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论文信息
2015年7-12月5.0以上论文信息统计
来源: 作者: 更新时间:2016-07-12

(2015年7月-12月,IF≥5.0)

[1]Chao Liu, Jiwen Yuan, Meng Gao, Shan Tang, Wu Li, Renyi Shi and Aiwen Lei*, Oxidative Coupling between Two Hydrocarbons: An Update of Recent C–H Functionalizations, Chemical Reviews, 115 (2015), 12138-12204 (IF: 46.568)

[摘要] 碳碳键的构建是有机合成化学的基本转化之一。传统的方法一般是利用亲核试剂与亲电试剂偶联来构建碳碳键,使用的底物大多经过C-H化合物的预官能团得到。基于现代有机合成对原子经济型和步骤经济性的要求,直接使用广泛易得的C-H化合物为亲核试剂的C-H/C-H氧化偶联代表了最为理想的构建碳碳键的模式。自2011年以来,这一研究方向得到了飞速的发展。在这篇综述中,该课题组总结了不同过渡金属催化的C-H/C-H氧化偶联的研究进展。

[2]Haesung Cho, Hexiang Deng, Keiichi Miyasaka, Zhiyue Dong, Minhyung Cho, Alexander V. Neimark, Jeung Ku Kang, Omar M. Yaghi*, Osamu Terasaki*, Extra adsorption and adsorbate superlattice formation in metal-organic frameworks, Nature, 2015, 527, 503-507. (IF: 41.456)

[摘要] 此项研究采用小角X射线衍射原位观察孔材料中的气体吸附行为,首次揭示了小分子在限域空间中的有序自发聚集行为。研究表明,不同孔道中的分子能够通过与具有原子厚度的MOF孔壁相互作用,与周围孔道中的分子进行“沟通”,从而形成跨孔道的不均匀分布,这种不均匀分布导致了额外气体吸附区域的产生以及气体分子的超晶格有序排列。这种小分子高层次排列的发现证明了分子间的长程相互作用的存在,加深了人们对于聚集态分子行为的理解,揭示了气体分子与孔材料的协同作用机制,为气体分子的分离、富集、转化等应用提供了新的研究思路。尤其对社会中广泛关注的温室气体CO2的富集和利用有着重要的意义。

[3]Sen Wang, Ang Lu*, Lina Zhang*, Recent advances in regenerated cellulose materials, Prog. Polym. Sci., dx.doi.org/10.1016/j.progpolymsci.2015.07.003. (IF: 26.932)

[摘要] 当前社会面临着非可再生资源枯竭及环境污染的双重挑战,利用天然高分子构筑新材料变得越发重要。纤维素,作为最丰富的天然高分子,具有可再生、低成本、广适用、生物相容及生物可降解等优良特性。本文综述了纤维素的非衍生化溶剂及其溶解机理。基于此,进一步介绍了一系列再生材料(纤维、膜、微球、水凝胶、气凝胶和生物塑料等)的制备方法和其构效关系,并展示了它们在纺织、包装、生物医药、水处理、光电器件、农业食品等方面的广泛应用。

[4]Fang, Y.; Xiao, L.; Ai, X.; Cao, Y.;* Yang, H., Hierarchical Carbon Framework Wrapped Na3V2(PO4)3 as a Superior High-Rate and Extended Lifespan Cathode for Sodium-Ion Batteries. Advanced Materials 2015, 27 (39), 5895-5900. (IF: 17.49)

[5]Dingfeng Xu, Chaoji Chen, Jia Xie*, Bao Zhang, Ling Miao, Jie Cai, Yunhui Huang and Lina Zhang*, A Hierarchical N/S-Codoped Carbon Anode Fabricated Facilely from Cellulose/Polyaniline Microspheres for High-Performance Sodium-Ion Batteries, Adv. Energy Mater., 2015, DOI: 10.1002/aenm.20150192. (IF: 16.146)

[摘要] 该课题组以自然界丰富且可再生的低成本纤维素作为原料,通过简易而绿色的方法,成功合成了一种具有分级结构的碳微球,并且通过结构的构筑和N/S杂原子掺杂实现微纳米尺度和原子尺度的结构设计。作为钠离子电池负极,这种碳微球负极展现了优异的倍率性能和超长的循环寿命。该研究表明,把低成本可再生资源与低成本钠离子电池技术进行有机结合,代表着大规模储能技术未来发展的一个重要方向。

