[1] | SONG Tianyou,XU Jiaming,CHENG Gongzhen. Inorganic Chemistry,Vol2[M]. Higher Education Press,2015:95-96(in Chinese). 宋天佑,徐家宁,程功臻. 无机化学.下册[M]. 高等教育出版社,2015:95-96. | [2] | Huang G Y,Xu S M,Xu G,et al. Preparation of Fine Nickel Powders via Reduction of Nickel Hydrazine Complex Precursors[J]. Trans Nonferr Met Soc,2009,19(2):389-393. | [3] | Chae E H,Kim S H,Lee J H,et al. Preparation of Fine Ni Powders from Nickel Hydrazine Complex[J]. Mater Chem Phys,2006,97(2):371-378. | [4] | Gustafsson M,Fischer A,Ilyukhin A,et al. Novel Polynuclear Nickel(Ⅱ) Cmplex:Hydrazine, Sulfato, and Hydroxo Bridging in an Unusual Metal Hexamer. Crystal Structure and Magnetic Properties of [Ni6(N2H4)6(SO4)4(OH)2(H2O)8](SO4)(H2O)10[J]. Inorg Chem,2010,49(12):5359-5361. | [5] | Li Z Y,Han C H,Shen J Y.Reduction of Ni2+, by Hydrazine in Solution for the Preparation of Nickel Nano-particles[J]. Mater Sci,2006,41(11):3473-3480. | [6] | Qi B H,Li D G,Ni X M,et al. A Facile Chemical Reduction Route to the Preparation of Single-crystalline Iron Nanocubes[J]. Chem Lett,2007,36(6):722-723. | [7] | ZHU Yanchao,ZHAO Jingzhe,ZHOU Bing,et al. Preparation of Metallic Iron Nanoparticles with Liquid Phase Chemical Reduction Method[J]. Chem J Chinese Univ,2008,29(10):2020-2024(in Chinese). 朱燕超,赵敬哲,周兵,等. 单质铁纳米颗粒的液相还原制备[J]. 高等学校化学学报,2008,29(10):2020-2024. | [8] | Liu X H,Yi R,Wang Y T,et al. Highly Ordered Snowflakelike Metallic Cobalt Microcrystals[J]. Phys Chem C,2007,111(1):163-167. | [9] | WEN Shulai,LIU Ying,ZHAO Xiuchen,et al. The Effects of Process Factors on Morphology of Ultrafine Cobalt Particles Prepared by Liquid Phase Reduction Method[J]. Magn Mater Devices,2014,45(6):15-19(in Chinese). 温术来,刘颖,赵修臣,等. 工艺条件对液相还原法制备的超细钴粒子形貌的影响[J]. 磁性材料及器件,2014,45(6):15-19. | [10] | Li Y D,Wang J W,Deng Z X,et al. Bismuth Nanotubes:A Rational Low-Temperature Synthetic Route[J]. J Am Chem Soc,2001,123(40):9904-9905. | [11] | Purkayastha A,Lupo F,Kim S,et al. Low-Temperature, Template-Free Synthesis of Single-Crystal Bismuth Telluride Nanorods[J]. Adv Mater,2006,18(4):496-500. | [12] | WANG Yilin,LIU Shengyan,MO Fengping,et al. Aqueous Synthesis of CdTe Quantum Dots from Hydrazine Hydrate and Tellurium Dioxide[J]. Chem J Chinese Univ,2013,34(1):45-49(in Chinese). 王益林,刘声燕,莫凤萍,等. 水合肼还原二氧化碲水相合成CdTe量子点[J]. 高等学校化学学报,2013,34(1):45-49. | [13] | GOU Junjun,YE Jinwen,LIU Ying,et al. The Preparation of Nanometer Tellurium Powder with Liquid Phase Reduction Method under the Condition of Different Solvents[J]. Funct Mater,2014,45(1):125-128(in Chinese). 苟军军,叶金文,刘颖,等. 不同溶剂条件下的液相还原制备纳米碲粉[J]. 