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论文信息
2015年1-6月5.0以上论文信息统计
来源: 作者: 更新时间:2016-07-12

(2015年1月-6月,IF≥5.0)

[1] Wenbo Wu,Runli Tang,Qianqian Li,and Zhen Li*,Functional hyperbranched polymers with advanced optical,electrical and magnetic properties,Chem. Soc. Rev.,44 (2015),3997-4022.(IF: 33.383)

[摘要]本文较为全面地综述了具有特殊光、电、磁性能超支化聚合物的研究进展,通过众多典型例子的叙述,从分子水平讨论了这类高分子结构设计与光电磁性能之间的构性关系,并对此研究领域的进一步发展提出了有意义的指引。

[2] Lei Bao,Cui Liu,Zhi-Ling Zhang,Dai-Wen Pang*. Photoluminescence-Tunable Carbon Nanodots:Surface-State Energy-Gap Tuning. Advanced Materials,27(2015)1663-1667. (IF 17.493)

[摘要]碳点作为一种环境友好、生物相容性优良的新型荧光纳米材料,在生物成像、分子示踪等相关领域显示出巨大的应用潜力。目前,碳点发光机理的认识非常不足,碳点发光光谱的调控仍是难点。本文通过硝酸氧化碳纤维,制备得到非激发光波长依赖型荧光碳点,揭示了碳点的表面态发光机理,并提出其表面态能隙的大小受到碳点表面氧化程度及其粒径大小的共同影响的新认识。进而,提出通过碳点粒径及表面氧化程度调控,实现碳点荧光发射波长调控的新方法。据此,成功制备出荧光发射波长在430 nm-610 nm范围光稳定性及生物相容性好的多色荧光碳点,可望用于多色成像等方面。

[3] Zhaofei Chai,Mei Wu,Manman Fang,Sushu Wan,Ting Xu,Runli Tang,Yujun Xie,Anyi Mei,Hongwei Han,Qianqian Li,* and Zhen Li*. Similar or Totally Different: the Adjustment of the Twist Conformation through Minor Structural Modification,and Dramatically Improved Performance for Dye-sensitized Solar Cell,Advanced. Energy Material,5 (2015),DOI: 10.1002/aenm.201500846. (IF: 16.146)

[摘要] 目前,染料敏化太阳能电池作为第三代太阳能电池,已成为光电领域的研究热点。而其实用化的进程与光电转换效率的高低密切相关。李振教授研究组通过对有机染料分子结构的微小调节,大大提高了电池的光电转换效率,提出了改进电池性能的新策略。

[4] Zhen Li, Songwei Lv, Yali Wang, Shiyu Chen, and Zhihong Liu*. Construction of LRET-Based Nanoprobe Using Upconversion Nanoparticles with Confined Emitters and Bared Surface as Luminophore, J. Am. Chem. Soc. 2015, 137, 3421-3427. (IF: 12.113)

[摘要] 上转换发光材料(UCNPs)是FRET技术优异的能量供体。刘志洪教授课题组提出了一种夹层结构的UCNPs材料,使发光中心限域于材料表面,从而突破能量转移效率的瓶颈,并基于此构建新颖的上转换荧光探针,实现活细胞和活体组织中钙离子的超高灵敏检测。

[5] Jie Ke,Yuliang Tang,Hong Yi,Yali Li,Yongde Cheng,Chao Liu,and Aiwen Lei,Copper-Catalyzed Radical/Radical C(sp3)-H/P-H Cross-Coupling: alpha-Phosphorylation of Aryl Ketone O-Acetyloximes,Angew. Chem. Int. Ed.2015,54,6604-6607. (IF: 11.336)

[摘要]因为含磷化合物在有机化学中有着重要应用,C-P键的构建是有机合成中的重要一部分。雷爱文教授课题组通过廉价金属铜作为催化剂,实现磷自由基与C(sp3)自由基的选择性交叉偶联(Angew. Chem. Int. Ed.2015,54,6604-6607),解决了两种自由基交叉偶联存在的选择性及效率低等科学问题,高效构建了β-酮磷酯化合物,这是一类有机合成反应中常用的原料。此外,课题组通过EPR分析体系中存在的自由基物种,证实反应是通过两个自由基的交叉偶联实现C-P键的构建。

