《教育部重点实验室工作年报》
一、实验室名称,学科(领域),依托单位
实验室名称:化学生物学及中药分析
Key Laboratory of Chemical Biology and Traditional Chinese Medicine Research
主管部门:湖南省教育厅
学科领域:化学
依托单位:湖南师范大学
主 管 部 门:湖南省教育厅
二、实验室工作纪要
“化学生物学及中药分析”教育部重点实验室由中科院院士姚守拙教授领衔,拥有一批以中青年教授、博士为主体的学术队伍。实验室是在2004年4月通过教育部论证评估,被列为教育部重点实验室建设基地,2006年6月22日通过教育部验收正式运行。实验室研发工作基本思路如下:体现化学、生物和药学等学科交叉融合、相互渗透的理念,运用化学的理论、方法、手段乃至研究的思维,去研究和解决中药及化学生物学的问题,加速推进中药学和生命科学研究的发展;利用生物学的原理、方法、技术以及新发现、新成果解决化学领域中的一些难题,以此促进化学与生命科学的融合,推动新型学科化学生物学向更高层次发展。以分离分析、合成和构效关系模拟计算等为基本手段,探索和了解小分子与生物大分子作用过程、机制和效应,延伸到现代中药、新药研发、生态农药、绿色农业、重大疾病早期预警等应用领域,为社会经济发展服务。
近年来,实验室利用湖南地区中草药资源丰富的特点,将中药研究与新兴学科化学生物学相结合,开展在中药分析与化学生物学、电化学及化学/生物传感、活性小分子合成与化学生物学应用、化学生物学中的光分析等方向的研究,获得了一批高水平的基础理论研究和应用研究成果。
2014年,共承担了70余项研究课题,在研总经费2000余万元,其中2014年新增科研课题30项,其中国家级11项,总经费700多万元。2014年发表79篇SCI收录论文,获专利授权11项。
科研项目
目前承担的在研科研课题70余项,其中新增国家自然科学基金11项,肖乐辉获得湖南省自然科学基金杰出青年基金资助。
主要新增课题情况如下表:
序号 |
编号 |
项目名称 |
项目来源 |
起止时间 |
经 费 (万元) |
负责人 |
1 |
21403063 |
高表面积纳米多孔金/可变价态过渡金属氧化物复合材料的制备及对葡萄糖的无酶分解 |
国家自然科学基金 |
2015-2017 |
25 |
夏悦 |
2 |
21405042 |
酶抑制行为的压电电化学表征及分析应用 |
国家自然科学基金 |
2015-2017 |
25 |
陈超 |
3 |
21405043 |
检测β—内酰胺酶的荧光小分子探针的设计、合成及其在结核杆菌检测中的应用 |
国家自然科学基金 |
2015-2017 |
25 |
尹鹏 |
4 |
21405044 |
微尺度下溶剂诱导相分离萃取及在线分析系统的建立及其应用研究 |
国家自然科学基金 |
20152017 |
25 |
沈遥 |
5 |
21405045 |
荧光蛋白纳米颗粒的制备及其在生物成像分析以及药物运输中的应用 |
国家自然科学基金 |
2015-2017 |
25 |
魏琳 |
6 |
21471055 |
氮磷掺杂钛酸盐红色长余辉荧光粉的合成及其应用研究 |
国家自然科学基金 |
2015-2018 |
80 |
余丽萍 |
7 |
21475041 |
金属及其化合物纳米材料标记的生物电分析信号放大和超敏检测新方法研究 |
国家自然科学基金 |
2015-2018 |
90 |
谢青季 |
8 |
21475042 |
基于新型共轭聚电解质—贵金属纳米复合体系的荧光生化传感研究 |
国家自然科学基金 |
2015-2018 |
82 |
黄红梅 |
9 |
21475043 |
IV族元素量子点的电化学制备及其在生物分析中的应用 |
国家自然科学基金 |
2015-2018 |
90 |
张友玉 |
10 |
21476069 |
温敏型手性Salen Mn(III)配合物的制备及其水相中不对称催化烯烃环氧化反应研究 |
国家自然科学基金 |
2015-2018 |
86 |
谭蓉 |
11 |
51402105 |
白光LED用单一基质铝酸盐荧光粉的制备及光谱调控研究 |
国家自然科学基金 |
2015-2017 |
25 |
张吉林 |
12 |
14JJ1017 |
单分子单颗粒光学成像研究 |
湖南省自然科学基金 |
2014-2016 |
30 |
肖乐辉 |
2、科研经费
新增科研经费为700多万元, 新增科研经费主要用于科研中小型设备费、材料费、测试化验加工费、燃料费、会议差旅费、国际合作交流费以及文献/出版和劳务费。
3、获奖成果
序号 |
项目名称 |
项目完成人 |
获奖时间 |
获奖类别名称和等级 |
1 |
学位论文 |
谢青季(导师) |
20140606 |
湖南省优秀硕士学位论文 省级 |
2 |
学位论文 |
李则林(导师) |
20140606 |
湖南省优秀硕士学位论文 省级 |
4、发表的论文
2014年,实验室共发表102篇,其中SCI收录79篇。
5、获批和申请的专利
2014年获批专利11项。
序号 |
专 利 名 称 |
授权号/申请号 |
授权单位 |
完成人 |
1 |