[6]Lu Peng, Man He, Beibei Chen, Yu Qiao, and Bin Hu*, Metallomics Study of CdSe/ZnS Quantum Dots in HepG2 Cells. ACS Nano, 9 (2015), 10324-10334. (IF: 12.881)

[摘要] 本文建立了色谱-等离子体质谱(LC-ICP-MS)联用技术,从金属组学角度研究了CdSe量子点(QDs)在细胞中的形态及其变化情况,发现了CdSe QDs在HepG2细胞中主要以两种形态存在(QD1和QD2)。结合LC-ICP-MS、荧光及电镜表征,QD1为类似量子点形态;将LC-ICP-MS与电喷雾质谱平行联用,确定了QD2为含Cd金属硫蛋白。进一步研究了培育条件对形态种类和含量的影响。这是首次有关QDs进入细胞后形态及转变信息的报道,为从分子水平上了解QDs在细胞中的代谢及其毒性机理奠定了基础。

[7]Yan-Bing Yang, Wei Yin, Shi-Ting Wu, Xiang-Dong Yang, Wei Xia, Yue Shen, Yun-Hui Huang, An-Yuan Cao*, Quan Yuan*. Perovskite-Type LaSrMnO Electrocatalyst with Uniform Porous Structure for an Efficient Li−O2 Battery Cathode. ACS Nano, 2015 DOI: 10.1021/acsnano.5b06592 (IF: 12.881)

[摘要] 低成本的钙钛矿ABO3类化合物是作为锂空气电池的理想电极材料。然而,其有限的多孔性限制了分子的传递,并且本征的低电学导电性使得其很难作为高性能锂空气电池的电极。袁荃教授课题组合成了一种具有柔性分级多孔结构的石墨烯/介孔镧锶锰氧复合物。在这个优化的系统中,大孔有利于锂离子和氧气的扩散,介孔提供大的比表面积用于放电产物的沉积,钙钛矿相催化剂用于降低反应过电位,石墨烯作为导电多孔网络用于电子传递。作为锂空气电池的电极,具有高的容量,优异的速率性能和循环稳定性。

[8]Zheng-Yuan Hong, Cheng Lv, An-An Liu, Shu-Lin Liu, En-Ze Sun, Zhi-Ling Zhang, Ai-Wen Lei, Dai-Wen Pang*. Clicking Hydrazine and Aldehyde: The Way to Labeling of Viruses with Quantum Dots. ACS Nano, 9(12)(2015)11750-11760. (IF: 12.881)

[9]Kai Han, Shi-Bo Wang, Qi Lei, Jing-Yi Zhu, and Xian-Zheng Zhang*, Ratiometric Biosensor for Aggregation-Induced Emission-Guided Precise Photodynamic Therapy, ACS Nano 9 (2015) 10268–102774. (IF: 12.88)

[10]Jie Wang, Yurong Wei, Xiaoxia Hu, Yu-Yan Fang, Xinyang Li, Jian Liu, Shengfu Wang, and Quan Yuan*, Protein Activity Regulation: Inhibition by Closed-Loop Aptamer-Based Structures and Restoration by Near-IR Stimulation,J. Am. Chem. Soc., 137 (2015), 10576–10584. (IF: 12.113)

[摘要] 蛋白质活性调控对生命活动分子机制研究、代谢调节、生物催化和药物开发等领域具有重要意义。袁荃教授课题组基于DNA临近表面杂交技术及贵金属表面等离子体共振性质实现了对蛋白质活性的可逆调控。DNA临近表面杂交技术的应用提高了核酸适配体与蛋白质分子的亲和性;而金纳米棒的表面等离子体效应实现了近红外光介导的蛋白质活性恢复。该工作对于疾病分子机制研究及代谢调控等具有潜在价值。

[11]Wang, T.; Hong, T.; Huang, Y.; Su, H.; Wu, F.; Chen, Y.; Wei, L.; Huang, W.; Hua, X.; Xia, Y.; Xu, J.; Gan, J.; Yuan, B.; Feng, Y.; Zhang, X.; Yang, C. G*.; Zhou, X*. Journal of the American Chemical Society 2015, 137, 13736.. (IF: 12.113)

[12]Zhen Li, Tao Liang, Songwei Lv, Qinggeng Zhuang and Zhihong Liu*, A Rationally Designed Upconversion Nanoprobe for in Vivo Detection of Hydroxyl Radical, J. Am. Chem. Soc., 2015, 137, 11179-11185. (IF: 12.113)