[6] Wu Li; Zhenli Duan; Xueye Zhang; Heng Zhang; Mengfan Wang; Ru Jiang; Hongyao Zeng; Chao Liu; Aiwen Lei,From anilines to isatins: oxidative palladium-catalyzed double carbonylation of ch bonds,Angew. Chem. Int. Ed. 2015,54,1893-1896. (IF: 11.336)

[摘要] 钯催化羰基化反应近年来引起了化学家的重视,相比于单羰基化,钯催化的双羰基化反应研究很少。雷爱文教授课题组主要围绕钯催化的C-H键双羰基化反应进行研究,在常压下即可高效得到钯催化双羰基化目标产物-靛红衍生物(Angew. Chem. Int. Ed. 2015,54,1893-1896)。靛红是广为人知的天然产物,在生物分子、合成中间体、药物分子中广泛存在,有着较好的生物活性,可以起到抗癌、抗HIV等功效。此外,课题组还通过密度泛函理论计算提出了反应可能的机理。

[7] Jianming Liu; Xin Zhang; Hong Yi; Chao Liu; Ren Liu; Heng Zhang; Kelei Zhuo; Aiwen Lei,Chloroacetate-Promoted Selective Oxidation of Heterobenzylic Methylenes under Copper Catalysis,Angew. Chem. Int. Ed. 2015,54,1261-1265 (IF: 11.336)

[摘要]雷爱文教授课题组报道了氯乙酸乙酯促进的,铜催化的含氮类化合物卞位亚甲基的Csp3-H键活化氧化反应(Angew. Chem. Int. Ed. 2015,54,1261 –1265)。含氮类化合物中的C-H键活化通常较为困难,而课题组报道了在氯乙酸乙酯作用下,铜作为催化剂,通过单电子转移过程,产生一个卞位自由基,成功实现了该类分子的亚甲基C-H键活化。课题组利用EPR研究了反应的机理,研究表明只有当氯乙酸乙酯与氯化铜及4-乙基吡啶三者混合在一起放到DMF溶液中才会发现自由基信号,证明了反应在氯乙酸乙酯作用下,反应中是会存在一个单电子转移过程。同时密度泛函理论计算的结果说明了反应机理的合理性。

[8] Min Gao,Jing-jing Meng,Hui Lv*,Xumu Zhang*,Highly Regio- and Enantioselective Synthesis of Unsaturated Amido Esters by Catalytic Hydrogenation of Conjugated Enamides. Angew. Chem. Int. Ed. 2015,127,1905-1907.(IF :11.336)

[摘要]手性γ,δ不饱和氨基酸是一种重要手性砌块,具有非常重要的应用,但是其不对称合成技术仍存在诸多挑战。张绪穆研究小组利用Rh(cod)2BF4/Tangphos催化体系成功实现了共轭烯酰胺的选择性氢化,高效地合成了手性γ,δ-不饱和氨基酸及其衍生物,TON高达80000,为手性γ,δ-不饱和氨基酸的高效合成提供了一种新方法。该方法已应用于降血压药物雷米普利关键中间体的合成,显著降低了雷米普利的生产成本,对推动手性药物技术的发展及应用具有重要意义。

[9] Yan Xiao,Lingyu Zeng,Tian Xia,Zhengjun Wu,Zhihong Liu*,Construction of an Upconversion Nanoprobe with Few-Atom Silver Nanoclusters as the Energy Acceptor,Angewandte Chemie-International Edition 54(2015) 5323-5327. (IF 11.336)

[摘要] 银原子簇可作为高效的能量受体用于荧光共振能量转移(FRET)。刘志洪教授课题组将银原子簇与上转换发光材料结合,构建了一种新型的上转换荧光探针,应用于活细胞和小鼠肝脏中生物巯基分析。

[10] Bo Duan,Xing Zheng,Zhixiong Xia,Xiaoli Fan,Lin Guo,Jianfeng Liu,Yanfeng Wang,Qifa Ye,and Lina Zhang*,Highly biocompatible nanofibrous microspheres self-assembled from chitin in NaOH/urea aqueous solution as cell carriers,Angew. Chem. Int. Ed.,2015,54,5152 -5156. (IF:11.336)