一种磁性纳米粒子固相萃取柱及其制备方法与应用 |
ZL201210148921.3 |
国家专利局2014.02.12 |
陈波、李媛、杨子辉、张军安、张松 |
2 |
一种从黄芩根中提取黄芩苷和黄芩素的方法 |
ZL 201210150241.5 |
国家专利局2014.05.07 |
陈波、张松、张军安、许光明、周鹏、李媛 |
3 |
具有比率荧光信号的共轭聚电解质及其制备方法与应用 |
ZL 201210106820.X |
国家专利局2014.09.24 |
黄红梅、肖毅、何晓晓 张友玉、李莎 |
4 |
一种制备含二价铕离子红色荧光粉的方法 |
ZL 201210462340.7 |
国家专利局2014.11.26 |
廉世勋、邱忠贤、周文理、张吉林、荣春英、余丽萍、李承志 |
5 |
一种复极性三维电极催化剂填料及其制备方法 |
ZL 201210270047.0 |
国家专利局2014.03.12 |
孟勇、李明、殷杰、黄力华、尹笃林、毛丽秋 钟文周 |
6 |
一种全反式维A酸类药物的合成方法 |
ZL 201110455178.1 |
国家专利局 2014.02.26 |
徐广宇、沈栋国、刘彩 |
7 |
一种具有抗肿瘤活性的β-咔啉类衍生物及其制备方法 |
ZL 201210057899.1 |
国家专利局2014.07.02 |
徐广宇、刘浏、徐盈盈 杨泽祺、张为 |
8 |
一种利伐沙班的合成方法 |
ZL 201210298440.0 |
国家专利局2014.10.01 |
唐博、徐广宇、张明忠 |
9 |
一种具有上下转换荧光的碳点的绿色合成方法 |
ZL 201310191704.7 |
国家专利局2014.11.05 |
张友玉、尹帮达、龙倩、彭雪、李海涛、刘美玲、姚守拙 |
10 |
一种用酮电化学碳化制备荧光碳点的方法 |
ZL 201310376464.8 |
国家专利局2014.12.17 |
张友玉、卢求钧、邓建辉、李海涛、刘美玲、姚守拙 |
11 |
一种改性淀粉磁性纳米复合物及其制备方法和应用 |
ZL2012102389176 |
国家专利局2014.01.15 |
马铭 |
6、人才引进和研究生培养
2014年引进1名博士;新晋教授2人,副教授2人。肖乐辉教授2014年入选教育部优秀人才支持计划。
平台和团队建设取得较大进步,反映了重点实验室的重要支撑作用。2012年底,尹笃林教授领衔的“石化新材料”湖南省工程实验室经国家发改委批准获批为“石化材料与资源精细利用”国家地方联合工程实验室。这一平台是湖南师范大学认可的第一个国家级的科研平台,也使得学院科研平台数量进一步增加,层次进一步提升。
2014年毕业研究生134人。获得湖南省优秀优秀硕士论文2篇,培养的博士研究生作为第一作者在Anal. Chem., Chem. Commun., Biosens. Bioelectron., Org. Lett., J. Catal., J. Phys. Chem. C和J. Org. Chem.等刊物上发表论文20多篇。2014年度,我院化学学位点发表的论文质量高,数量多,化学学科进入全球ESI排名前1%。
7、访问学者
实验室唐浩、谭蓉老师等都在国内外知名大学进行访问学者研究学习。
三、国内外学术交流和会议
2014年继续与日本岛津公司合作,建设“湖南师范大学-岛津合作实验室”,就食品安全、中药分析方法开展相关合作研究及高层次人员培训。
2014年,邀请Wenwan Zhong教授等国内外专家来校访问、讲学或工作,其中有的讲学。有10余人次前往美国、英国及香港等地参加国际学术会议及开展合作研究。
具体讲学情况表如下:
1 |
Wenwan Zhong |
加州大学Riverside分校 |
2014年4月21日 |
Gaining more insights of nanoparticle protein interaction with analytical technologies |
2 |
刘育 |
南开大学 |
2014年4月24日 |
高键合能力的冠醚化合物及其分子器件 |
3 |
贾宗超 |
北京师范大学 |
2014年5月30日 |
A new di-iron oxygenase for enzymatic cleavage of a carbon-phosphorus bond |
4 |
刘文剑 |
北京大学 |
2014年6月20日 |
New ideas on strongly correlated electrons |
5 |
张瑞勤 |
香港城市大学 |
2014年6月20日 |
Economic basic set and their use ab initio calculations |
6 |
裴勇 |
湘潭大学 |
2014年6月20日 |
Theory of gold clusters:Structures,Spectra and Catalysis |
7 |
雷鸣 |
北京化工大学 |
2014年6月20日 |
Homogeneous Organometallic Catalysis:From Mechanistic Understanding to Catalysis Design |
