期刊的影响因子--文章列表

期刊文章列表
刘晓庆^1,2，凌发令^1,3（School of Science，Chongqing University of Posts and Telecommunications；College of Optoelectronic Engineering，Chongqing University；Key Laboratory of Optoelectronic Information Sensing and Transmission Technology，Chongqing University of Posts and Telecommunications）.二维铟-VA族半导体：具有本征电场用于分解水的高效光催化剂[J].Science China(Materials),2023,第7期刘国华，张照艳，刘文宁，杨文昕，安丽，曲丹，刘弈畅，汪夏燕，孙再成（Center of Excellence for Environmental Safety and Biological Effects，Beijing Key Laboratory for Green Catalysis and Separation，Department of Chemistry，Faculty of Environment and Life，Beijing University of Technology）.具有优越电催化析氢性能的超小碳负载FeRu合金[J].Science China(Materials),2023,第7期莫世广^1,2，荆文彤¹，张伟杰¹，刘锟隆¹，吴炳辉³，秦瑞轩¹，郑南峰¹（State Key Laboratory for Physical Chemistry of Solid Surfaces，Collaborative Innovation Center of Chemistry for Energy Materials，and Engineering Research Center for Nano-Preparation Technology of Fujian Province，College of Chemistry and Chemical Engineering，Xiamen University；Chemistry and Chemical Engineering Guangdong Laboratory；Pen-Tung Sah Institute of Micro-Nano Science and Technology，Xiamen University）.自还原法合成超小尺寸钯加氢催化剂[J].Science China(Materials),2023,第7期张宇栋¹，丁国彧²，李金翰²，刘九鼎²，黄赛芳¹，程方益²（School of Materials Science and Engineering，Jiangsu University of Science and Technology；Key Laboratory of Advanced Energy Materials Chemistry(Ministry of Education)，Nankai University）.非均相掺杂诱导表面形貌重构构建高性能LiNiO₂正极材料用于锂离子电池[J].Science China(Materials),2023,第7期郑哲雄^1,2，邱智鑫¹，谢潮泓¹，张阳苹^1,2，姜小明^1,3，刘彬文^1,3，郭国聪^1,3,2（State Key Laboratory of Structural Chemistry，Fujian Institute of Research on the Structure of Matter，Chinese Academy of Sciences；School of Physical Science and Technology，ShanghaiTech University；Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China）.化合物PbGa₄Se₇中[PbSe₃]和[GaSe₄]功能基元的强极化实现高的相位匹配二次谐波效应[J].Science China(Materials),2023,第7期吴昊¹，袁月辉¹，康世雄¹，周高信¹，谷越¹，袁星怡¹，李嘉婕¹，顾宁^2,1（School of Biomedical Engineering and Informatics，Nanjing Medical University；Medical School，Nanjing University）.装载自噬抑制剂的纳米银核介孔硅协同增强胶质瘤放疗[J].Science China(Materials),2023,第7期郭锦瑜¹，汪广进²，崔莎莎¹，夏兵营¹，刘志娟¹，臧双全¹，王双印³（Henan Key Laboratory of Crystalline Molecular Functional Materials，Henan International Joint Laboratory of Tumor Theranostical Cluster Materials，Green Catalysis Center，and College of Chemistry，Zhengzhou University；School of Materials Science and Energy Engineering，Foshan University；State Key Laboratory of Chem/Bio-sensing and Chemometrics，College of Chemistry and Chemical Engineering，Hunan University）.通过构筑异相界面增强对羟基和醛基的吸附来提升生物质电氧化性能[J].Science China(Materials),2023,第7期程浩然¹，潘亚敏¹，王铁成¹，周洋¹，秦怡静^2,3，刘春太¹，申长雨¹，刘宪虎¹（College of Materials Science and Engineering，National Engineering Research Center for Advanced Polymer Processing Technology，Key Laboratory of Advanced Material Processing & Mold(Ministry of Education)，Zhengzhou University；Institute of Polymer Materials，Friedrich-Alexander-University Erlangen-Nuremberg；Center for Engineering Materials and Reliability，Guangzhou HKUST Fok Ying Tung Research Institute）.