[摘要] 张俐娜教授课题组将最难溶解的甲壳素成功低温溶解于氢氧化钠/尿素水体系中,同时揭示甲壳素为刚性链,且发现甲壳素可平行自组装形成纳米纤维,并通过热诱导法成功构建出甲壳素纳米纤维微球及其磁性微球。该微球具有优良的生物相容性,由里到外均一的纳米纤维结构。肝细胞L02在该微球表面粘附和增殖形成载体。

[11] Gang Chen,Jun-Yi Zhu,Zhi-Ling Zhang,Wei Zhang,Jian-Gang Ren,Min Wu,Zheng-Yuan Hong,Cheng Lv,Dai-Wen Pang*,Yi-Fang Zhao*. Transformation of Cell-Derived Microparticles into Quantum-Dot-Labeled Nanovectors for Antitumor siRNA Delivery. Angewandte Chemie International Edition,54(2015)1036-1040. (IF 11.261)

[摘要] 细胞源性微粒(Cell-derived microparticles)是细胞在激活、损伤或凋亡时从膜上脱落的携带母体细胞特征性生物信息分子的膜性囊泡(直径100-1000 nm),在许多生理病理学过程中充当生物信息传递载体,可作为许多疾病早期诊断及预后评估的重要指标,并可用作疾病个体化靶向治疗的潜在载体。目前,制约其深入研究的瓶颈之一是:缺乏高效特异损伤小的标记方法。我们提出在含生物素化磷脂衍生物的培养基中培养母体细胞,利用母体细胞通过出芽产生微粒这一特性获得膜生物素化的细胞源性微粒,再用亲和素修饰的量子点(SA-QDs)通过亲合作用即可实现对细胞源性微粒的量子点标记。方法特异、高效、温和、可控。载入治疗性小干扰RNA后,将其转化为可示踪的小干扰RNA递送载体,可用于肿瘤靶向成像和治疗。

[12] Xianyong Wu,YangLuo,MengyingSun,JiangfengQian,YuliangCao,XinpingAi,HanxiYang,Low-defect Prussian blue nanocubes as high capacity and long life cathodes for aqueous Na-ion batteries,Nano Energy 13,117–123(2015) (IF: 10.211)

[摘要]近年来,水溶液钠离子电池以其成本低廉、环境友好等优点,被认为是大规模储能的理想选择之一。目前,开发高比能的水溶液钠离子电池的主要瓶颈在于缺乏高容量的储钠正极。杨汉西教授课题组合成出了低缺陷、高结晶的普鲁士黄Fe[Fe(CN)6]纳米颗粒,利用2个Fe原子高度可逆的氧化还原活性,实现了130 mAh/g的储钠容量和500周的长期循环,为发展高容量、长循环的水溶液储钠正极提供了新思路。

[13] Xiaohu Zhang,Tianyou Peng*,Lijuan Yu,Renjie Li,Qianqian Li,Zhen Li,Visible/NIR-light- induced H2 production over g-C3N4 co-sensitized by organic dye and zinc phthalocyanine derivative,ACS Catalysis,5 (2015)504-510 (IF: 9.312)

[14] Wu,J.-J.,Xiao,H.,Wang,T.-L.,Hong,T.-T.,Fu,B.-S.,Bai,D.-S., He,Z.-Y.,Peng,S.,Xing,X.-W.,Hu,J.-L.,Guo,P. and Zhou,X.* N6-Hydroperoxymethyl adenosine: a new intermediate of chemical oxidation of N6-methyladenosine mediated by bicarbonate-activated hydrogen peroxide. Chem. Sci.,2015,DOI: 10.1039/C5SC00484E. (IF: 9.21)

[15] Mao,W.-X.,Xu,X.-W.,He,H.,Huang,R.,Chen,X.,Xiao,H.,Yu,Z.,Liu,Y.,and Zhou,X.* Specific recognition of guanines in non-duplex regions of nucleic acids with potassium tungstate and hydrogen peroxide,Nucleic Acids Res 2015,43,e3. (IF: 9.11)

[16] Yan-Ling Liu,Xue-Ying Wang,Jia-Quan Xu,Chong Xiao,Yan-Hong Liu,Xin-Wei Zhang,Jun-Tao Liu and Wei-Hua Huang*,Functionalized graphene-based biomimetic microsensor interfacing with living cells to sensitively monitor nitric oxide release. Chemical Science,6(2015),1853-1858. (IF 8.601)