8 |
刘述斌 |
美国北卡罗莱纳大学 |
2014年6月20日 |
Recent Developments in Density Functional Reactivity Theory |
9 |
Prof. Robert E. Maleczka, Jr. |
Michigan State University |
2014年7月12日 |
Advancing Catalytic Borylations through Academic-Industrial Collaborations |
10 |
史峰 |
河南大学 |
2014年7月12日 |
Aryne Chemistry and Catalytic Alkynylation: Recent Advances and Applications to Heterocycle Synthesis |
11 |
赵宗保 |
中国科学院大连化学物理研究所 |
2014年10月17日 |
高还原度化合物生物制造的基础研究 |
12 |
关亚风 |
中国科学院大连化学物理研究所 |
2014年10月18日 |
研究真实条件下的科学问题,解决实际问题 |
13 |
任吉存 |
上海交通大学 |
2014年10月30日 |
单分子波动光谱新方法研究及其应用 |
14 |
刘虎威 |
北京大学 |
2014年11月15日 |
常压敞开式离子化质谱新技术及其应用 |
15 |
Teris van Beek |
Wageningen大学 |
2014年11月15日 |
Ambien Mass Spectrometry in Food Safety, Phytoanalysis, Organic Monolayer, Characterisation and Hair Forensics |
16 |
姜建壮 |
北京科技大学 |
2014年11月25日 |
三明治型卟啉酞箐稀土配合物研究进展 |
2014年,实验室继续与湖南化工研究院(湖南海利有限公司)共建湖南省首批高校“农用精细化学品”产学研合作示范基地和研究生培养创新基地;继续与长岭炼油厂、中烟湖南等单位合作,相互开放,相互促进。与湖南省进出口检验检疫局合作,获批食品安全和质量控制湖南省研究生培养创新基地研究生培养创新基地。
2014年,实验室学术氛围异常活跃,实验室人员参加国内外会议20多场次。
五、发表的主要学术论文
实验室发表的论文如下:
1. Cai H., Fujimoto K., Lim J. M., Wang C., Huang W., Rao Y., Zhang S., Shi H., Yin B., Chen B., Ma M.,Song J., Kim D. and Osuka A., Synthesis of Direct beta-to-beta Linked Porphyrin Arrays with Large Electronic Interactions: Branched and Cyclic Oligomers,Angewandte Chemie-International Edition, 2014,53, 11088-11091.
2. Cao L., Lu X., Pu F., Yin X., Xia Y., Huang W. andLi Z., Facile fabrication of superhydrophobic Bi/Bi2O3surfaces with hierarchical micro-nanostructures by electroless deposition or electrodeposition,Applied Surface Science, 2014,288, 558-563.
3. Chen L., Li Z., Meng Y., Zhang P., Su Z., Liu Y., Huang Y., Zhou Y.,Xie Q. and Yao S., Sensitive square wave anodic stripping voltammetric determination of Cd2+and Pb2+ions at Bi/Nafion/overoxidized 2-mercaptoethanesulfonate-tethered polypyrrole/glassy carbon electrode,Sensors and Actuators B-Chemical, 2014,191, 94-101.
4. Chen Q., Liu M., Zhao J., Peng X., Chen X., Mi N., Yin B., Li H.,Zhang Y. and Yao S., Water-dispersible silicon dots as a peroxidase mimetic for the highly-sensitive colorimetric detection of glucose,Chemical Communications, 2014,50, 6771-6774.
