½ºëÑï¿ÆÑ§¼Ò¾«Éñ¼ÓÇ¿×÷·çºÍѧ·ç½¨ÉèµÄÒâ¼û¡·¾«Éñ£¬¶Ô×ÔÈ»¿ÆÑ§»ù½ðÁìÓò¿ÆÑв»¶ËÐÐΪÑÏËà²é´¦¡£2021Äê³ÖÐøÉîÈ뿪չ¿ÆÑгÏÐŽ¨ÉèÓë°¸¼þ²é´¦¹¤×÷£¬¶ÔÈô¸É¿ÆÑгÏÐ۸¼þ½øÐÐÁËÉóÒ飬²¢¾­×ÔÈ»¿ÆÑ§»ù½ðίίÎñ»áÒéÉ󶨡£°´ÕÕÓйØÖƶȹ涨ºÍ³ÌÐòÒªÇ󣬶ÔÏà¹ØÉæÊÂÖ÷Ìå½øÐÐÁË´¦Àí¡£ÏÖ½«7·Ý¸øÓèͨ±¨ÅúÆÀ´¦ÀíµÄ´¦Àí¾ö¶¨Êé£¨ÍøÂç·¢²¼°æ£©ÓèÒÔ¹«²¼¡£


¹ØÓÚ¶ÔËïÓñ±øµÈ·¢±íµÄÂÛÎÄÖдæÔÚÊý¾ÝÔì¼Ù¡¢³­Ï®ØâÇÔµÈÎÊÌâµÄ´¦Àí¾ö¶¨

¹ú¿Æ½ð¼à´¦¡²2021¡³1ºÅ

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô»ª±±µçÁ¦´óѧËïÓñ±øµÈ·¢±íµÄÂÛÎÄÉæÏÓѧÊõ²»¶ËÎÊÌâ×éÖ¯¿ªÕ¹Á˵÷²é£¬Éæ¼°ÂÛÎÄÈçÏ£º

ÂÛÎÄ1£º¡°Mengxue Li, Yubing Sun*, Haibo Liu*, Tianhu Chen, Taswar Hayat, Njud S. Alabadi, Changlun Chen. Spectroscopic and modeling investigation of Eu(III)/U(VI) sorption on nanomagnetite from aqueous solutions. ACS Sustainable Chemistry & Engineering, 2017, 5(5):5493-5502.¡±(±ê×¢»ù½ðºÅ41402030¡¢41172048¡¢41572029)

ÂÛÎÄ2£º¡°Zhongxiu Jin, Jie Sheng, Yubing Sun*. Characte-rization of radioactive cobalt on graphene oxide by macroscopic and spectroscopic techniques. Journal of Radioanalyical and Nuclear Chemistry, 2014, 299:1979-1986.¡±£¨±ê×¢»ù½ðºÅ21207135¡¢21071147¡¢21071107¡¢91126020£©

ÂÛÎÄ3£º¡°Yubing Sun*, Shubin Yang, Congcong Ding, Zhongxiu Jin, Wencai Cheng. Tuning the chemistry of graphene oxides by a sonochemical approach: application of adsorption properties. RSC Advances, 2015, 5:24886-24892.¡±£¨±ê×¢»ù½ðºÅ21207135¡¢21225730¡¢91126020£©

ÂÛÎÄ4£º¡°Fengbo Li, Xiaoyu Li, Pu Cui, Yubing Sun*. Plasma-grafted amidoxime/metal-organic framework composites for the selective sequestration of U(VI). Environmental Science: Nano, 2018, 5:2000-2008.¡±

ÂÛÎÄ5£º¡°Tian Wan, Wen Cheng, Jiehui Ren, Wei Wu, Min Wang, Baowei Hu*, Ziyi Jia, Yubing Sun*. The influence of nanoscale size on the adsorption¨Cdesorption of U(vi) on nano-A-loxides. Environmental Science: Nano, 2018, 5:2731-2741.¡±£¨±ê×¢»ù½ðºÅ51709224¡¢21876115¡¢21822602£©

ÂÛÎÄ6£º¡°Congcong Ding, Wencai Cheng, Yubing Sun*, Xiangke Wang. Determination of chemical affinity of graphene oxide nanosheets with radionuclides investigated by macroscopic, spectroscopic and modeling techniques. Dalton Transactions, 2014, 43:3888-3896.¡±£¨±ê×¢»ù½ðºÅ21207135¡¢21007074¡¢21207136¡¢21225730¡¢91126020£©

ÂÛÎÄ7£º¡°Yubing Sun, Changlun Chen, Dadong Shao, Jiaxing Li, Xiaoli Tan, Guixia Zhao, Shubin Yang, Xiangke Wang*. Enhanced adsorption of ionizable aromatic compounds on humic acid-coated carbonaceous adsorbents. RSC Advances, 2012, 2:10339-10364.¡±£¨±ê×¢»ù½ðºÅ21207135¡¢21207136¡¢21071147¡¢21071107¡¢20971126£©