[17] Xuejun Zhan,Ning Sun,Zhongbin Wu,Jin Tu,Lei Yuan,Xi Tang,Yujun Xie,Qian Peng,Yongqiang Dong,Qianqian Li,Dongge Ma,* and Zhen Li*,Polyphenybenzene as a Platform for Deep-Blue OLEDs: Aggregation Enhanced Emission and High External Quantum Efficiency of 3.98%,Chem. Mater.,27 (2015),1847-1854.(IF: 8.354)

[18] Fang-Fang Song,Xiao-Qiong Li,Qun Wang,Li-Qiong Liao*,and ChaoZhang*,Nanocomposite hydrogels and their applications in drug delivery and tissue engineering,Journal of Biomedical Nanotechnology,11(1) (2015) 40-52.(IF: 7.578)

[19] Bing Chen,Yang Yang,Pei Cheng,Xingguo Chen*,Xiaowei Zhan*,Jingui Qin,Designing a thiophene-fused DPP unit to build an A-D-A molecule for solution-processed solar cells,J. Mater. Chem. A,3(2015) 6894-6900. (IF: 7.443)

[20] Pingping Zhao,Nan Cao,Wei Luo* and Gongzhen Cheng,Nanoscale MIL-101 supported RhNi nanoparticles: an efficient catalyst for hydrogen generation from hydrous hydrazine,Journal of Materials Chemistry A,3 (2015) 12468-12475. (IF: 7.443)

[21] Jinlei Xu,Kan Li,Shufang Wu,Wenye Shi,and Tianyou Peng*,Preparation of brookite titania quasi nanocubes and their application in dye-sensitized solar cells,Journal of Material Chemistry A,3 (2015)7453-7462 (IF: 7.443)

[22] Kan Li,Tianyou Peng*,Zihao Ying,Shuaishuai Song,and Jing Zhang Ag-Loading on Brookite TiO2 Quasi Nanocubes with Exposed {210} and {001} Facets: Activity and Selectivity of CO2 Photoreduction to CO/CH4,Applied Catalysis B: Environmental,(2015) 10.1016/j.apcatb.2015.06.022 (IF: 7.435)

[23] Lan Yang,Xing Hua,Jun Su,Wei Luo*,Shengli Chen and Gongzhen Cheng*,Highly efficient hydrogen generation from formic acid-sodium formate over monodisperse AgPd nanoparticles at room temperature,Applied Catalysis B: Environmental,168-169 (2015) 423-428. (IF: 7.435)

[24] Shiming Zhang,Heyou Zhang,Xing Hua and Shengli Chen*,Tailoring molecular architectures of Fe phthalocyanine on nanocarbon supports for high oxygen reduction performance,Journal of Materials Chemistry A,3 (2015) 10013-19. (IF: 7.4)

[25] Bingquan Xia,Kang Chen,Wei Luo* and Gongzhen Cheng,NiRh nanoparticles supported on nitrogen-doped porous carbon as highly efficient catalysts for dehydrogenarion of hydrazine in alkaline solution,Nano Research,2015,in press. (IF: 7.01)

[26] Xuejun Zhan,Ji Zhang,Sheng Tang,Yuxuan Lin,Ming Zhao,Jie Yang,Haoli Zhang,* Qian Peng,Gui Yu,* and Zhen Li*,Pyrene fused perylene diimides: synthesis,characterization and applications in organic filed-effect transistors and optical limiting with high performance,Chem. Comm.,51 (2015),7156-7159. (IF: 6.834)

[27] Huimin Ding‡,Yihui Yang‡,Bijian Li,Feng Pan,Guozhu Zhu,Matthias Zeller,Daqiang Yuan* and Cheng Wang*,Targeted synthesis of a large triazine-based [4+6] organic molecular cage: structure,porosity and gas separation,Chemical Communications,51(10) (2015) 1976-1979.(IF: 6.834)

[28] Bo Gui‡,Ka-Kit Yee‡,Yan-Lung Wong,Shek-Man Yiu,Matthias Zeller,Cheng Wang* and Zhengtao Xu*,Tackling poison and leach: catalysis by dangling thiol–palladium functions within a porous metal–organic solid,Chemical Communications,51(32) (2015) 6917-6920. (IF: 6.834)