功能材料,2014,45(1):125-128. | [14] | Ducamp-Sanguesa C,Herrera-Urbina R,Figlarz M.Fine Palladium Powder of Uniform Particle Size and Shape Produced in Ethyleneglycol[J]. Solid State Ionics,1993,63(9):25-30. | [15] | Morris D F C,Ritter T J. Oxidation of Hydrazine by Halogeno-Complexes of Iridium(Ⅳ) in Acidic Perchlorate Solutions[J]. Chem Soc Dalton Trans,1980,11(2). | [16] | HU Biao,WANG Xianghui,TAN Xuemei,et al. Preparation and Characterization of Cocoanut Activated Carbons with High Specific Surface Area and Pd/C Catalyst[J]. New Chem Mater,2011,39(11): 132-134(in Chinese). 胡标,王向辉,谭学梅,等. 高比表面椰壳活性炭和纳米级Pd/C催化剂的制备与表征[J]. 化工新型材料,2011,39(11):132-134. | [17] | HUAN Changyong,MA Lei,LÜ Deyi,et al. Preparation and Formation Mechanism of New PdHx-Pd/C Catalyst Through Hydrazine-reducing Method under Atmospheric Pressure and H2-free Conditions[J]. Inorg Mater,2013,28(10):1072-1078(in Chinese). 郇昌永,马磊,吕德义,等. 新型无氢胺化催化剂PdHx-Pd/C的水合肼还原法制备及形成机制研究[J]. 无机材料学报,2013,28(10):1072-1078. | [18] | Redjel A,Boudjahem A G,Bettahar M.Effect of Palladium Precursor and Preparation Method on the Catalytic Performance of Pd/SiO2 Catalysts for Benzene Hydrogenation[J]. Part Sci Technol,(2017)DOI:10.1080/02726351.2017.1295294. | [19] | YU Mengjiao,WANG Yumian,HOU Xingang.Preparation of Copper Nanoparticles by Chemical Reduction with Hydrazine Under Ultrasonic Action[J]. Powder Metall Ind,2007,17(6):22-26(in Chinese). 于梦娇,王玉棉,侯新刚. 超声条件下水合肼还原制备纳米铜粉[J]. 粉末冶金工业,2007,17(6):22-26. | [20] | Long Q P,Sohn J H,Ji H P,et al. Comparative Study on the Preparation of Conductive Copper Pastes with Copper Nanoparticles Prepared by Electron Beam Irradiation and Chemical Reduction[J]. Radiat Phys Chem,2011,80(5):638-642. | [21] | Tan Y W,Li Y F,Zhu D B.Preparation of Silver Nanocrystals in the Presence of Aniline[J]. J Colloid Interface Sci,2003,258(2):244-251. | [22] | Wang X Y,Yin S Y,Zhang K L,et al. Preparation and Characteristic of Spherical Li3V2(PO4)3[J]. Alloys Compd,2009,486(1/2):L5-L7. | [23] | LI Lei,YI Qingfen.Hydrothermal Synthesis and Electro-Activity of Titanium-Supported Silver Electrodes[J]. Chinese Rare Met,2010,34(1):70-74(in Chinese). 李磊,易清风. 钛基银电极的水热法制备与电活性[J]. 稀有金属,2010,34(1):70-74. | [24] | Lu F,Meng F M,Wang L N,et al. Controlled Synthesis and Optical Properties of CeO2, Nanoparticles by a N2H4·H2O Assisted Hydrothermal Method[J]. IET Micro Nano Lett,2012,7(7):624-627. | [25] | Meng F M,Bo Q H,Zhang C,et al. Microstructure and Optical Characteristics of Rod-Like Nanoscale CeO2 Synthesized by Hydrothermal Method[J]. Nanosci Nanotechnol,2013,13(10):6653-6659. | [26] | Usman M S,Ibrahim N A,Shameli K,et al. Copper Nanoparticles Mediated by Chitosan:Synthesis and Characterization via Chemical Methods[J]. Molecules,2012,17(12):14928. | [27] | Boltoeva M Y,Trefilova A V,Anan'Ev A V. Catalytic Reduction of U(Ⅵ) with Hydrazine on Palladium