[摘要] 羟基自由基作为一种活性很高的活性氧,会对生物大分子造成损伤,从而与许多的生理病理过程息息相关。但由于其半衰期较短,体内含量较低,从而使得检测活体中羟基自由基含量较为困难。基于此,刘志洪教授课题组利用上转换纳米颗粒作为荧光共振能量转移的能量供体,构建了UC-FRET纳米探针,实现了活细胞及组织中羟基自由基的高灵敏检测。

[13]Guoting Zhang, Chao Liu, Hong Yi, Qingyuan Meng, Changliang Bian, Hong Chen, Jing-Xin Jian, Li-Zhu Wu and Aiwen Lei*, External Oxidant-Free Oxidative Cross-Coupling: A Photoredox Cobalt-Catalyzed Aromatic C–H Thiolation for Constructing C–S Bonds, Journal of the American Chemical Society, 137 (2015), 9273-9280 (IF: 12.113)

[14]Yue-Biao Zhang, Hiroyasu Furukawa, Nakeun Ko, Weixuan Nie, Hye Jeong Park, Satoshi Okajima, Kyle E. Cordova, Hexiang Deng*, Jaheon Kim, and Omar M. Yaghi*, Introduction of Functionality, Selection of Topology, and Enhancement of Gas Adsorption in Multivariate Metal-Organic Framework-177,Journal of the American Chemical Society, 2015, 137, 2641-2650. (IF: 11.444)

[15]Shan Tang, Li Zeng, Yichang Liu and Aiwen Lei*, Zinc-Catalyzed Dehydrogenative Cross-Coupling of Terminal Alkynes with Aldehydes: Access to Ynones, Angewandte Chemie International Edition, 54 (2015), 15850-15853(IF: 11.261)

[16]Huamin Wang, Qingquan Lu, Chaohang Qian, Chao Liu, Wei Liu, Kai Chen and Aiwen Lei*, Solvent-Enabled Radical Selectivities: Controlled Syntheses of Sulfoxides and Sulfides, Angewandte Chemie International Edition, (2015) (IF 11.261)

[17]Jia-Quan Xu, Yan-Ling Liu, Qian Wang, Huan-Huan Duo, Xin-Wei Zhang, Yu-Tao Li and Wei-Hua Huang*, Photocatalytically Renewable Micro-electrochemical Sensor for Real-Time Monitoring of Cells, Angewandte Chemie International Edition, 54(2015), 14402-14406. (IF: 11.261)

[摘要] 在生物医学检测过程中,电极表面污染严重影响信号稳定性,限制了电极的循环利用。为了实现电极活性面有效更新,该研究小组以TiO2纳米颗粒为光降解自清洁材料,以石墨烯和纳米金颗粒为传感材料,构建了一种高灵敏光致自清洁微电极阵列。该电极阵列在紫外光照射下能够方便、高效地实现电极表面自更新,石墨烯和纳米金的复合材料提供了很高的检测灵敏度。该工作为高性能电化学传感器的构建及其循环利用提供了新的思路。

[18]Yu-Tao Li, Shu-Hui Zhang, Xue-Ying Wang, Xin-Wei Zhang, Alexander I. Oleinick, Irina Svir, Christian Amatore,* and Wei-Hua Huang*, Real-time Monitoring of Discrete Synaptic Release Events and Excitatory Potentials within Self-reconstructed Neuro-muscular Junctions, Angewandte Chemie International Edition, 54 (2015), 9313-9318. (IF: 11.261)

[摘要] 化学突触传递是神经信号传导的最主要途径,然而目前尚无法实时动态监测化学突触传递过程。该研究小组利用靶细胞诱导神经元轴突生长,在微流控芯片平台上构建了类似体内的神经元通讯网络,并采用纳米电化学探针分别检测了突触间隙内部神经递质分泌及其诱导的突触后细胞电位信号。该工作使得研究者能够在接近体内的环境下实时测量神经信号传导过程,为神经信号传导研究提供了有力的方法学基础。

[19]Wu, X.; Luo, Y.; Sun, M.; Qian, J.; Cao, Y.; Ai, X.; Yang, H.,* Low-defect Prussian blue nanocubes as high capacity and long life cathodes for aqueous Na-ion batteries. Nano Energy 2015, 13, 117-123. (IF: 10.32)