5. Chen X., He Y.,Zhang Y., Liu M., Liu Y. and Li J., Ultrasensitive detection of cancer cells and glycan expression profiling based on a multivalent recognition and alkaline phosphatase-responsive electrogenerated chemiluminescence biosensor,Nanoscale, 2014,6, 11196-11203.
6. Chen X., Wang Y.,Zhang Y., Chen Z., Liu Y., Li Z. and Li J., Sensitive Electrochemical Aptamer Biosensor for Dynamic Cell Surface N-Glycan Evaluation Featuring Multivalent Recognition and Signal Amplification on a Dendrimer-Graphene Electrode Interface,Analytical Chemistry, 2014,86, 4278-4286.
7. Chen Y., Tan R., Zheng W.,Zhang Y., Zhao G. and Yin D., Dendritic phosphotungstate hybrids efficiently catalyze the selective oxidation of alcohols with H2O2,Catalysis Science & Technology, 2014,4, 4084-4092.
8. Deng J., Lu Q., Mi N., Li H., Liu M., Xu M., Tan L., Xie Q.,Zhang Y. and Yao S., Electrochemical Synthesis of Carbon Nanodots Directly from Alcohols,Chemistry-a European Journal, 2014,20, 4993-4999.
9. Figueredo F. A., Maza J. R., Kirk S. R. andJenkins S., Quantum Topology Phase Diagrams for the cis- and trans-Isomers of the Cyclic Contryphan-Sm Peptide,International Journal of Quantum Chemistry, 2014,114, 1697-1706.
10. Fu Y., Callaway Z., Lum J., Wang R., Lin J. andLi Y., Exploiting Enzyme Catalysis in Ultra-Low Ion Strength Media for Impedance Biosensing of Avian Influenza Virus Using a Bare Interdigitated Electrode,Analytical Chemistry, 2014,86, 1965-1971.
11. Guo M.-m., Wang P.-s., Zhou C.-h., Xia Y., Huang W. andLi Z., An ultrasensitive non-enzymatic amperometric glucose sensor based on a Cu-coated nanoporous gold film involving co-mediating,Sensors and Actuators B-Chemical, 2014,203, 388-395.
12. Guo M.-m., Yin X.-l., Zhou C.-h., Xia Y., Huang W. andLi Z., Ultrasensitive nonenzymatic sensing of glucose on Ni(OH)(2)-coated nanoporous gold film with two pairs of electron mediators,Electrochimica Acta, 2014,142, 351-358.
13. Han F., Qi X., Li L., Bu L., Fu Y.,Xie Q., Guo M., Li Y., Ying Y. and Yao S., Bio-Inspired Preparation of Fibrin-Boned Bionanocomposites of Biomacromolecules and Nanomaterials for Biosensing,Advanced Functional Materials, 2014,24, 5011-5018.
14. He Y., Zhang J., Zhou W., Han J., Qiu Z., Yu L., Rong C. andLian S., Multicolor Emission in a Single-Phase Phosphor Ca3Al2O6:Ce3+,Li+: Luminescence and Site Occupancy,Journal of the American Ceramic Society, 2014,97, 1517-1522.
15. Hou Y., Wu T., Liu Y., Wang H., Chen Y.,Chen B. and Sun W., Direct analysis of quaternary alkaloids by in situ reactive desorption corona beam ionization MS,Analyst, 2014,139, 5185-5191.
16. Huang B., Jia N., Chen L.,Tan L. and Yao S., Electrochemical Impedance Spectroscopy Study on Polymerization of L-Lysine on Electrode Surface and Its Application for Immobilization and Detection of Suspension Cells,Analytical Chemistry, 2014,86, 6940-6947.
17. Huang Y., Tuo S., Zhao Y., Xiong X., Yang Q., Chen Y.,Chen B. and Yang H., GC-MS Investigation of the Transfer Behavior of Alkalescent Flavors in Moderate/Low-Tar Cigarettes,Chromatographia, 2014,77, 171-178.
18. Jenkins S., Blancafort L., Kirk S. R. andBearpark M. J., The response of the electronic structure to electronic excitation and double bond torsion in fulvene: a combined QTAIM, stress tensor and MO perspective,Physical Chemistry Chemical Physics, 2014,16, 7115-7126.
19. Jia N., Huang B., Chen L.,Tan L. and Yao S., A simple non-enzymatic hydrogen peroxide sensor using gold nanoparticles-graphene-chitosan modified electrode,Sensors and Actuators B-Chemical, 2014,195, 165-170.