[29] Ya-HuiGuo,Xiao-YanTong,Li-YaJi,Zhi-LiWang,Hong-YanWang,Ji-Ming Hu* and Ren-Jun Pei*,Visual detection of Ca2+ based on aggregation-induced emission of Au(I)-Cys complexes with superb selectivity,Chemical Communications,51 (3) (2015) 596-598. (IF: 6.834)

[30] Li-Hua Wang,YiZeng,Ai-GuoShen*,Xiao-DongZhou andJi-MingHu*,Three dimensional nano-assemblies of noble metal nanoparticle-infinite coordination polymers as specific oxidase mimetics for degradation of methylene blue without adding any cosubstrate,Chemical Communications,51 (11) (2015) 2052-2055. (IF: 6.834)

[31] Tai Ye,Chunying Li,Chen Su,Xinghu Ji,Jiao Zheng,a Philip Tinnefeldc and Zhike He*,Enzymatic polymerization of poly(thymine) for the synthesis of copper nanoparticles with tunable,size and their application in enzyme sensing,Chemical Communications,51(2015) 8644-8647(IF 6.834)

[32] Xuefeng Tan,Qingli Wang,Yuanhua Liu,Fangyuan Wang,Hui Lv*,Xumu Zhang*A New Designed Hydrazine Group-contained Ruthenium Complex Used for Catalytic Hydrogenation of Esters,Chemical Communications,2015,DOI: 10.1039/C5CC04242A (IF: 6.834)

[33] Jiangjiang Duan,Xiaomei He and Lina Zhang*,Magnetic cellulose-TiO2 nanocomposite microspheres for highly selective enrichment of phosphopeptides,Chem. Comm.,2015,51,338-341. (IF: 6.834)

[34] Jiwen Yuan; Jing Wang; Guanghui Zhang; Chao Liu; Xiaotian Qi; Yu Lan; Jeffery T. Miller; A. Jeremy Kropf; Emilio E. Bunel; Aiwen Lei,Bimetallic Zinc Complex - Active Species in Coupling of Terminal Alkynes with Aldehydes via Nucleophilic Addition/Oppenauer Oxidation,Chem. Commun. 2015,51,576-579 (IF: 6.834)

[35] Jiwen Yuan; Chao Liu; Aiwen Lei,Construction of N-Containing Heterocycles via Oxidative Intramolecular N-H/X-H Coupling,Chem. Commun. 2015,51,1394-1409. (IF: 6.834)

[36] Hong Yi; Anny Jutand; Aiwen Lei,Evidence for the interaction between tBuOK and 1,10-phenanthroline to form the 1,10-phenanthroline radical anion: a key step for the activation of aryl bromides by electron transfer,Chem. Commun. 2015, 51,545-548 (IF: 6.834)

[37] Yi Deng,Guanghui Zhang,Xiaotian Qi,Chao Liu,Jeffrey T. Miller,A. Jeremy Kropf,Emilio E. Bunel,Yu Lan* and Aiwen Lei*,Revealing the halide effect on the kinetics of the aerobic oxidation of Cu(I) to Cu(II),Chem. Commun. 2015,51,318-321 (IF: 6.834)

[38] Shan Tang,Kun Liu,Yue Long,Xiaotian Qi,Yu Lan* and Aiwen Lei,Tuning radical reactivity using iodine in oxidative C(sp3)–H/C(sp)–H cross-coupling: an easy way toward the synthesis of furans and indolizines,Chem. Commun. 2015,51,8769-8772 (IF: 6.834)

[39] Renyi Shi,Hua Zhang,Lijun Lu,Pei Gan,Yuchen Sha,Heng Zhang,Qiang Liu,Matthias Beller* and Aiwen Lei*,(E)-a,b-unsaturated amides from tertiary amines,olefins and CO via Pd/Cu-catalyzed aerobic oxidative N-dealkylation,Chem. Commun. 2015,51,3247-3250 (IF: 6.834)

[40] Wenwen Deng,Yifei Shen,Jiangfeng Qian,and Hanxi Yang,A polyimide anode with high capacity and superior cyclability for aqueousNa-ion batteries,Chem. Commun.,51,5097—5099(2015)(IF: 6.834)

[41] Si/MnOOH composite with superior lithium storage property,Hai Zhong,Yanbo Yang,Fei Ding,Donghai Wang,Yunhong Zhou,Hui Zhan*,Chemical Communication,51(2015) 6164(IF: 6.834)