[20]Song-Wei Lv, Jing Wang, Min Xie, Ning-Ning Lu, Zhen Li, Xue-Wei Yan, Si-Liang Cai, Ping-An Zhang, Wei-Guo Dong* and Wei-Hua Huang*, Photoresponsive Immunomagnetic Nanocarrier for Capture and Release of Rare Circulating Tumor Cells, Chemical Science, 6(2015), 6432-6438. (IF: 9.211)

[21]Wei-Hai Chen, Qi Lei, Cai-Xia Yang, Hui-Zhen Jia, Guo-Feng Luo, Xiao-Yong Wang, Gang Liu, Si-Xue Cheng, Xian-ZhengZhang*,Bioinspired Nano-Prodrug with Enhanced Tumor Targeting and Increased Therapeutic Efficiency, Small 11 (2015) 5230-5242. (IF: 8.37)

[22]Min Wu, Zhi-Ling Zhang, Gang Chen, Cong-Ying Wen, Ling-Ling Wu, Jiao Hu, Chao-Chao Xiong , Jian-Jun Chen*, Dai-Wen Pang*. Rapid and Quantitative Detection of Avian Influenza A(H7N9) Virions in Complex Matrices Based on Combined Magnetic Capture and Quantum Dot Labeling. Small, 11(2015), 5280-5288. (IF: 8.368)

[23]Ling-Hong Xiong, Ran Cui, Zhi-Ling Zhang, Jia-Wei Tu, Yun-Bo Shi, Dai-Wen Pang*. Harnessing Intracellular Biochemical Pathways for In Vitro Synthesis of Designer Tellurium Nanorods. Small, 11 (2015), 5416-5422. (IF: 8.368)

[24]Linfeng Chen, Zhizhi Kong, Shuanglin Yue, Jinxin Liu, Jingwen Deng, Yao Xiao, Rafael G. Mendes, Mark H. Rümmeli, Lianmao Peng, Lei Fu*, Growth of uniform monolayer graphene using iron-group metals via forming antiperovskite layer, Chem. Mater., 27 (2015), 8230-8236. (IF: 8.354)

[25]Bo Gui, Xiangshi Meng, Yi Chen, Jianwu Tian, Guoliang Liu, Chencheng Shen, Matthias Zeller, Daqiang Yuan*, and Cheng Wang*, Reversible Tuning Hydroquinone/Quinone Reaction in Metal-Organic Framework: Immobilized Molecular Switches in Solid State, Chem. Mater., 27 (2015), 6426–6431. (IF: 8.354)

[26]Dingfeng Xu, Xu Xiao, Jie Cai, Jun Zhou*, and Lina Zhang*, Highly rate and cycling stable electrode materials constructed from polyaniline/cellulose nanoporous microspheres, J Mater. Chem. A, 3 (2015), 16424-16429. (IF: 7.443)

[27]Xuebo Hu, Minhao Ma, Rafael G. Mendes, Mengqi Zeng, Qin Zhang, Yinghui Xue, Tao Zhang, Mark H. Rümmeli, Lei Fu*, Li-storage Performance of Binder-free and Flexible Iron Fluoride@Graphene Cathodes, J. Mater. Chem. A, 3 (2015), 23930-23935. (IF: 7.443)

[28]Xiaogang Wang, Zhiyue Dong, Hong Cheng, Shuangshuang Wan, Weihai Chen, Meizhen Zou, Jiawei Huo, Hexiang Deng*, and Xian-Zheng Zhang*, A multifunctional metal–organic framework based tumor targeting drug delivery system for cancer therapy, Nanoscale, 2015, 7, 16061-16070. (IF: 7.394)

[29]Si-Yong Qin, Meng-Yun Peng, Lei Rong, Hui-Zhen Jia, Si Chen, Si-Xue Cheng, Jun Feng and Xian-Zheng Zhang*, An innovative pre-targeting strategy for tumor cell specific imaging and therapy, Nanoscale 7 (2015) 14786-1479. (IF: 7.39)

[30]Dong Xiao, Hui-Zhen Jia, Ning Ma, Ren-Xi Zhuo and Xian-Zheng Zhang*, A redox-responsive mesoporous silica nanoparticle capped with amphiphilic peptides by self-assembly for cancer targeting drug delivery, Nanoscale 7 (2015) 10071-10077. (IF: 7.39)