Catalysts in Acid Solutions[J]. Radiochemistry,2008,50(1):38-45. | [28] | Tyumentsev M S,Zubavichus Y V,Shiryaev A A,et al. Catalytic Reduction of U(Ⅵ) in H2SO4, Solutions with Hydrazine and Formic Acid in the Presence of Bimetallic Platinum-Ruthenium Catalysts[J]. Radiochemistry,2014,56(2):150-155. | [29] | Xia L S,Hu S S,He H,et al. Research of Thermodynamic and Kinetics in Preparing U(Ⅳ) by Reducing and Catalyzing U(Ⅵ) with Hydrazine[J]. Radiochim Acta,2015,103(6):423-432. | [30] | Wei Y Z,Fang B,Arai T,et al. Electrochemical Reduction of Uranium(Ⅵ) in Nitric Acid-Hydrazine Solution on Glassy Carbon Electrode[J]. Radioanal Nucl Chem,2004,262(2):409-415. | [31] | Mishra S,Sini K,Rao C J,et al. Electrochemical Studies on the Reduction of Uranyl Ions in Nitric Acid-Hydrazine Media[J]. Electroanal Chem,2016,776:127-133. | [32] | Kulyako Y M,Perevalov S A,Trofimov T I,et al. Preparation of Uranium Oxides in Nitric Acid Solutions by the Reaction of Uranyl Nitrate with Hydrazine Hydrate[J]. Radiochemistry,2013,55(6):567-573. | [33] | Kulyako Y M,Trofimov T I,Perevalov S A,et al. Preparation of Uranium Oxides by Reductive Denitration of Uranyl Nitrate under Microwave Heating[J]. Radiochemistry,2015,57(3):251-254. | [34] | YANG He,ZHANG Hu,LI Li,et al.Separation Np from Pu Based on Reduction-Stripping by Using Hydrazine Nitrate as Reductant[J].Nucl Tech,2016,39(9):090301-1-090301-8(in Chinese). 杨贺,张虎,李丽,等. 硝酸肼还原反萃取分离镎/钚的研究[J]. 核技术,2016,39(9):090301-1- 090301-8. | [35] | CHENG Zhongping.Theoretical Study on the Mechanisms of Np(Ⅵ) Reduction with Hydrazine[D]. East China University Technol,2016(in Chinese). 程仲平. 理论研究肼还原Np(Ⅵ)的机理[D]. 东华理工大学,2016. | [36] | Anan'ev A V,Boltoeva M Y,Tyumentsev M S,et al. Catalytic Reduction of Np(Ⅴ) with Hydrazine in Nitric Acid Solutions in the Presence of Ruthenium Catalysts[J]. Radiochemistry,2013,55(1):52-58. | [37] | Tyumentsev M S,Anan'Ev A V,Shiryaev A A,et al. Synergistic Effect in Heterogeneously Catalyzed Reduction of U(Ⅵ) and Np(Ⅴ) and Decomposition of Hydrazine and Oxalic Acid with Bimetallic Pt-Ru Catalysts[J]. Doklady Phys Chem,2013,450(2):142-145. | [38] | WANG Xiaojun,HE Hua,WANG Xiaofang,et al. Study on the Recovery of Resource from Spent Etching Solution[J]. Environ Eng,2004,22(2):75-77(in Chinese). 汪晓军,何花,万小芳,等. 从废蚀刻液中回收资源的应用研究[J]. 环境工程,2004,22(2):75-77. | [39] | LUO Xiaohu,CHEN Shirong,YANG Qiong,et al. Preparation of Highly Pure Copper Nanoparticles from Spent Alkaline PCB Etching Solution[J]. Electroplat Finish,2013,32(4):38-42(in Chinese). 罗小虎,陈世荣,杨琼,等. 利用PCB碱性蚀刻废液制备高纯度纳米铜粉[J]. 电镀与涂饰,2013,32(4):38-42. | [40] | LI Qian,HU Long,YANG Yongbin,et al. Research on Recovery of Palladium from Spent Catalyst[J]. Hydrometall China,2017,36(1):41-45(in Chinese). 