聚氨酯海绵中碳纳米管与各向异性形状Ni的协同效应增强电磁干扰屏蔽性能[J].Science China(Materials),2023,第7期柳林^1,2,3，史俊朋^1,2,3，彭珊珊^1,2，钟红芸^1,2，林芃^1,2，王瑾媛^1,2，孙霞⁴，宋良^1,2，袁荃⁵，张云^1,2,3（State Key Laboratory of Structural Chemistry，Fujian Institute of Research on the Structure of Matter，Chinese Academy of Sciences；Xiamen Key Laboratory of Rare Earth Photoelectric Functional Materials，Xiamen Institute of Rare Earth Materials，Haixi Institute，Chinese Academy of Sciences；University of Chinese Academy of Sciences；Fujian Science and Technology Innovation Laboratory for Optoelectronic Information of China；Molecular Science and Biomedicine Laboratory，State Key Laboratory of Chemo/Biosensing and Chemometrics，College of Chemistry and Chemical Engineering，Hunan University）.具有红色上转换发光和近红外二区发光的生物可降解镧系掺杂无机纳米颗粒用于生物成像和光动力治疗[J].Science China(Materials),2023,第7期智佳鹏¹，王建¹，沈忠慧¹，李宝文¹，张鑫¹，南策文²（State Key Laboratory of Advanced Technology for Materials Synthesis and Processing，Center of Smart Materials and Devices & International School of Materials Science and Engineering，Wuhan University of Technology；School of Materials Science and Engineering，State Key Lab of New Ceramics and Fine Processing，Tsinghua University）.具有分级界面的纳米纤维增强聚合物复合材料：用于高温介电储能应用[J].Science China(Materials),2023,第7期张翠翠¹，刘旭坡¹，李晓沣¹，刘云鹏¹，位港亚²，杨天芳²，张静¹，陈野¹，高书燕¹（School of Materials Science and Engineering，Henan Normal University；School of Chemistry and Chemical Engineering，Henan Normal University）.乙醇调控铁腐蚀构筑RuO_x/FeOOH电催化剂用于增强析氢性能[J].Science China(Materials),2023,第7期钟武坤¹，黄蕾¹，林玉红²，邢超³，卢春华¹（MOE Key Laboratory for Analytical Science of Food Safety and Biology，Fujian Provincial Key Laboratory of Analysis and Detection Technology for Food Safety，State Key Laboratory of Photocatalysis on Energy and Environment，College of Chemistry，Fuzhou University；Institute of Nanobiomaterials and Immunology，School of Life Science，Taizhou University；Fujian Key Laboratory of Functional Marine Sensing Materials，Center for Advanced Marine Materials and Smart Sensors，Minjiang University）.内源性双miRNA触发响应的DNA纳米结构动态自组装用于原位递送siRNA[J].Science China(Materials),2023,第7期陈兰芬¹，苏秦¹，吴泽枫¹，王俊杰¹，张国强¹，薛怀国¹，高杰峰^1,2（School of Chemistry and Chemical Engineering，Yangzhou University；Key Laboratory of Organosilicon Chemistry and Material Technology of Ministry of Education，Hangzhou Normal University）.用于高性能太阳能界面蒸发的织物交错复合水凝胶[J].Science China(Materials),2023,第7期赵晓慧^1,2，刘绍琴¹，蒋兴宇^1,2（School of Life Science and Technology，Harbin Institute of Technology；Shenzhen Key Laboratory of Smart Healthcare Engineering，Guangdong Provincial Key Laboratory of Advanced Biomaterials，Department of Biomedical Engineering，Southern University of Science and Technology）.利用双金属纳米颗粒协同提高抗生素对耐碳青霉烯类细菌的疗效[J].Science China(Materials),2023,第7期崇少坤^1,2，袁令令^1,2，乔双燕¹，马萌¹，李婷^1,2，黄祥龙⁴，周倩雯¹，王艺焜¹，黄维¹（Frontiers Science Center for Flexible Electronics，Xi'an Institute of Flexible Electronics and Xi'an Institute of Biomedical Materials & Engineering，Northwestern Polytechnical University；Research & Development Institute of Northwestern Polytechnical University in Shenzhen；Frontiers Science Center for Flexible Electronics，Xi’an Institute of Flexible Electronics and Xi’an Institute of Biomedical Materials & Engineering，Northwestern Polytechnical University；Institute of Fundamental and Frontier Sciences，University of Electronic Science and Technology of China）.