ÂÛÎÄ8£º¡°Yubing Sun, Changlun Chen, Dadong Shao, Jiaxing Li, Xiaoli Tan, Guixia Zhao, Shubin Yang, Xiangke Wang*. Highly efficient enrichment of radionuclides on graphene oxide-supported polyaniline. Environmental Science & Techno-logy, 2013, 47:9904 -9910.¡±£¨±ê×¢»ù½ðºÅ21207135¡¢21007074¡¢21207136¡¢21225730¡¢91126020£©

ÂÛÎÄ9£º¡°Yubing Sun*, Xiangxue Wang, Wencheng Song, Songhua Lu, Changlun Chen, Xiangke Wang. Mechanistic insights into the decontamination of Th(IV) on graphene oxide-based composites by EXAFS and modeling techniques. Environmental Science: Nano, 2017, 4:222-232.¡±£¨±ê×¢»ù½ðºÅ21477133¡¢41273134¡¢91326202¡¢21225730£©

ÂÛÎÄ10£º¡°Haibo Liu, Mengxue Li, Tianhu Chen, Changlun Chen, Njud S. Alharbi, Tasawar Hayat, Dong Chen, Qiang Zhang, Yubing Sun*. New synthesis of nZVI/C composites as an efficient adsorbent for the uptake of U(VI) from aqueous solutions. Environmental Science & Technology, 2017, 51:9227-9234.¡±£¨±ê×¢»ù½ðºÅ41402030¡¢41572029£©

ÂÛÎÄ11£º¡°Xiangxue Wang, Qiaohui Fan, Shujun Yu, Zhong shan Chen, Yuejie Ai*, Yubing Sun*, Aatef Hobiny, Ahmed Alsaedi, Xiangke Wang*. High sorption of U(VI) on graphene oxides studied by batch experimental and theoretical calculations. Chemical Engineering Journal, 2016, 287:448-455.¡±£¨±ê×¢»ù½ðºÅ21225730¡¢21577032¡¢91326202£©

ÂÛÎÄ12£º¡°Wencai Cheng, Congcong Ding, Qunyan Wu, Xiangxue Wang, Yubing Sun*, Weiqun Shi, Tasawar Hayat, Ahmed Alsaedi, Zhifang Chai, Xiangke Wang*. Mutual effect of U(VI) and Sr(II) on graphene oxides: evidence from EXAFS and theoretical calculations. Environmental Science: Nano, 2017, 4:1124-1131.¡±£¨±ê×¢»ù½ðºÅ21577032¡¢21477133¡¢41273134¡¢91326202¡¢21225730£©

ÂÛÎÄ13£º¡°Yubing Sun, Changlun Chen, Xiaoli Tan, Dadong Shao, Jiaxing Li, Guixia Zhao, Shubin Yang, Qi Wang, Xiangke Wang*. Enhanced adsorption of Eu(III) on mesoporous Al2O3/expanded graphite composites investigated by macroscopic and microscopic techniques. Dalton Transactions, 2012, 41:13388-13394.¡±£¨±ê×¢»ù½ðºÅ21207135¡¢21207136¡¢21071107¡¢20971126¡¢21071147£©

¾­²é£¬ÉÏÊöÂÛÎÄ´æÔÚÊý¾ÝÔì¼Ù¡¢³­Ï®ØâÇÔ¡¢Í¼Æ¬´íÓõÈÎÊÌâ¡£´ËÍ⣬ËïÓñ±ø»¹½«ÉæÊÂÂÛÎÄÓÃÓÚÆä¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿½øÕ¹±¨¸æ¡¢½áÌⱨ¸æÒÔ¼°ÆäËû¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇëÊéÖС£

¾­¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»áÎå½ì°Ë´Î»áÒ飨×ÛºÏרҵίԱ»á£©ÉóÒé¡¢¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á2021ÄêµÚÒ»´ÎίÎñ»áÒéÉ󶨣¬¾ö¶¨¸ù¾Ý¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÌõÀý¡·µÚÈýÊ®ÎåÌõµÚËÄÏîºÍ¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð×ÊÖú¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚ¾ÅÌõ¡¢µÚÊ®ÁùÌõµÚ¶þÏî¡¢µÚÊ®ÆßÌõµÚÈýÏî¼°µÚËÄÏîµÄ¹æ¶¨£¬³·ÏúËïÓñ±ø¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿¡°»·ºý¾«ÐÞÊνé¿×Ñõ»¯ÂÁÓëEu(III)ºÍU(VI)Ï໥×÷Óü°Æä»úÀíµÄÑо¿¡±£¨Åú×¼ºÅ21207135£©¡¢¡°»·¾³·ÅÉ仯ѧ¡±£¨Åú×¼ºÅ21822602£©£¬×·»ØÉÏÊö2¸öÏîÄ¿ÒѲ¦×ʽð£¬È¡ÏûËïÓñ±ø¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇë×ʸñ5Ä꣨2021Äê1ÔÂ7ÈÕÖÁ2026Äê1ÔÂ6ÈÕ£©£¬¸øÓèËïÓñ±øÍ¨±¨ÅúÆÀ¡£


¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á

2021Äê1ÔÂ29ÈÕ


¹ØÓÚ¶Ô¹ðÈÕ¾üµÈ·¢±íµÄÂÛÎÄÖдæÔÚͼƬÔì¼Ù¡¢Öظ´·¢±í¡¢ÊðÃû²»Êµ¡¢ÉñêËûÈË»ù½ðÏîÄ¿ºÅµÈÎÊÌâµÄ´¦Àí¾ö¶¨

¹ú¿Æ½ð¼à´¦¡²2021¡³6ºÅ

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶ÔÇൺ´óѧ¹ðÈÕ¾üµÈ·¢±íµÄÂÛÎÄÉæÏÓѧÊõ²»¶ËÎÊÌâ×éÖ¯¿ªÕ¹Á˵÷²é£¬Éæ¼°ÂÛÎÄÈçÏ£º

ÂÛÎÄ1£º¡°Benqian Wang, Rijun Gui*, Hui Jin, Weijie He, Zonghua Wang*. Red-emitting BSA-stabilized copper nanoclust- ers acted as a sensitive probe for fluorescence sensing and visual imaging detection of rutin. Talanta, 2018, 178:1006-1010.¡±£¨±ê×¢»ù½ðºÅ21475071¡¢21405086£©

ÂÛÎÄ2£º¡°Hui Jin, Rijun Gui*, Zonghua Wang*, Jianfei Xia, Min Yang, Feifei Zhang, Sai Bi. Facile fabrication of water- dispersible AgInS2quantum dots and mesoporous AgInS2nano- spheres with visible photoluminescence. RSC Advances, 2015, 5:68287-68292.¡±£¨±ê×¢»ù½ðºÅ21475071¡¢21405086¡¢21275082¡¢21203228£©

ÂÛÎÄ3£º¡°Min Yang, Rijun Gui*, Hui Jin, Zonghua Wang*, Feifei Zhang, Jianfei Xia, Sai Bi, Yanzhi Xia. Ag2Te quantum dots with compact surface coatings of multivalent polymers: Ambient one-pot aqueous synthesis and the second near-infrared bioimaging. Colloids and Surfaces B: Biointerfaces, 2015, 126:115-120.¡±£¨±ê×¢»ù½ðºÅ21475071¡¢21405086¡¢21275082¡¢21203228¡¢81102411£©

ÂÛÎÄ4£º¡°Xinxin Zhu, Hui Jin, Cuili Gao, Rijun Gui*, Zonghua Wang*. Ratiometric, visual, dual-signal fluorescent sensing and imaging of pH/copper ions in real samples based on carbon dots-fluorescein isothiocyanate composites. Talanta, 2017, 162:65-71.¡±£¨±ê×¢»ù½ðºÅ21475071¡¢21405086¡¢21275082£©

ÂÛÎÄ5£º¡°Zonghua Wang*, Jianfei Xia, Feng Cai, Feifei Zhang, Min Yang, Sai Bi, Rijun Gui, Yanhui Li, Yanzhi Xia. Aptamer-functionalized hydrogel as effective anti-cancer drugs delivery agents. Colloids and Surfaces B: Biointerfaces, 2015, 134:40-46.¡±£¨±ê×¢»ù½ðºÅ21405086¡¢21475071¡¢21275082¡¢81102411¡¢21203228£©

ÂÛÎÄ6:¡°Rijun Gui, Xueqin An*. Layer-by-layer aqueous synthesis, characterization and fluorescence properties of type-II CdTe/CdS core/shell quantum dots with near-infrared emission. RSC Advances, 2013, 3:20959-20969.¡±£¨±ê×¢»ù½ðºÅ21273073¡¢21073063£©

ÂÛÎÄ7£º¡°Rijun Gui, Ajun Wan*, Xifeng Liu, Hui Jin. Intra- cellular fluorescent thermometry and photothermal-triggered drug release developed from gold nanoclusters and doxorubicin dual-loaded liposomes. Chemical Communications, 2014, 50: 1546-1548.¡±£¨±ê×¢»ù½ðºÅ51173104£©