[42] Bao-Ping Qi,Hui Hu,Lei Bao,Zhi-Ling Zhang,Bo Tang,Ying Peng,Bao-Shan Wang,Dai-Wen Pang*. An efficient Edge-Functionalization Method to Tune the Photoluminescence of Graphene Quantum Dots. Nanoscale,7(2015)5969-5973. (IF 6.739)

[43] Lifang Tan,Mengqi Zeng,Tao Zhang,Lei Fu*,“Design of Catalytic Substrates for Uniform Graphene Films: From Solid-metal to Liquid-metal”,Nanoscale,2015,7,9105-9121. (invited review) (IF: 6.739)

[44] Yeshuang Du,Jun Su,Wei Luo* and Gongzhen Cheng*,Graphene-supported nickel-platium nanoparticles as efficient catalyst for hydrogen generation from hydrous hydrazine at room temperature,ACS Applied Materials Interfaces,7 (2015) 1031-1034. (IF: 6.723)

[45] Jun Ding,Huiyang Li,Can Wang,Jie Yang,Yujun Xie,Qian Peng,Qianqian Li,* and Zhen Li*,“Turn-On” Fluorescent Probe for Mercury(II): High Selectivity and Sensitivity,and New Design Approach by the adjustment of the π-bridge,ACS Applied Materials & Interfaces,7 (2015),11369-11376. (IF: 6.723)

[46] Yu Dai and Shengli Chen*. Oxygen Reduction Electrocatalyst of Pt on Au Nanoparticles through Spontaneous Deposition,ACS Applied Materials & Interfaces 7 (2015) 823-829 (IF: 6.7)

[47] Peng Jiang,Chun-Nan Zhu,Dong-Liang Zhu,Zhi-Ling Zhang,Guo-Jun Zhang,Dai-Wen Pang*. A room-temperature method for coating a ZnSshell on semiconductor quantum dots. Journal of Materials Chemistry C,3(2015)964-967. (IF 6.626)

[48] Zi-Tong Wu,Yi-Fei Liu,Yi-Zhen Liu,Hua-Ming Xiao,Ai-Guo Shen,Xiao-Dong Zhou* andJi-Ming Hu*,A simple and universal "turn-on" detection platform for proteases based on surface enhanced Raman scattering (SERS),Biosensors & Bioelectronics,65 (2015) 375-381. (IF: 6.451)

[49] Yi Zeng,Jin-Ju Pei,Li-Hua Wang,Ai-Guo Shen* and Ji-Ming Hu*,A sensitive sequential 'on/off SERS assay for heparin with wider detection window and higher reliability based on the reversed surface charge changes of functionalized Au@Ag nanoparticles,Biosensors & Bioelectronics,66 (2015) 55-61. (IF: 6.451)

[50] Guangming Yang,Faqiong Zhao*,Electrochemical sensor for chloramphenicol based on novel multiwalled carbon nanotubes@molecularly imprinted polymer,Biosensors and Bioelectronics,64(2015) 416-422 (IF: 6.451)

[51] Ze-Zhong Chen,Li Cai,Min-Yan Chen,Yi Lin,Dai-Wen Pang,Hong-Wu Tang*. Indirect immunofluorescence detection of E. coli O157:H7 with fluorescent silica nanoparticles,Biosensors and Bioelectronics,66(2015) 95-102. (IF: 6.451)

[52] Dong Liu,Yuxiu Li,Xiaotian Qi,Chao Liu,Yu Lan,*,and Aiwen Lei*,Nickel-Catalyzed Selective Oxidative Radical Cross-Coupling: An Effective Strategy for Inert Csp3−H Functionalization,Org. Lett. 2015,17,998-1001 (IF: 6.324)

[53] Jingjing Meng,Min Gao,Hui Lv*,Xumu Zhang*,Highly Enantioselective Hydrogenation of Ortho-Alkoxy Tetral-Substituted Enamides Catalyzed by a Rh-(R,S)-JosiPhos Catalyst,Org. Lett., 2015, 17 ,1842–1845.(IF : 6.324)

[54] Jun Jiang,Wenxin Lu,Hui Lv*,Xumu Zhang*,Highly Efficient Synthesis of Chiral α-CF3 Amines via Rh-Catalyzed Asymmetric Hydrogenation,Org. Lett.,2015,17,1154-1156.(IF : 6.324)