多重限域几何中的化学键助力Bi₂Se₃基转换-合金负极材料实现优异的钠离子储存[J].Science China(Materials),2023,第7期王梦婷¹，胡涛¹，汪昌红¹，杜沣¹，杨鸿斌¹，孙伟²，郭春显¹，李长明^1,3（Institute of Materials Science and Devices，School of Materials Science and Engineering，Suzhou University of Science and Technology；College of Chemistry and Chemical Engineering，Hainan Normal University；Institute for Cross-field Science and College of Life Science，Qingdao University）.筛选电催化硝酸根还原制氨的MXene基单原子催化剂[J].Science China(Materials),2023,第7期李铖^1,2，陈俊池³，汪兴坤⁴，黄明华⁴，Wolfgang Theis²，李隽^3,5，谷猛¹（Department of Materials Science and Engineering，Southern University of Science and Technology；School of Physics and Astronomy，University of Birmingham；Department of Chemistry and Guangdong Provincial Key Laboratory of Catalytic Chemistry，Southern University of Science and Technology；School of Materials Science and Engineering，Ocean University of China；Department of Chemistry and Engineering Research Center of Advanced Rare-Earth Materials of Ministry of Education，Tsinghua University）.超越原子可视化—利用扫描透射电子显微镜表征双原子单团簇催化剂[J].Science China(Materials),2023,第7期孙荣欢¹，刘勇¹，陈荧¹，蒋琪¹，陈平安²，帅钦¹，骆子煜¹，杨鑫¹，蒋英²，胡袁源²，陈舒拉¹，潘安练¹（Department of Key Laboratory for Micro-Nano Physics and Technology of Hunan Province，State Key Laboratory of Chemo/Biosensing and Chemometrics，College of Materials Science and Engineering，Hunan University；Department of School of Physics and Electronics，Hunan University）.通过Ag阵列耦合增强少层InSe的光学响应[J].Science China(Materials),2023,第7期朱清海¹，陈叶馨¹，朱笑东²，孙一军³，程志渊¹，徐敬⁴，徐明生¹（School of Micro-Nano Electronics，State Key Laboratory of Silicon Materials，Zhejiang University；State Key Laboratory of Silicon Materials，School of Materials Science and Engineering，Zhejiang University；College of Information Science & Electronic Engineering，Zhejiang University；Key Laboratory of Ocean Observation-Imaging Testbed of Zhejiang Province，Ocean College，Zhejiang University）.具有超薄Al₂O₃钝化层的高性能近红外PtSe₂/n-Ge异质结光电探测器[J].Science China(Materials),2023,第7期郭美辰¹，唐武¹，洪妍¹，魏帮帅¹，胡嘉慧¹，余飞¹，樊聪^1,2（School of Materials and Energy，University of Electronic Science and Technology of China(UESTC)；Key Laboratory of Advanced Energy Materials Chemistry(Ministry of Education)，Nankai University）.可溶性有机正极的自碳化保证其在钠离子电池中的稳定应用[J].Science China(Materials),2023,第7期 Nicholas Adams，Guozhong Cao（Department of Materials Science and Engineering，University of Washington）.Hole transport layer-free inverted perovskite solar cells with power conversion efficiency exceeding 25% and much improved stability[J].Science China(Materials),2023,第7期 Haozhi Xu，Shuang Zhu，Zhanjun Gu（Key Laboratory for Biomedical Effects of Nanomaterials and Nanosafety，Institute of High Energy Physics，Chinese Academy of Sciences）.Bottlebrush prodrug provides a novel strategy for nanomedicine-mediated combination therapy of multiple myeloma[J].Science China(Materials),2023,第7期 Zi-Meng Han，Shu-Hong Yu（Department of Chemistry，Institute of Biomimetic Materials & Chemistry，Division of Nanomaterials & Chemistry，Hefei National Research Center for Physical Sciences at the