ÂÛÎÄ8£º¡°Rijun Gui, Ajun Wan*, Yalei Zhang, Huili Li*,

Tingting Zhao. Light-triggered nitric oxide release and targeted fluorescence imaging in tumor cells developed from folic acid-graft-carboxymethyl chitosan nanospheres. RSC Advances, 2014, 4:30129-30136.¡±£¨±ê×¢»ù½ðºÅ51173104£©

ÂÛÎÄ9£º¡°Rijun Gui*, Hui Jin , Yanfeng Wang, Jie Sun. Ions- induced two-photon fluorescence dual-switching for reversible and simultaneous sensing of Cu2+and Hg2+based on dual-emitting carbon dot/carbon dot conjugates. Sensors and Actuators B: Chemical, 2017, 245:386-394.¡±£¨±ê×¢»ù½ðºÅ21305079£©

ÂÛÎÄ10£º¡°Hui Jin*, Rijun Gui*, Jun Gong, Wenxue Huang. Aptamer and 5-fluorouracil dual-loading Ag2S quantum dots used as a sensitive label-free probe for near-infrared photoluminescen- ce turn-on detection of CA125 antigen. Biosensors and Bioelectronics, 2017, 92:378-384.¡±£¨±ê×¢»ù½ðºÅ21305079£©

ÂÛÎÄ11£º¡°Rijun Gui, Jie Sun, Dexiu Liu, Yanfeng Wang, Hui Jin. A facile cation exchange-based aqueous synthesis of highly stable and biocompatible Ag2S quantum dots emitting in the second near-infrared biological window. Dalton transactions, 2014, 43:16690-16697.¡±£¨±ê×¢»ù½ðºÅ21305079£©

ÂÛÎÄ12£º¡°Hui Jin, Rijun Gui*, Jie Sun, Yanfeng Wang. Gly- cerol-regulated facile synthesis and targeted cell imaging of highly luminescent Ag2Te quantum dots with tunable near-infrared emission. Colloids and Surfaces B: Biointerfaces, 2016, 143: 118-123.¡±£¨±ê×¢»ù½ðºÅ21305079£©

ÂÛÎÄ13£º¡°Rijun Gui, Ajun Wan*, Hui Jin, Huili Li, Chixing Zhou. Amphiphilic polymer-template synthesis and pH-triggered phase transfer of luminescent silver nanocrystals. Materials Letters, 2013, 96:20-23.¡±£¨±ê×¢»ù½ðºÅ21076124¡¢51173104£©

ÂÛÎÄ14£º¡°Rijun Gui, Ajun Wan*, Xifeng Liu, Wen Yuan,

Hui Jin. Water-soluble multidentate polymers compactly coating Ag2S quantum dots with minimized hydrodynamic size and bright emission tunable from red to second near-infrared region. Nanoscale, 2014, 6:5467-5473.¡±£¨±ê×¢»ù½ðºÅ51173104£©

ÂÛÎÄ15£º¡°Hui Jin, Rijun Gui*, Yanfeng Wang, Jie Sun. Carrot-derived carbon dots modified with polyethyleneimine and nile blue for ratiometric two-photon fluorescence turn-on sensing of sulfide anion in biological fluids. Talanta, 2017, 169:141-148.¡±£¨±ê×¢»ù½ðºÅ21305079£©

ÂÛÎÄ16£º¡°Ziqing Xu, Shicheng Wu, Guicheng Huang*, Hongwei Ding, Rijun Gui*, Baohua Zhu. Aptamer-modified CuS nanocrystals /graphene oxide composites for controlled release of glucosamine and chemo-photothermal therapy of tumor cells. Materials Letters, 2017, 195:131-135.¡±£¨±ê×¢»ù½ðºÅ81573997£©

ÂÛÎÄ17£º¡°Rijun Gui, Ajun Wan*, Hui Jin. Facile synthesis of quantum dots/mesoporous silica/quantum dots core/shell/shell hybrid microspheres for ratiometric fluorescence detection of 5-fluorouracil in human serum. Analyst, 2013, 138:5956-5964.¡±£¨±ê×¢»ù½ðºÅ21076124¡¢51173104£©

ÂÛÎÄ18£º¡°Jie Sun*, Rijun Gui, Hui Jin, Na Li, Xiaojing Wang*. CuS nanocrystal microgel nanocomposites for light-regulated release of dual-drugs and chemo-photothermal syner- gistic therapy in vitro. RSC Advances, 2016, 6:8722-8728.¡±

ÂÛÎÄ19£º¡°Rijun Gui*, Hui Jin. Temperature-regulated poly- merization and swelling/collapsing/flocculation properties of hybrid nanospheres with magnetic cores and thermo/pH-sensitive nanogel shells. RSC Advances, 2014, 4:2797-2806.¡±