20. Li F., Peng J., Wang J., Tang H., Tan L.,Xie Q. and Yao S., Carbon nanotube-based label-free electrochemical biosensor for sensitive detection of miRNA-24,Biosensors & Bioelectronics, 2014,54, 158-164.
21. Li G., Wang Y., Yang L., Ma W. andWang M., In Situ Synthesis of ZnMn2O4-ZnO-C and ZnMn2O4-C Nanohybrids as High Performance Lithium- Ion Battery Anodes,European Journal of Inorganic Chemistry, 2014,2014, 845-851.
22. Li H., Guo Y., Xiao L. andChen B., A fluorometric biosensor based on H2O2-sensitive nanoclusters for the detection of acetylcholine,Biosensors & Bioelectronics, 2014,59, 289-292.
23. Li H., Guo Y., Xiao L. andChen B., Selective and sensitive detection of acetylcholinesterase activity using denatured protein-protected gold nanoclusters as a label-free probe,Analyst, 2014,139, 285-289.
24. Li R., Shen Y., Zhang X., Ma M.,Chen B. and van Beek T. A., Efficient Purification of Ginkgolic Acids from Ginkgo biloba Leaves by Selective Adsorption on Fe3O4 Magnetic Nanoparticles,Journal of Natural Products, 2014,77, 571-575.
25. Li Z., Chen L., He F., Bu L., Qin X.,Xie Q., Yao S., Tu X., Luo X. and Luo S., Square wave anodic stripping voltammetric determination of Cd2+ and Pb2+ at bismuth-film electrode modified with electroreduced graphene oxide-supported thiolated thionine,Talanta, 2014,122, 285-292.
26. Liu C., Shen Y., Yin P., Li L., Liu M.,Zhang Y., Li H. and Yao S., Sensitive detection of acetylcholine based on a novel boronate intramolecular charge transfer fluorescence probe,Analytical Biochemistry, 2014,465, 172-178.
27. Liu M., Wang L., Meng Y., Chen Q., Li H.,Zhang Y. and Yao S., (4-Ferrocenylethyne) Phenylamine Functionalized Graphene Oxide Modified Electrode for Sensitive Nitrite Sensing,Electrochimica Acta, 2014,116, 504-511.
28. Liu S., Rong C. andLu T., Information Conservation Principle Determines Electrophilicity, Nucleophilicity, and Regioselectivity,Journal of Physical Chemistry A, 2014,118, 3698-3704.
29. Liu X., Ma D., Tang H., Tan L.,Xie Q., Zhang Y., Ma M. and Yao S., Polyamidoamine Dendrimer and Oleic Acid-Functionalized Graphene as Biocompatible and Efficient Gene Delivery Vectors,Acs Applied Materials & Interfaces, 2014,6, 8173-8183.
30. Lu X., Pu F., Xia Y., Huang W. andLi Z., Facile fabrication of porous thin films of Bi2O3/Bi2S3 nanocomposite semiconductors at gas/liquid interface and their photoelectrochemical performances,Applied Surface Science, 2014,299, 131-135.
31. Lu X., Yin X., Pu F., Xia Y., Huang W. andLi Z., Blacking of nano-CdS thin film from gas/liquid interface for enhanced photoelectrochemical performances,Applied Surface Science, 2014,313, 26-30.
32. Pu F., Lu X., Xia Y., Huang W. andLi Z., Preparation of Surface-Sulfurized Nanollake-Like BiOCl Layered Semiconductor Films with Interbedded S2- for Enhanced Photoelectrochemical Performances,Journal of the Electrochemical Society, 2014,161, H269-H275.
33. Rong C., Lu T., Chattaraj P. K. andLiu S., On the relationship among Ghosh-Berkowitz-Parr entropy, Shannon entropy and Fisher information,Indian Journal of Chemistry Section a-Inorganic Bio-Inorganic Physical Theoretical & Analytical Chemistry, 2014,53, 970-977.
34. Rong C., Lu T. andLiu S., Dissecting molecular descriptors into atomic contributions in density functional reactivity theory,Journal of Chemical Physics, 2014,140.
35. Shen Y.,Zhang Y., Zhang X., Zhang C., Zhang L., Jin J., Li H. and Yao S., A new turn-on fluorescent sensor based on NBD for highly selective detection of Hg2+ in aqueous media and imaging in live cells,Analytical Methods, 2014,6, 4797-4802.