[31]Xiao-Gang Wang, Zhi-Yuan Dong, Hong Cheng, Shuang-Shuang Wan, Wei-Hai Chen, Mei-Zhen Zou, Jian-Wei Huo, He-Xiang Deng, Xian-Zheng Zhang*, A multifunctional metal-organic framework based tumor targeting drug delivery system for cancer therapy, Nanoscale, 7 (2015) 16061-16070. (IF: 7.39)

[32]Jilun Liu, Xuanye Leng, Yao Xiao, Chengguo Hu, Lei Fu*, 3D Nitrogen-doped Graphene/β-cyclodextrin: Hostguest Interaction for Electrochemical Sensing, Nanoscale, 7 (2015), 11922-11927. (IF: 7.394)

[33]Xuefeng Li, Hao Ren, Zhijuan Zou, Jiaojiao Sun, Jingyu Wang and Zhihong Liu*, Energy gap engineering of polymeric carbon nitride nanosheets for matching with NaYF4:Yb,Tm: enhanced visible-near infrared photocatalytic activity, Chem. Commun., 2016, 52, 453-456.(IF: 6.834)

[34]Hao-Ying Zhang, Jun Xiong, Bao-Lin Qi, Yu-Qi Feng* and Bi-Feng Yuan*, The existence of 5-hydroxymethylcytosine and 5-formylcytosine in both DNA and RNA in mammals. Chem Commun (Camb). 2015, DOI: 10.1039/c5cc07354e. (IF: 6.834)

[35]Hong Yi, Changliang Bian, Xia Hu, Linbin Niu and Aiwen Lei*, Visible light mediated efficient oxidative benzylic sp3 C-H to ketone derivatives obtained under mild conditions using O2, Chemical Communications, 51 (2015), 14046-14049 (IF: 6.834)

[36]Hong Yi, Changliang Bian, Xia Hu, Linbin Niu and Aiwen Lei*, Visible light mediated efficient oxidative benzylic sp3 C-H to ketone derivatives obtained under mild conditions using O2, Chemical Communications, 51 (2015), 14046-14049 (IF: 6.834)

[37]Jianming Liu, Weiwei Song, Yuanyuan Yue, Ren Liu, Hong Yi, Kelei Zhuo and Aiwen Lei*, Pd(OAc)2/S[double bond, length as m-dash]PPh3 accelerated activation of gem-dichloroalkenes for the construction of 3-arylchromones, Chemical Communications, 51 (2015), 17576-17579 (IF: 6.834)

[38]Shi-Yin Li, Li-Han Liu, Hong Cheng, Bin Li, Wen-Xiu Qiu, Xian-Zheng Zhang*, A dual-FRET-based fluorescence probe for the sequential detection of MMP-2 and caspase-3, Chem Commun 51 (2015) 14520-14523. (IF: 6.83)

[39]Ning Ma, Wen-Jing Wang, Si Chen, Xiao-Shuang Wang, Xiao-Qiang Wang, Shi-Bo Wang, Jing-Yi Zhu, Si-Xue Cheng and Xian-Zheng Zhang*, Cucurbit[8]uril-mediated supramolecular photoswitching for self-preservation of mesoporous silica nanoparticle delivery system, Chem. Commun. 51 (2015) 12970-12973. (IF: 6.83)

[40]Peng Jiang, Dong-Liang Zhu, Chun-Nan Zhu, Zhi-Ling Zhang, Guo-Jun Zhang, Dai-Wen Pang*. A highly reactive chalcogenide precursor for the synthesis of metal chalcogenide quantum dots. Nanoscale, 7(2015), 19310-19316. (IF: 6.739)

[41]Xiao-Mei He, Xi Chen, Gang-Tian Zhu, Qian Wang, Bi-Feng Yuan, and Yu-Qi Feng*, Hydrophilic Carboxyl Cotton Chelator for Titanium(IV) Immobilization and its Application as Novel Fibrous Sorbent for Rapid Enrichment of Phosphopeptides. ACS Appl Mater Interfaces, 7(2015), 17356-17362. (IF: 6.723)

[42]Jiaojiao Sun, Ningxin Yang, Zhe Sun, Mengqi Zeng, Lei Fu, Chengguo Hu*, Shengshui Hu, Fully Converting Graphite into Graphene Oxide Hydrogels by Preoxidation with Impure Manganese Dioxide. ACS Applied Materials & Interfaces, 7(2015), 21356–21363. (IF: 6.723)