ÂÛÎÄ20£º¡°Rijun Gui, Yanfeng Wang, Jie Sun*. Embedding fluorescent mesoporous silica nanoparticles into biocompatible nanogels for tumor cell imaging and thermo/pH-sensitive in vitro drug release. Colloids and Surfaces B: Biointerfaces, 2014, 116:518-525.¡±

¾­²é£¬ÂÛÎÄ8¡¢9¡¢11¡¢19¡¢20´æÔÚÖØ¸´·¢±íÎÊÌ⣬ÂÛÎÄ17¡¢19´æÔÚͼƬÔì¼ÙÎÊÌ⣬ÂÛÎÄ8¡¢9¡¢11¡¢17¡¢19Òѳ·¸å¡£ÂÛÎÄ8¡¢9¡¢11¡¢17¡¢19¡¢20µÚÒ»±à¼­¹ðÈÕ¾ü¶Ô´æÔÚͼƬÔì¼ÙºÍÖØ¸´·¢±íÎÊÌ⸺Ö÷ÒªÔðÈΡ£¹ðÈÕ¾ü»¹ÔÚËùÓÐÉæÊÂÂÛÎÄÖÐÉÃÊðËûÈËÐÕÃû¡¢ÉñêËûÈ˶àÏî¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿£¬²¢½«²¿·ÖÉæÊÂÂÛÎÄÁÐÈëÆä¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇëÊéÖС£

¾­¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»áÎå½ì°Ë´Î£¨×ÛºÏרҵίԱ»á£©ÉóÒé¡¢¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á2021ÄêµÚÒ»´ÎίÎñ»áÒéÉ󶨣¬¾ö¶¨¸ù¾Ý¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð×ÊÖú¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚÊ®ÁùÌõµÚ¶þÏ²¢²ÎÕÕ¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð×ÊÖú¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚÊ®ÆßÌõµÚÈýÏîºÍµÚËÄÏîµÄ¹æ¶¨£¬È¡Ïû¹ðÈÕ¾ü¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇë×ʸñ5Ä꣨2021Äê1ÔÂ7ÈÕÖÁ2026Äê1ÔÂ6ÈÕ£©£¬¸øÓè¹ðÈÕ¾üͨ±¨ÅúÆÀ¡£


¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á

2021Äê1ÔÂ29ÈÕ


¹ØÓÚ¶Ô³ÂÖ¾Îĵȷ¢±íµÄÂÛÎÄÖдæÔÚÐ鹹ͬÐÐÆÀÒéÒâ¼ûÎÊÌâµÄ´¦Àí¾ö¶¨

¹ú¿Æ½ð¼à´¦¡²2021¡³17ºÅ

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶ÔÉϺ£´óѧ³ÂÖ¾Îĵȱ»³·¸åÂÛÎÄÉæÏÓѧÊõ²»¶ËÎÊÌâ×éÖ¯¿ªÕ¹Á˵÷²é£¬Éæ¼°ÂÛÎÄÈçÏ£º

ÂÛÎÄ1£º¡°Zhiwen Chen*, Minghong Wu*, Chan-Hung Shek*, C. M. Lawrence Wu, Joseph K. L. Lai. Multifunctional tin dioxide materials: advances in preparation strategies, microstruc-ture, and performance. Chemical Communications, 2015, 51(13):1175-1184.¡±£¨±ê×¢»ù½ðºÅ11074161¡¢11375111¡¢41373098¡¢41430644¡¢11025526¡¢11428410£©

ÂÛÎÄ2£º¡°Zhiwen Chen*, Chan-Hung Shek, C. M. Lawrence Wu. Insights from investigations of tin dioxide and its composites: electron-beam irradiation, fractal assessment, and mechanism. Nanoscale, 2015, 7(38):15532-15552.¡±£¨±ê×¢»ù½ðºÅ11074161¡¢11375111¡¢11428410£©

ÂÛÎÄ3£º¡°Zhixiang Hu, Dayong Chen, Jingyu Dong, Qi Li, Zhiwen Chen*, Dongguang Yin, Bing Zhao*, C. M. Lawrence Wu, Chan-Hung Shek*. Facile synthesis of hierarchical Mn3O4superstructures and efficient catalytic performance. Physical Chemistry Chemical Physics, 2016, 18(38):26602-26608.¡±£¨±ê×¢»ù½ðºÅ11375111¡¢11074161¡¢11428410¡¢11575105£©

ÂÛÎÄ4£º¡°Mei Wang, Liming Cheng*, Quanbao Li, Zhiwen Chen, Shilong Wang*. Two-dimensional nanosheets associated with one-dimensional single-crystalline nanorods self-assembled into three-dimensional flower-like Mn3O4hierarchical architectures. Physical Chemistry Chemical Physics, 2014, 16(39):21742-21746.¡±£¨±ê×¢»ù½ðºÅ11375111¡¢11074161¡¢11428410£©