36. Song Y., Shen D., Zhang Q.,Chen B. and Xu G., Ac2O/K2CO3/DMSO: an efficient and practical reagent system for the Cross Mark synthesis of nitriles from aldoximes,Tetrahedron Letters, 2014,55, 639-641.
37. Tan L., Lin P., Pezeshkian B., Rehman A., Madlambayan G. andZeng X., Real-time monitoring of cell mechanical changes induced by endothelial cell activation and their subsequent binding with leukemic cell lines,Biosensors & Bioelectronics, 2014,56, 151-158.
38. Wang P., Xiao J., Guo M., Xia Y.,Li Z. and Huang W., Preparation of Graphite Nanoflakes and Supported Noble Metal/Alloy Nanoparticles by Paired Electrolysis with Graphite Electrodes,Journal of the Electrochemical Society, 2014,161, H606-H611.
39. Wang T., Fu Y., Chai L., Chao L., Bu L., Meng Y., Chen C., Ma M.,Xie Q. and Yao S., Filling Carbon Nanotubes with Prussian Blue Nanoparticles of High Peroxidase- Like Catalytic Activity for Colorimetric Chemoand Biosensing,Chemistry-a European Journal, 2014,20, 2623-2630.
40. Wang W., Qin C.,Xie Q., Qin X., Chao L., Huang Y., Dai M., Chen C., Huang J. and Hu J., Rapid electrodeposition of a gold-Prussian blue nanocomposite with ultrahigh electroactivity for dual-potential amperometric biosensing of uric acid,Analyst, 2014,139, 2904-2911.
41. Wang Y., Deng J., Zhang C., Wu W.,Xie Q., Liu Y. and Fu Z., Epoxidation of cyclohexene with molecular oxygen by electrolysis combined with chemical catalysis,Journal of the Iranian Chemical Society, 2014,11, 1723-1729.
42. Wang Y., Fu Z., Wen X., Rong C., Wu W., Zhang C., Deng J., Dai B., Kirk S. R. andYin D., 8-Quinolinolato iron(III)-catalyzed oxygenation of cyclohexane with hydrogen peroxide under heating or visible light irradiation,Journal of Molecular Catalysis a-Chemical, 2014,383, 46-52.
43. Wang Y., Jiang X., Yang L., Jia N. andDing Y., In Situ Synthesis of C/Cu/ZnO Porous Hybrids as Anode Materials for Lithium Ion Batteries,Acs Applied Materials & Interfaces, 2014,6, 1525-1532.
44. Wei L., Yang Q. andXiao L., Tempo-spatially resolved cellular dynamics of human immunodeficiency virus transacting activator of transcription (Tat) peptide-modified nanocargos in living cells,Nanoscale, 2014,6, 10207-10215.
45. Wei L., Zhou P., Yang Q., Yang Q., Ma M.,Chen B. and Xiao L., Fabrication of bright and small size semiconducting polymer nanoparticles for cellular labelling and single particle tracking,Nanoscale, 2014,6, 11351-11358.
46. Wu C.-Y., Deng G.-B., Hu M., Wei W.-T. andLi J.-H., ipso-Iodocyclization of para-Substituted 4-Aryl-1-alkenes Leading to 3-Iodo-1-azaspiro 4.5 deca-6,9-diene-2,8-diones,Synthesis-Stuttgart, 2014,46, 2585-2590.
47. Wu L., Huang H., Liang Y. andCheng P., Regio- and Stereoselective Synthesis of 2-Amino-dienes via Decarboxylative Amination of 4-(Ethoxycarbonyl)-2,3-allenols by TsNCO,Journal of Organic Chemistry, 2014,79, 11264-11269.
48. Wu W., Fu Z., Wen X., Wang Y., Zou S., Meng Y., Liu Y., Kirk S. R. andYin D., Light-triggered oxy-chlorination of cyclohexane by metal chlorides,Applied Catalysis a-General, 2014,469, 483-489.
49. Xiao C.-X., Xu T., Maza J. R., Figueredo F. A., Kirk S. R. andJenkins S., A QTAIM perspective of the Si6Li6 potential energy surface using quantum topology phase diagrams,Chemical Physics Letters, 2014,609, 117-122.
50. Xiao L. andYeung E. S., Optical Imaging of Individual Plasmonic Nanoparticles in Biological Samples,Annual Review of Analytical Chemistry, Vol 7, 2014,7, 89-111.
51. Xiong X., Peng Z., Shu Y., He H., Chen Y. andChen B., Application of Thiol-Ene "Click" Reactions in the Preparation of Monolithic Columns,Progress in Chemistry, 2014,26, 152-157.
