1. 毕业设计（论文）的内容和要求

#37329;#23646;#31163;#23376;#23545;#20110;#29615;#22659;#30340;#27745;#26579;#19968;#30452;#20197;#26469;#37117;#22791;#21463;#20851;#27880;#65292;#23545;#20110;#37329;#23646;#27745;#26579;#29289;#30340;#26816;#27979;#19982;#20998;#31163;#25216;#26415;#65292;#22312;#29615;#22659;#20445;#25252;#65292;#29983;#29289;#23398;#31561;#26041;#38754;#37117;#20855;#26377;#38750;#24120;#37325;#35201;#30340;#24847;#20041;#12290;#32780;#26377;#26426;#33639;#20809;#25506;#38024;#30001;#20110;#20854;#26131;#20110;#21512;#25104;#65292;#21709;#24212;#24555;#36895;#65292;#39640;#28789;#25935;#24230;#20197;#21450;#36873;#25321;#24615;#22909;#31561;#20248;#28857;#65292;#22312;#26816;#27979;#37329;#23646;#31163;#23376;#39046;#22495;#26377;#30528;#24191;#38420;#30340;#24212;#29992;#21069;#26223;#12290;#26412;#25991;#20197;#21945;#21833;#34893;#29983;#29289;#20026;#22522;#30784;#65292;#35774;#35745;#21512;#25104;#20102;#19968;#20010;#26377;#26426;#33639;#20809;#25506;#38024;#65292;#24182;#23545;#20854;#32043;#22806;#65292;#33639;#20809;#21644;#27604;#33394;#31561;#36827;#34892;#20102;#19968;#31995;#21015;#27979;#35797;#12290; #21046;#22791;#30340;#26377;#26426;#21270;#21512;#29289;#32467;#26500;#22343;#36890;#36807;#26680;#30913;#27682;#35889;#65288;1H-NMR#65289;#65292;#26680;#30913;#30899;#35889;#65288;1H-NMR#65289;#21644;#65288;MS#65289;#36827;#34892;#34920;#24449;#30830;#23450;#12290;

2. 参考文献

[1] Kumaresh Ghosh , Debojyoti Tarafdar. A new quinoline-based chemosensor in ratiometric sensing of Hg2 ions [J]. Supramolecular Chemistry, 2004, 25, 127. [2] Kumaresh Ghosh , Debojyoti Tarafdar. Piperazine-based simple structure for selective sensing of Hg2 and glutathione and construction of a logic circuit mimicking an INHIBIT gate[J]. NewJ.Chem., 2013, 37, 4206 [3] Yong-Sheng Mi, Dong-Ming Liang. A rhodamine杚uinoline type molecular switch as a highly selective sequential sensor for Al3 and F_ in aqueous solution[J]. RSC Adv., 2014, 4, 42337. [4] JingHan Hu, JianBin Li. Highly selective and effective mercury(II) fluorescent sensors[J] NewJ.Chem., 2015, 39, 843. [5] Jiaoliang Wang, Weiying Lin. Single Fluorescent Probe Displays a Distinct Response to Zn2 and Cd2 [J] Chem. Eur. J. 2012, 18, 13629 ?13632. [6] Sheri Madhu, Dharmendar Kumar Sharma. Sensing Hg(II) in Vitro and in Vivo Using a Benzimidazole Substituted BODIPY [J] Inorg. Chem. 2013, 52, 11136. [7] Weifang Luo, Huie Jiang. A reusable ratiometric two-photon chemodosimeter for Hg2 detection based on ESIPT and its application in bioimaging [J] . Mater. Chem. B, 2015, 3, 3459. [8] Krishnendu Aich, Shyamaprosad Goswami. Cd2 Triggered the FRET 揙N? A New Molecular Switch for the Ratiometric Detection of Cd2 with Live-Cell Imaging and Bound X#8209;ray Structure [J] Inorg. Chem. 2015, 54, 7309. [9] Sukdeb Saha, Recognition of Hg2 and Cr3 in Physiological Conditions by a Rhodamine Derivative and Its Application as a Reagent for Cell-Imaging Studies [J] Inorg. Chem. 2012, 51, 336. [10] Yuexia Gao, Xing Li. A simple visual and highly selective colorimetric detection of Hg2 based on gold nanoparticles modified by 8-hydroxyquinolines and oxalates [J] Chem. Commun., 2014, 50, 6447. [11] Keli Zhong, Xue Zhou. A water-soluble highly sensitive and selective fluorescent sensor for Hg2 based on 2-(2-(8- hydroxyquinolin)-yl)benzimidazole via ligand-tometal charge transfer (LMCT) [J] RSC Adv., 2014, 4, 16612. [12] Zhi-Xiang Han , Xiao-Bing Zhang. Highly selective and effective mercury(II) fluorescent sensors[J] NewJ.Chem., 2015, 39, 843. [13] JingHan Hu, JianBin Li. A Highly Sensitive Quinoline-Containing Rhodamine B Thiohydrazide Based Fluorescent Probe for Hg2 in Aqueous Solution and Living Cells [J] Analytical Letters, 43:17, 2751. [14] Xiao-Liang Tang,?Xiao-Hong Peng. Design of a Semirigid Molecule as a Selective Fluorescent Chemosensor for Recognition of Cd(II) [J] Org. Lett. 2008, 10, 3653. [15] Susanta Adhikari, Sandip Mandal. Strategically Modified Rhodamine#8722;Quinoline Conjugate as a CHEFAssisted FRET Probe for Au3 : DFT and Living Cell Imaging Studies [J] J. Org. Chem. 2015, 80, 8530. [16] Andrew T. Franks, Katherine J. Franz. A prochelator with a modular masking group featuring hydrogen peroxide activation with concurrent fluorescent reporting [J] Chem. Commun., 2014, 50, 11317. [17] Zhanxian Li, Xingjiang Liu. Naked-Eye Detection of C1#8722;C4 Alcohols Based on Ground-State Intramolecular Proton Transfer [J] Anal. Chem. 2014, 86, 2521. [18] Huatang Zhang, A FRET-based Ratiometric Fluorescent Probe for Nitroxyl Detection in Living Cells [J] ACS Appl. Mater. Interfaces 2015, 7, 5438.

3. 毕业设计（论文）进程安排

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