ÂÛÎÄ5£º¡°Qingxiu Wang, Xianzheng Wu*, Lijun Wang, Zhiwen Chen, Shilong Wang*. Graphene-SnO2nanocomposites decorated with quantum tunneling junctions: preparation strategies, microstructures and formation mechanism. Physical Chemistry Chemical Physics, 2014, 16(36):19351-19357.¡±£¨±ê×¢»ù½ðºÅ11375111¡¢11074161£©

¾­²é£¬³ÂÖ¾ÎÄ×÷ÎªÉæÊÂ5ƪÂÛÎÄÖÐ3ƪÂÛÎĵÄͨѶ±à¼­ºÍÁí2ƪÂÛÎĵÄʵ¼ÊÁªÏµÈË£¬Íê³ÉÁË5ƪÂÛÎĵÄͶ¸å¡£ÆäÔÚÍÆ¼öÉó¸åÈ˵Ĺý³ÌÖÐÌṩÁËÐé¼ÙµÄÓÊÏ䵨ַ£¬²¢Ê¹ÓÃÕâЩÐé¼ÙµÄÓÊÏ䣬ÏòÔÓÖ¾Éç»Ø¸´ÁË10·ÝÉó¸åÒâ¼û¡£

¾­¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»áÎå½ì°Ë´Î»áÒ飨×ÛºÏרҵίԱ»á£©ÉóÒé¡¢¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á2021ÄêµÚÒ»´ÎίÎñ»áÒéÉ󶨣¬¾ö¶¨¸ù¾Ý¡¶¿ÆÑгÏÐ۸¼þµ÷²é´¦Àí¹æÔò£¨ÊÔÐУ©¡·µÚ¶þÌõ¡¢µÚÈýʮһÌõ¼°µÚÈýÊ®ÈýÌõ£¬²¢²ÎÕÕ¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚÊ®ÆßÌõµÚÈýÏîµÄ¹æ¶¨£¬³·Ïú³ÂÖ¾ÎĹú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿¡°µç×ÓÊø·øÉ䳡×÷ÓÃÏÂÑõ»¯ÎýµÄ΢½á¹¹ÑÝ»¯¼°ÆäÐÔÄÜÑо¿¡±£¨Åú×¼ºÅ11375111£©¡¢¡°½ðÊô/°ëµ¼Ì屡ĤÖзÖÐÎÍŴصÄÄÉÃ׽ṹ¼°Æä·ÇÏßÐÔÌØÕ÷¡±£¨Åú×¼ºÅ11074161£©£¬×·»ØÉÏÊö2¸öÏîÄ¿ÒѲ¦×ʽð£¬È¡Ïû³ÂÖ¾ÎĹú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇë×ʸñ7Ä꣨2021Äê1ÔÂ7ÈÕÖÁ2028Äê1ÔÂ6ÈÕ£©£¬¸øÓè³ÂÖ¾ÎÄͨ±¨ÅúÆÀ¡£


¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á

2021Äê1ÔÂ29ÈÕ


¹ØÓÚ¶ÔÕżáµÈ·¢±íµÄÂÛÎÄ´æÔÚ´úд´úͶµÈÎÊÌâµÄ´¦Àí¾ö¶¨

¹ú¿Æ½ð¼à´¦¡²2021¡³27ºÅ

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶ÔÇൺ´óѧÕżáµÈ·¢±íµÄÂÛÎÄ¡°Jian Zhang*, Tao Mao, Shuyun Wang, Dongsheng Wang, Zhaojian Niu, Zhenqing Sun, Jianli Zhang*. Interleukin-35 expression is associated with colon cancer progression. Oncotarget, 2017, 8(42):71563-71573.¡±£¨±ê×¢»ù½ðºÅ81370567£©ÉæÏÓѧÊõ²»¶ËÎÊÌâ×éÖ¯¿ªÕ¹Á˵÷²é¡£

¾­²é£¬ÂÛÎĵÚÒ»¼æÍ¨Ñ¶±à¼­ÕżáίÍеÚÈý·½ÆóÒµÍê³ÉÁËÉÏÊöÂÛÎĵĴúдºÍ´úͶ£¬²¢ÔÚÂÛÎÄÖбê×¢ÁËÆä¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿£¨Åú×¼ºÅ81370567£©£¬»¹½«´ËÂÛÎÄÁÐÈë¸ÃÏîÄ¿µÄ½áÌⱨ¸æÖС£