52. Yan H., Zhou Y.,Xie Q., Zhang Y., Zhang P., Xiao H., Wang W. and Yao S., Simultaneous analysis of isoniazid and rifampicin by high-performance liquid chromatography with gradient elution and wall-jet/thin-layer electrochemical detection,Analytical Methods, 2014,6, 1530-1537.
53. Yang L., Zhang Y., Chu M., Deng W., Tan Y., Ma M., Su X.,Xie Q. and Yao S., Facile fabrication of network film electrodes with ultrathin Au nanowires for nonenzymatic glucose sensing and glucose/O-2 fuel cell,Biosensors & Bioelectronics, 2014,52, 105-110.
54. Yang L.-s. andGu X.-h., Controlled synthesis of one-dimensional Au-Ag porous nanostructures,Transactions of Nonferrous Metals Society of China, 2014,24, 1807-1812.
55. Yang Q., Tuo S., Zhao Y., Wei W., Huang Y.,Chen B. and Yang H., Analysis of cigarette smoke by headspace solid phase microextraction gas chromatography-mass spectrometry,Analytical Letters, 2014,47, 1995-2002.
56. Yang X., Feng B., Yang P., Ding Y., Chen Y. andFei J., Electrochemical determination of toxic ractopamine at an ordered mesoporous carbon modified electrode,Food Chemistry, 2014,145, 619-624.
57. Yang Y., Huang H., Wu L. andLiang Y., Palladium-catalyzed annulation of benzynes with N-substituted-N-(2-halophenyl)formamides: synthesis of phenanthridinones,Organic & Biomolecular Chemistry, 2014,12, 5351-5355.
58. Yang Y., Zhang X., Zeng W., Huang H. andLiang Y., Copper catalyzed three-component synthesis of benzothiazolones from o-iodoanilines, DMF, and potassium sulfide,Rsc Advances, 2014,4, 6090-6093.
59. Ye M., Tang L., Luo M., Zhou J., Guo B., Liu Y. andChen B., Size- and time-dependent alteration in metabolic activities of human hepatic cytochrome P450 isozymes by gold nanoparticles via microsomal coincubations,Nanoscale Research Letters, 2014,9.
60. Yin B., Zhou W., Long Q., Li C.,Zhang Y. and Yao S., Salt-assisted rapid transformation of NaYF4:Yb3+,Er3+nanocrystals from cubic to hexagonal,Crystengcomm, 2014,16, 8348-8355.
61. Yin X., Duo M., Xia Y., Huang W. andLi Z., Amperometric sensing of hydrogen peroxide on a modified electrode with layered Au/TiO2nanofilms from self-assembly at air/water interface,Journal of Electroanalytical Chemistry, 2014,720, 19-23.
62. Zeng A., Li Y., Su S., Li D., Hou B. andYu N., Gold nanoparticles stabilized by task-specific ionic complexes: Quasi-homogeneous catalysts with self-separating nature for aerobic epoxidation of styrene,Journal of Catalysis, 2014,319, 163-173.
63. Zeng L., Wang M., Yuan Y., Guo B., Zhou J., Tan Z., Ye M., Ding L. andChen B., Simultaneous multi-component quantitation of Chinese herbal injection Yin-zhi-huang in rat plasma by using a single-tube extraction procedure for mass spectrometry-based pharmacokinetic measurement,Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 2014,967, 245-254.
64. Zeng W., Dang P., Zhang X.,Liang Y. and Peng C., Copper-catalyzed synthesis of 2-aminobenzothiazoles from carbodiimide and sodium hydrosulfide,Rsc Advances, 2014,4, 31003-31006.
65. Zhang C., Fu Z., Dai B., Zen S., Liu Y., Xu Q., Kirk S. R. andYin D., Biochar sulfonic acid immobilized chlorozincate ionic liquid: an efficiently biomimetic and reusable catalyst for hydrolysis of cellulose and bamboo under microwave irradiation,Cellulose, 2014,21, 1227-1237.
66. Zhang J., He Y., Qiu Z., Zhang W., Zhou W., Yu L. andLian S., Site-sensitive energy transfer modes in Ca3Al2O6:Ce3+/Tb3+/Mn2+phosphors,Dalton Transactions, 2014,43, 18134-18145.
67. Zhang J., Zhang W., He Y., Zhou W., Yu L., Lian S.,Li Z. and Gong M., Site-occupancy on the luminescence properties of a single-phase Li4SrCa (SiO4)(2):Eu2+phosphor,Ceramics International, 2014,40, 9831-9834.