Microscale，University of Science and Technology of China）.Revealing the effect of OH^- concentration change on the formation of FeNi layered double hydroxides[J].Science China(Materials),2023,第7期黄肖^1,2，何琼²，寻坚^2,3，潘泰松¹，周双²，曹国忠⁴，潘安强²（School of Materials and Energy，University of Electronic Science and Technology of China；School of Materials Science and Engineering，Central South University；Hunan Aerospace Institute of Electromechanical Device & Special Materials；Department of Materials Science and Engineering，University of Washington）.构建具有应变缓冲结构的超细FeS/C复合材料用于持久储锂/钠[J].Science China(Materials),2023,第7期杨佳鑫^1,2，陈胜楠^2,3，刘情情^1,2，王永帅^1,2，苗扎根^1,2，任晓辰⁴，胡袁源⁵，张光杰⁶，董焕丽^1,2，乔雅丽^2,3，宋延林^2,3，胡文平⁴（Beijing National Laboratory for Molecular Sciences, Key Laboratory of Organic Solids, Institute of Chemistry, Chinese Academy of Sciences；School of Chemical Sciences, University of Chinese Academy of Sciences；Beijing National Laboratory for Molecular Sciences, Key Laboratory of Green Printing, Institute of Chemistry, Chinese Academy of Sciences；Tianjin Key Laboratory of Molecular Optoelectronic Sciences, Department of Chemistry, School of Science, Tianjin University & Collaborative Innovation Center of Chemical Science and Engineering；Key Laboratory for Micro/Nano Optoelectronic Devices of Ministry of Education, School of Physics and Electronics, Hunan University；CAS Key Laboratory of Standardization and Measurement for Nanotechnology, CAS Center for Excellence in Nanoscience, National Center for Nanoscience and Technology）.可控掺杂双极性半导体聚合物应用于简化构筑综合性能优异的有机逻辑电路[J].Science China(Materials),2023,第6期林叶丰^1,2，周可³，张少波⁴，卢益君^2,3，何媛^2,3，刘宏基^1,2，孟祥福^1,2，钱勇^1,2，汪星宇^1,2，石心怡^1,2，林文楚^1,2，钱俊超³，王辉^1,2（High Magnetic Field Laboratory, Hefei Institutes of Physical Science, Chinese Academy of Sciences；University of Science and Technology of China；Hefei Cancer Hospital, Anhui Province Key Laboratory of Medical Physics and Technology, Institute of Health and Medical Technology, Hefei Institutes of Physical Science, Chinese Academy of Sciences；School of Basic Medicine, Anhui Medical University）.具有NIR-Ⅱ吸收的碳包覆磁铁矿纳米团簇用于成像引导的光热-化学动力学协同治疗[J].Science China(Materials),2023,第6期张洋，曹宁，刘晓明，贺凤婷，郑彬，赵朝成，王永强（State Key Laboratory of Petroleum Pollution Control, China University of Petroleum（East China））.增强π共轭结构的电子密度和面内电荷输运促进g-C₃N₄的光催化析氢[J].Science China(Materials),2023,第6期白泽惠¹，李鑫¹，丁乐¹，曲衍森¹，常兴华^1,2（School of Minerals Processing and Bioengineering, Central South University；Key Laboratory for Mineral Materials and Application of Hunan Province, Central South University）.Cu-Ni催化剂助力高效电化学反硝化合成氨[J].Science China(Materials),2023,第6期李国辉^1,2,3，侯缜¹，魏衍福¹，赵若凡¹，冀婷¹，王文艳¹，温荣¹，郑凯波³，于盛旺¹，崔艳霞^1,2（College of Physics and Optoelectronics, Key Laboratory of Interface Science and Engineering in Advanced Materials, Key Lab of Advanced Transducers and Intelligent Control System of Ministry of Education, Taiyuan University of Technology；Shanxi-Zheda Institute of Advanced Materials and Chemical Engineering；Division of Chemical Physics and NanoLund, Lund University）.采用高导热金刚石基底的高效散热钙钛矿激光[J].Science China(Materials),2023,第6期首页上一页 7 8 9 10 11 下一页尾页共有18页，转到页

期刊文章列表