[55] Xuefeng Tan,Yan Wang,Yuanhua Liu,Fangyuan Wang,Liyang Shi,Ka-Ho Lee,Zhenyang Lin,Hui Lv*,Xumu Zhang*,Highly Efficient Tetradentate Ruthenium Catalyst for Ester Reduction: Especially for Hydrogenation of Fatty Acid Esters,Org. Lett.,2015,17,454.(IF : 6.324)

[56] Wu Li,Zhengli Duan,Ru Jiang,and Aiwen Lei*,Palladium/Copper-Catalyzed Aerobic Oxidative C−H Carbonylation for the Synthesis of o Aminobenzoates,Org. Lett. 2015,17,1397-1400 (IF: 6.324)

[57] Yiyang Ma,Dongchao Zhang,Zhiyuan Yan,Mengfan Wang,Changliang Bian,Xinlong Gao,Emilio E. Bunel,*,and Aiwen Lei*,Iron-Catalyzed Oxidative C−H/C−H Cross-Coupling between Electron-Rich Arenes and Alkenes,Org. Lett. 2015,17,2174-2177 (IF: 6.324)

[58] Shan Tang,Kun Liu,Yue Long,Xinlong Gao,Meng Gao,and Aiwen Lei*,Iodine-Catalyzed Radical Oxidative Annulation for the Construction ofDihydrofurans and Indolizines,Org. Lett,2015,17,2404-2407. (IF: 6.324)

[59] Fan Shen,Wei Huang,Jing-Tao Huang,Jun Xiong,Ying Yang,Ke Wu,Guifang Jia,Jinyu Chen,Yu-Qi Feng*,Bi-Feng Yuan* and Song-Mei Liu*. Decreased N(6)-Methyladenosine in Peripheral Blood RNA From Diabetic Patients Is Associated With FTO Expression Rather Than ALKBH5. Journal of Clinical Endocrinology and Metabolism,(2015) 100,E148-154 (IF: 6.310)

[60] Jingwen Deng,Linfeng Chen,Yangyong Sun,Minhao Ma,Lei Fu*,“Interconnected MnO2 Nanoflakes Assembled on Graphene Foam as a Binder-free and Long-cycle Life Lithium Battery Anode”,Carbon,2015,92,177-184. (IF: 6.160)

[61] Jiangjiang Duan,Xichao Liang,Yan Cao,Sen Wang and Lina Zhang*,High strength chitosan hydrogels with biocompatibility via new avenue based on constructing nanofibrous architecture,Macromolecules,2015,48,2706-2714. (IF: 5.927)

[62] Feiya Fu,Lingyan Li,Lianjie Liu,Jun Cai,Yaping Zhang,Jinping Zhou,* and Lina Zhang,Construction of cellulose based ZnO nanocomposite films with antibacterial properties through one-step coagulation,ACS Appl. Mater. Interfaces,2015,7,2597-2606. (IF: 5.900)

[63] Lei Shang,Baizhao Zeng,Faqiong Zhao*,Fabrication of novel nitrogen-doped graphene- hollow AuPd nanoparticle hybrid films for the highly efficient electrocatalytic reduction of H2O2,ACS Applied Materials & Interfaces,7(2015) 122-128 (IF: 5.900)

[64] Ning-Ning Lu,Min Xie,Jing Wang,Song-Wei Lv,Jia-Sheng Yi,Wei-Guo Dong and Wei-Hua Huang*,Biotin-triggered decomposable immunomagnetic beads for capture and release of circulating tumor cells. ACS Applied Materials & Interfaces 7(2015) 8817-8826 (IF: 5.900)

[65] Lin Zhang,Beibei Chen,Man He,Xiaolan Liu,and Bin Hu*,Hydrophilic Polymer Monolithic Capillary Microextraction Online Coupled to ICPMS for the Determination of Carboxyl Group-Containing Gold Nanoparticles in Environmental Waters,Analytical Chemistry,87( 2015) 1789–1796 (IF 5.825)

[66] Lingyu Zeng,Shiyu Chen,Tian Xia,Wei Hu,Chunya Li,Zhihong Liu*,Two-Photon Fluorescent Probe for Detection of Exogenous and Endogenous Hydrogen Persulfide and Polysulfide in Living Organisms,Analytical Chemistry,87 (2015) 3004-3010 (IF: 5.825)