¾­¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»áÎå½ì°Ë´Î»áÒ飨ÉúÃüҽѧרҵίԱ»á£©ÉóÒé¡¢¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á2021ÄêµÚÒ»´ÎίÎñ»áÒéÉ󶨣¬¾ö¶¨¸ù¾Ý¡¶¿ÆÑгÏÐ۸¼þµ÷²é´¦Àí¹æÔò£¨ÊÔÐУ©¡·µÚ¶þÌõ¡¢µÚÈýÊ®ÈýÌõºÍ¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð×ÊÖú¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚÊ®ÆßÌõµÚÈýÏîµÄ¹æ¶¨£¬³·ÏúÕżá¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿¡°ÒȵºËØÇ¿»¯ÖÎÁƶԸ߸ÊÓÍÈýõ¥ÑªÖ¢ÐÔ¼±ÐÔÒÈÏÙÑ×ÄÚÆ¤¹¦ÄÜÕϰ­µÄÓ°Ïì¼°·Ö×Ó»úÖÆ¡±£¨Åú×¼ºÅ81370567£©£¬×·»ØÒѲ¦×ʽð£¬È¡ÏûÕżá¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇë×ʸñ5Ä꣨2021Äê1ÔÂ7ÈÕÖÁ2026Äê1ÔÂ6ÈÕ£©£¬¸øÓèÕżáͨ±¨ÅúÆÀ¡£


¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á

2021Äê1ÔÂ29ÈÕ


¹ØÓÚ¶ÔÕÅȷ¢±íµÄÂÛÎÄ´æÔÚ´úд´úͶ¡¢Êý¾ÝÔì¼ÙµÈÎÊÌâµÄ´¦Àí¾ö¶¨

¹ú¿Æ½ð¼à´¦¡²2021¡³28ºÅ

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶ÔÖйúÒ½¿Æ´óѧÕÅȷ¢±íµÄÂÛÎÄ¡°Xiaofei Yan, Jian Zhao, Rui Zhang*. Interleukin-37 mediates the antitumor activity in colon cancer through¦Â-catenin suppression. Oncotarget, 2017, 8(30):49064-49075.¡±£¨±ê×¢»ù½ðºÅ81672427£©ÉæÏÓѧÊõ²»¶ËÎÊÌâ×éÖ¯¿ªÕ¹Á˵÷²é¡£

¾­²é£¬ÂÛÎÄͨѶ±à¼­ÕÅî£ÒÔʵÑéÍâ°üµÄÐÎʽ½«Ò»Ð©²¡ÀíÑù±¾ºÍÊý¾Ý½»¸øµÚÈý·½ÆóÒµ£¬ÒªÇó·¢±íһƪ±ê×¢Æä¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿£¨Åú×¼ºÅ81672427£©µÄSCIÂÛÎÄ£¬¸ÃÂÛÎijýÓɵÚÈý·½´úд´úͶÍ⣬»¹´æÔÚÊý¾ÝÔì¼ÙµÄÎÊÌâ¡£

¾­¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»áÎå½ì°Ë´Î»áÒ飨ÉúÃüҽѧרҵίԱ»á£©ÉóÒé¡¢¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á2021ÄêµÚÒ»´ÎίÎñ»áÒéÉ󶨣¬¾ö¶¨¸ù¾Ý¡¶¿ÆÑгÏÐ۸¼þµ÷²é´¦Àí¹æÔò£¨ÊÔÐУ©¡·µÚ¶þÌõ¡¢µÚÈýÊ®ÈýÌõºÍ¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð×ÊÖú¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚÊ®ÆßÌõµÚÈýÏîµÄ¹æ¶¨£¬³·ÏúÕÅú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿¡°ERR¦Á´Ù½ø½á³¦°©°ÂɳÀû²¬ÄÍÒ©µÄ»úÖÆÑо¿¡±£¨Åú×¼ºÅ81672427£©£¬×·»ØÒѲ¦×ʽð£¬È¡ÏûÕÅú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇë×ʸñ5Ä꣨2021Äê1ÔÂ7ÈÕÖÁ2026Äê1ÔÂ6ÈÕ£©£¬¸øÓèÕÅî£Í¨±¨ÅúÆÀ¡£


¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á

2021Äê1ÔÂ29ÈÕ


¹ØÓÚ¶ÔÍõÕêµÈ·¢±íµÄÂÛÎÄ´æÔÚ´úд´úͶ¡¢Êý¾ÝÔì¼ÙµÈÎÊÌâµÄ´¦Àí¾ö¶¨

¹ú¿Æ½ð¼à´¦¡²2021¡³29ºÅ

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶ÔÄϾ©Ò½¿Æ´óѧÍõÕêµÈ·¢±íµÄÂÛÎÄ¡°Kuangkuang Zhu, Dong Sun, Xiaoqin Zou, Ruixia Liu, Zhen Wang*. Interleukin-36 receptor antagonist is associated with the progression of renal cell carcinoma. International Immunopharmacology. 84.¡±£¨±ê×¢»ù½ðºÅ81770732£©ÉæÏÓѧÊõ²»¶ËÎÊÌâ×éÖ¯¿ªÕ¹Á˵÷²é¡£