[43]Zien Liu, Jie Wang, Yan Li, Xiaoxia Hu, Junwen Yin, Yeqing Peng, Zhihao Li, Yawen Li, Baomin Li, and Quan Yuan*, Near-Infrared Light Manipulated Chemoselective Reductions Enabled by an Upconversional Supersandwich Nanostructure, ACS Appl. Mater. Interfaces, 7 (2015), 19416–19423. (IF: 6.723)

[44]Wei-Hai Chen, Qi Lei, Guo-Feng Luo, Hui-Zhen Jia, Sheng Hong, Yu-Xin Liu, Yin-Jia Cheng, and Xian-Zheng Zhang*, Rational Design of Multifunctional Gold Nanoparticles via Host–Guest Interaction for Cancer-Targeted Therapy, ACS Appl. Mater. Interfaces7 (2015) 17171–17180. (IF: 6.723)

[45]Hong Cheng, Jing-Yi Zhu, Xiao-Ding Xu, Wen-Xiu Qiu, Qi Lei, Kai Han, Yin-Jia Cheng, and Xian-Zheng Zhang*, Activable Cell-Penetrating Peptide Conjugated Prodrug for Tumor Targeted Drug Delivery, ACS Appl. Mater. Interfaces7 (2015) 16061–16069. (IF: 6.723)

[46]Fang, Y.; Liu, Q.; Xiao, L.; Ai, X.; Yang, H.; Cao, Y.,* High-Performance Olivine NaFePO4 Microsphere Cathode Synthesized by Aqueous Electrochemical Displacement Method for Sodium Ion Batteries. Acs Applied Materials & Interfaces 2015, 7 (32), 17977-17984. (IF: 6.72)

[47]Xiao-Shui Li, Bi-Feng Yuan,* and Yu-Qi Feng*, Recent advances in phosphopeptide enrichment: strategies and techniques. TrAC-Trend Anal Chem, 2015, DOI: 10.1016/j.trac.2015.11.001. (IF: 6.472)

[48]Wu, L.; Lu, H.; Xiao, L.; Ai, X.; Yang, H.; Cao, Y.,* Improved sodium-storage performance of stannous sulfide@reduced graphene oxide composite as high capacity anodes for sodium-ion batteries. Journal of Power Sources 2015, 293, 784-789. (IF: 6.22)

[49]Zhijun Ruan, Wenhui Rong, Qianqian Li, and Zhen Li*, Oxygen as the growth enhancer of carbon nanotubes in solid-state pyrolysis of organometallic precursors, Carbon, 87(2015), 338-347. (IF: 6.196)

[50]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: 5.800)

[51]ai Chen, i Lei, ong Wang, ang Liu, Ren-Xi Zhuo,hengZhang*,Multifunctional Theranostic Nanoplatform for Cancer Combined Therapy Based on Gold Nanorods, Adv Healthc Mater. 4 (2015) 2247–2259. (IF: 5.797)

[52]Yao Huang, Mengyu Yao, Xing Zhen, Xichao Liang, Xiaojuan Su, Yu Zhang, Ang Lu*, Lina Zhang*. Effects of Chitin Whiskers on Physical Properties and Osteoblast Culture of Alginate Based Nanocomposite Hydrogels. Biomacromolecules. 2015, 16, 3499−3507. (IF: 5.75)

[53]Zitong Wu, Boran Dong, Xiaodong Zhou*, Aiguo Shen, and Jiming Hu*, INHIBIT-Inspired Two-Output DNA Logic Gates Based on Surface-Enhanced Raman Scattering, CHEM.-EUR. J., 21(2015) 14301-14304. (IF: 5.731)

[54]Wei Fang, Xinwei Zhang, Yong Chen, Liang Wan, Weihua Huang, Aiguo Shen* and Jiming Hu*, Portable SERS-enabled micropipettes for microarea sampling and reliably quantitative detection of surface organic residues, Anal. Chem., 87 (2015), 9217-9224. (IF: 5.636)

[55]Jie-Mei Chu, Chu-Bo Qi, Yun-Qing Huang, Han-Peng Jiang, Yan-Hong Hao, Bi-Feng Yuan,* and Yu-Qi Feng* (2015) Metal Oxide-Based Selective Enrichment Combined with Stable Isotope Labeling-Mass Spectrometry Analysis for Profiling of Ribose Conjugates. Analytical Chemistry, 87, 7364-7372. (IF: 5.636)