[67] Yang Tang,Shu-Jian Zheng,Chu-Bo Qi,Yu-Qi Feng*,and Bi-Feng Yuan*. Sensitive and simultaneous determination of 5-methylcytosine and its oxidation products in genomic DNA by chemical derivatization coupled with liquid chromatography-tandem mass spectrometry analysis. Analytical Chemistry,87 (2015) 3445-3452(IF: 5.825)

[68] Zi-Xing Zhang,Xiao-Feng Guo,Hong Wang*,and Hua-Shan Zhang,Capillary Electrophoresis Strategy to Monitor the Released and Remaining Nitric Oxide from the Same Single Cell Using a Specially Designed Water-Soluble Fluorescent Probe,Analytical Chemistry,87(7) (2015) 3989–3995. (IF: 5.825)

[69] Yan Fang,Bo Duan,Ang Lu,Maili Liu,Huili Liu,Xiaojuan Xu* and Lina Zhang*,Intermolecular interaction and the extended wormlike chain conformation of chitin in NaOH/urea aqueous solution,Biomacromolecules,2015,16,1410-1417. (IF:5.788)

[70] Xue-Ying Wang,Ying Pei,Min Xie,Zi-He Jin,Ya-Shi Xiao,Yang Wang,Li-Na Zhang,Yan Li and Wei-Hua Huang*,Artificial Blood Vessel Implanted Three-Dimensional Microsystem for Modeling Transvascular Migration of Tumor Cells. Lab Chip,15(2015) 1178-1187. (IF: 5.748)

[71] Jie Yang,Jing Huang,Ning Sun,Qian Peng,Qianqian Li,* Dongge Ma,* and Zhen Li*,Twist versus the linkage mode: which one is better for the construction of blue luminogens with AIE properties,Chem. Eur. J. 21 (2015),6862-6868.(IF: 5.731)

[72] Gang-Tian Zhu,Xi Chen,Xiao-Mei He,Han Wang,Zheng Zhang,and Yu-Qi Feng*. Electrospun Highly Ordered Mesoporous Silica–Carbon Composite Nanofibers for Rapid Extraction and Prefractionation of Endogenous Peptides. Chemistry-A European Journal,2015,21,4450-4456. (IF: 5.696)

[73] Hui Li,De-en Sun,Zhihong Liu*,Ultrasensitive Biosensing Platform Based on the Luminescence Quenching Ability of Plasmonic Palladium Nanoparticles,Chemistry-A European Journal,21 (2015) 4944-4948. (IF: 5.696)

[74] Yan-Bing Yang,Pei-Xu Li,Shi-Ting Wu,Xin-Yang Li,An-Yuan Cao*,Quan Yuan*. Hierarchically Designed Three Dimensional Macro/Mesoporous Carbon Frameworks for Advanced Electrochemical Capacitance Storage. Chemistry-A European Journal,21 (2015) 6157-6164. (IF: 5.696)

[75] Beibei Chen,Yichao Qian,Minghuo Wu,Lifang Zhu,Bin Hu,and Xing-Fang Li *,Identification of Precursors and Mechanisms of Tobacco-Specific Nitrosamine Formation in Water during Chloramination,Environmental Science & Technology,49(2015) 459–466. (IF 5.481)

[76] Haoze Hu,Jun You,Weiping Gan,Jinping Zhou* and Lina Zhang,Synthesis of allyl cellulose in NaOH/urea aqueous solutions and its thiol–ene click reactions,Polym. Chem.,2015,6,3543-3548. (IF: 5.368)

[77] C. Tu,K. Jiang,K. Peng,L. Huang,J. Xia*,“Effect of Monomers’ Structure on Self Acid Assisted-Polycondensation for the Synthesis of Poly(3,4-ethylenedioxythiophene) and Homopolythiophene” Polym. Chem. 2015,6,1014. (IF: 5.36)

[78] Han-Peng Jiang,Chu-Bo Qi,Jie-Mei Chu,Bi-Feng Yuan*,and Yu-Qi Feng*. Profiling of cis-Diol-containing Nucleosides and Ribosylated Metabolites by Boronate-affinity Organic-silica Hybrid Monolithic Capillary Liquid Chromatography/Mass Spectrometry. Scientific Reports,5 (2015) 7785 (IF: 5.078)

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