¾­²é£¬ÍõÕêαÔìÂÛÎÄÊý¾ÝºóÌṩ¸øµÚÈý·½ÆóÒµ£¬ÓÉÆäÍê³ÉÂÛÎĵĴúд´úͶ£¬²¢Ö§¸¶ÁË2.4ÍòÔª³êÀÍ¡£

¾­¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»áÎå½ì°Ë´Î»áÒ飨ÉúÃüҽѧרҵίԱ»á£©ÉóÒé¡¢¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á2021ÄêµÚÒ»´ÎίÎñ»áÒéÉ󶨣¬¾ö¶¨¸ù¾Ý¡¶¿ÆÑгÏÐ۸¼þµ÷²é´¦Àí¹æÔò£¨ÊÔÐУ©¡·µÚ¶þÌõ¡¢µÚÈýÊ®ÈýÌõºÍ¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð×ÊÖú¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚÊ®ÆßÌõµÚÈýÏîµÄ¹æ¶¨£¬³·ÏúÍõÕê¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿¡°JNKͨ¹ý½éµ¼Bcl-2Á×Ëữµ÷¿ØÄò¶¾Ö¢³¦ÉÏÆ¤Ï¸°ûMPTPµÄ×÷Óü°»úÖÆÑо¿¡±£¨Åú×¼ºÅ81770732£©£¬×·»ØÒѲ¦×ʽð£¬È¡ÏûÍõÕê¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇë×ʸñ5Ä꣨2021Äê1ÔÂ7ÈÕÖÁ2026Äê1ÔÂ6ÈÕ£©£¬¸øÓèÍõÕêͨ±¨ÅúÆÀ¡£


¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á

2021Äê1ÔÂ29ÈÕ


¹ØÓÚ¶Ô³ÂÒøµÈ·¢±íµÄÂÛÎÄ´æÔÚ³­Ï®ØâÇÔ¡¢ÊðÃû²»Êµ¡¢ÉñêËûÈË»ù½ðÏîÄ¿ºÅµÈÎÊÌâµÄ´¦Àí¾ö¶¨

¹ú¿Æ½ð¼à´¦¡²2021¡³38ºÅ

¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ôº£ÄÏҽѧԺ³ÂÒøµÈ·¢±íµÄÂÛÎÄ¡°¶¨Á¿³¬ÉùÆÀ¹ÀÈéÏÙ°©·ÅÁÆÏà¹ØÕý³£×éÖ¯ËðÉ˵Ŀɿ¿ÐÔ.ÖйúÀÏÄêѧÔÓÖ¾, 2019, 10(39):4926-4929.¡±£¨±ê×¢»ù½ðºÅ81871365£©ÉæÏÓѧÊõ²»¶ËÎÊÌâ×éÖ¯¿ªÕ¹Á˵÷²é¡£

¾­²é£¬ÉæÊÂÂÛÎÄΪµÚÒ»±à¼­³ÂÒøµ¥¶À׫д£¬ÄÚÈݳ­Ï®ØâÇÔÁËËûÈËÂÛÎÄ£¬²¢ÔÚÂÛÎÄÖÐÉÃÊðËûÈËÐÕÃû¡¢ÉñêËûÈ˹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿¡£

¾­¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»áÎå½ì°Ë´Î»áÒ飨ÉúÃüҽѧרҵίԱ»á£©ÉóÒé¡¢¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á2021ÄêµÚÒ»´ÎίÎñ»áÒéÉ󶨣¬¾ö¶¨¸ù¾Ý¡¶¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á¼à¶½Î¯Ô±»á¶Ô¿ÆÑ§»ù½ð×ÊÖú¹¤×÷Öв»¶ËÐÐΪµÄ´¦Àí°ì·¨£¨ÊÔÐУ©¡·µÚÊ®ÆßÌõµÚËÄÏîµÄ¹æ¶¨£¬È¡Ïû³ÂÒø¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðÏîÄ¿ÉêÇë×ʸñ3Ä꣨2021Äê1ÔÂ7ÈÕÖÁ2024Äê1ÔÂ6ÈÕ£©£¬¸øÓè³ÂÒøÍ¨±¨ÅúÆÀ¡£


¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á

2021Äê1ÔÂ29ÈÕ


£¨Îļþ×ªÔØ×Ô£º¹ú¼Ò×ÔÈ»¿ÆÑ§»ù½ðίԱ»á£©

ÍøÖ·Á´½Ó£ºhttp://www.nsfc.gov.cn/publish/portal0/tab434/info80883.htm

4886comÍþÄá˹|°ÄÃÅÔÚÏßÍþÄá˹ ÍøÖ·

XML µØÍ¼ | Sitemap µØÍ¼