68. Zhang X., Zeng W., Yang Y., Huang H. andLiang Y., Copper-Catalyzed Double C-S Bonds Formation via Different Paths: Synthesis of Benzothiazoles from N-Benzyl-2-iodoaniline and Potassium Sulfide,Organic Letters, 2014,16, 876-879.
69. Zhang X. andZeng Y., Calculations of Henry's law constants for organic species using relative Gibbs free energy change,Fluid Phase Equilibria, 2014,376, 234-238.
70. Zhang X.-J., Deng Y.-X., Shi Q.-Z., He M.-Y.,Chen B. and Qiu X.-M., Hypolipidemic effect of the Chinese polyherbal Huanglian Jiedu decoction in type 2 diabetic rats and its possible mechanism,Phytomedicine, 2014,21, 615-623.
71. Zhang Y., Chu M., Yang L., Deng W., Tan Y., Ma M. andXie Q., Synthesis and oxygen reduction properties of three-dimensional sulfur-doped graphene networks,Chemical Communications, 2014,50, 6382-6385.
72. Zhang Y., Chu M., Yang L., Tan Y., Deng W., Ma M., Su X. andXie Q., Three-Dimensional Graphene Networks as a New Substrate for Immobilization of Laccase and Dopamine and Its Application in Glucose/O-2 Biofuel Cell,Acs Applied Materials & Interfaces, 2014,6, 12808-12814.
73. Zhao J., Deng J., Yi Y., Li H.,Zhang Y. and Yao S., Label-free silicon quantum dots as fluorescent probe for selective and sensitive detection of copper ions,Talanta, 2014,125, 372-377.
74. Zheng W., Tan R., Zhao L., Chen Y., Xiong C. andYin D., Mn2+/graphene oxide nanocomposite efficiently catalyzes the epoxidation of alkenes with H2O2,Rsc Advances, 2014,4, 11732-11739.
75. Zhong S., Wang C., Song Q., Fan M., Liu B., Wei D. andLiu J., Synthesis and Herbicidal Activities of 2-Ethoxyethyl 2-Cyano-3-(substituted)acrylates,Chinese Journal of Organic Chemistry, 2014,34, 2324-2330.
76. Zhou C., Xia Y., Huang W. andLi Z., A Rapid Anodic Fabrication of Nanoporous Gold in NH4Cl Solution for Nonenzymatic Glucose Detection,Journal of the Electrochemical Society, 2014,161, H802-H808.
77. Zhou W., Han J., Pan F., Zhang J., Xie Q., Lian S., Yu L. andWang J., Preparation and Luminescence Properties of Eu2+and Mn2+Coactivated Tricalcium Phosphate Phosphors,Journal of the American Ceramic Society, 2014,97, 3631-3635.
78. Zhou X.-Y., Rong C.-Y., Lu T. andLiu S.-B., Hirshfeld Charge as a Quantitative Measure of Electrophilicity and Nucleophilicity: Nitrogen-Containing Systems,Acta Physico-Chimica Sinica, 2014,30, 2055-2062.
79. Zhu L., Xu L., Huang B., Jia N.,Tan L. and Yao S., Simultaneous determination of Cd(II) and Pb(II) using square wave anodic stripping voltammetry at a gold nanoparticle-graphene-cysteine composite modified bismuth film electrode,Electrochimica Acta, 2014,115, 471-477.
六、依托单位给予的支持
学校按照教育部重点实验室建设要求和管理条例,在人力、物力和财力方面对“化学生物学及中药分析”重点实验室给予全力支持,学校每年20万元的运行经费。
七、运行经费、主任基金等的使用情况
重点实验室运行经费主要分为主任基金、开放基金、学术交流经费、办公经费等四个方面,大致比例为主任基金10%、开放基金40%、学术交流经费40%、办公经费10%。主任基金主要用于支持具有创新思想的课题和优秀年轻人才的培养。在符合国家有关政策的前提下,可用于岗位补贴、绩效奖励等。开放基金主要用于吸引和资助国内外优秀学者,特别是青年学者,来实验室开展合作研究,培养造就高层次创新人才,促进交叉学科方向的形成和发展,提高科研水平。学术交流经费主要用于学术委员会会议的开支,以及补贴邀请校外专家接待费、差旅费等开支。办公经费主要用于购置办公设备、网站维护和建设、改善实验室人员办公条件和实验室日常管理等开支。
2014年学校拨运行经费20万,主要用于开放基金、仪器设备费维护费、材料与资料费、小型设备费、学术交流费、复印与打印等方面。