[56]Xiaolan Liu, Beibei Chen, Lin Zhang, Shiyao Song, Yabin Cai, Man He, and Bin Hu*, TiO2 Nanoparticles Functionalized Monolithic Capillary Microextraction Online Coupled with Inductively Coupled Plasma Mass Spectrometry for the Analysis of Gd Ion and Gd-Based Contrast Agents in Human Urine. Analytical Chemistry, 87 (2015), 8949-8956. (IF: 5.636)

[57]Juan Wang, Zhihong Liu, Chengguo Hu*, Shengshui Hu, Ultrasensitive Photoelectrochemical Biosensing of Multiple Biomarkers on a Single Electrode by a Light Addressing Strategy. Analytical Chemistry, 87(2015), 9368-9375. (IF: 5.636)

[58]Jia-Jia Wang, Yong-Zhong Jiang, Yi Lin, Li Wen, Cheng Lv, Zhi-Ling Zhang, Gang Chen, Dai-Wen Pang*. Simultaneous Point-of-Care Detection of Enterovirus 71 and Coxsackievirus B3. Analytical Chemistry, 87(2015), 11105-11112. (IF: 5.636)

[59]Lei Yu, Jun Ding,* Ya-Lan Wang, Ping Liu and Yu-Qi Feng*, 4-Phenylaminomethyl-Benzeneboric Acid Modified Tip Extraction for Determination of Brassinosteroids in Plant Tissues by Stable Isotope Labeling-Liquid Chromatography-Mass Spectrometry. Analytical Chemistry, 2015, DOI: 10.1021/acs.analchem.5b03720. (IF: 5.636)

[60]Liangliang Zhou, Hong Yi, Lei Zhu, Xiaotian Qi, Hanpeng Jiang, Chao Liu, Yuqi Feng, Yu Lan and Aiwen Lei*, Tuning the Reactivity of Radical through a Triplet Diradical Cu(II) Intermediate in Radical Oxidative Cross-Coupling, Scientific Reports, 5 (2015), 15934 (IF: 5.578)

[61]Qin-Yun Cheng, Jun Xiong, Wei Huang, Qin Ma, Weimin Ci, Yu-Qi Feng* and Bi-Feng Yuan*, Sensitive Determination of Onco-metabolites of D- and L-2-hydroxyglutarate Enantiomers by Chiral Derivatization Combined with Liquid Chromatography/Mass Spectrometry Analysis. Sci Rep, 5(2015), 15217. (IF: 5.578)

[62]Qianqian Li, and Zhen Li*, The utilization of post-synthetic modification in opto-electronic polymers: an effective complementary approach but not competitive one to the traditional direct polymerization process, Polymer Chemistry, 6(2015), 6770-6791. (IF: 5.520)

[63]Runli Tang, Hong Chen, Shengmin Zhou, Wendi Xiang, Xi Tang, Binwen Liu, Yongqiang Dong, Huiyi Zeng, and Zhen Li*, Dendronized hyperbranched polymers containing isolation chromophores: design, synthesis and further enhancement of the comprehensive NLO performance, Polymer Chemistry, 6(2015), 5580-5589. (IF: 5.520)

[64]Runli Tang, Hong Chen, Shengmin Zhou, Binwen Liu, Dong Gao, Huiyi Zeng, and Zhen Li*, The integration of “X” type dendron into polymers to further improve the comprehensive NLO performance, Polymer Chemistry, 6 (2015), 6680-6688. (IF: 5.520)

[65]Shuang Li, Tao Yuan, Guoli Tu, Jian Zhang,* and Zhen Li*, Two-dimensional quinoxaline based low bandgap conjugated polymers for bulk-heterojunction solar cells, Polymer Chemistry, 6(2015), 7436-7446. (IF: 5.520)

[66]Wenbo Wu, Zhipeng Wang, Rui Xiao, Zhen Xu, and Zhen Li*, Main chain dendronized hyperbranched polymers: convenient synthesis and good second-order nonlinear optical performance, Polymer Chemistry, 2015, 6, 4396-4403. (IF: 5.520)

[67]Lifang Tan, Jiangli Han, Rafael G. Mendes, Mark H. Rümmeli, Jinxin Liu, Qiong Wu, Xuanye Leng, Tao Zhang, Mengqi Zeng, Lei Fu*, Self-Aligned Single-crystalline Hexagonal Boron Nitride Arrays: Towards Higher Integrated Electronic Devices, Adv. Electron. Mater., 1 (2015), 1500223. (SCI核心期刊)

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