李骞,胡龙,杨永斌,等. 从失效催化剂中回收钯的试验研究[J]. 湿法冶金,2017,36(1):41-45. | [41] | LI Qian,TIAN Yanwen,ZHENG Chenyu,et al. Thermodynamic Analysis and Experimental Study of Arsenic Recovery from Bio-Oxidation Gold Extraction[J]. Environ Chem,2011,30(4):851-855(in Chinese). 李倩,田彦文,郑春宇,等. 从生物氧化提金废液中回收砷的热力学分析及试验[J]. 环境化学,2011,30(4):851-855. | [42] | Gould E S.Reductions of Carboxylate-Bound Chromium(Ⅴ)[J]. Acc Chem Res,2002,19(3):66-72. | [43] | Wang T G,Xu H B.Reduction of Cr(Ⅵ) by Hydrazine in Solution Saturated with KHCO3[J]. Hazard Mater,2005,123(1/2/3):176-180. | [44] | Gibson C P,Putzer K J.Synthesis and Characterization of Anisometric Cobalt Nanoclusters[J]. Science,1995,267(5202):1338-1340. | [45] | Yuan M,Mitzi D B.Solvent Properties of Hydrazine in the Preparation of Metal Chalcogenide Bulk Materials and Films[J]. Dalton Trans,2009,31(31):6078-6088. | [46] | Yasodhai S,Sivakumar T,Govindarajan S.Preparation, Characterisation and Thermal Reactivity of Transition Metal Complexes of Hydrazine with Citric Acid[J]. Thermochim Acta,1999,338(1/2):57-65. | [47] | Mezyk S P,Tateishi M,Macfarlane R,et al. pKa of the Hydrazinium Ion and the Reaction of Hydrogen Atoms with Hydrazine in Aqueous Solution[J]. J Chem Soc Faraday Trans,1996,92(14):2541-2545. | [48] | ZHANG Jun,XIE Li,XIA Wensheng,et al. Theoretical Study of Hydrazine Decomposition Mechanism on Metal Surfaces[J]. Chem J Chinese Univ,2008,29(10):2035-2039(in Chinese). 张俊,谢励,夏文生,等. 肼在金属表面上分解机理的理论研究[J]. 高等学校化学学报,2008,29(10):2035-2039. | [49] | Neta P,Maruthamuthu P,Carton P M,et al. Formation and Reactivity of the Amino Radical[J]. Phys Chem,1978,82(17):3733-3741. | [50] | Achibana A,Fuju M.A Simple Algorithm for Conservation of Invariants of Motion in Reaction Dynamics Calculations:Application to the N<inline-formula><mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" id="Mml10-1000-0518-35-7-756"><mml:msubsup><mml:mrow><mml:mi mathvariant="normal">H</mml:mi></mml:mrow><mml:mrow><mml:mn>3</mml:mn></mml:mrow><mml:mrow><mml:mo>+</mml:mo></mml:mrow></mml:msubsup></mml:math></inline-formula>+NH3 System[J]. Chem Phys,1999,110(5):2323-2331. | [51] | Kobayashi Y,Tajima N,Hirao K.A Theoretical Study on the Reaction Mechanism of the Gas-Phase Decomposition of NO by NH3+ and H4+[J]. J Phys Chem A,2000,104(29):6855-6860. | [52] | lvarez-Barcia S,Russ M S,Meisner J,et al. Atom Tunnelling in the Reaction N3+ +H2+→NH4+ + H and Its Astrochemical Relevance[J]. Faraday Discuss,2016,195:69-80. | [53] | Coutinho-Neto M,Deumens E,Öhrn Y.Abstraction and Exchange Mechanisms for the D2+N3+ Reaction at Hypothermal Collision Energies[J]. Chem Phys,2002,116(7):2794-2802. |
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