【正文】 telier39。球?qū)ΨQ性中原子軌道的特征標The formula to calculate the characters c of a reducible representation from the atomic orbitals on the central atom in spherical symmetry is. The characters obtained by the equation for atomic orbitals from s to h are listed in the following table. Table. Characters obtained from equation 1 for atomic orbitals from s to h0p2p/3p/2lrepresentionc(E)c(C2)c(C3)c(C4)0s11111p31012d51113f71114g91015h11111第四節(jié) 位置對稱性與雜化軌道精講文獻[66] R. L. Flurry, Jr., Site Symmetry and Hybridized Orbitals, JOURNAL OF CHEMICAL EDUCATION, Volume 53. Number 9, September 1976:554經(jīng)典文獻。第二節(jié) 尖晶石與反式尖晶石的穩(wěn)定性精講文獻[62] 周公度，無機結(jié)構(gòu)化學(xué)，科學(xué)出版社，1982:357358[63] F. Albert Cotton，Ligand Field Theory，Journal of Chemical Education, Volume 41, Number 9, September 1964:466[64] Jack L. Lambert，Spinel Models for Demonstrating Crystal Field Stabilization，Journal of Chemical Education, Volume 41, Number I, January 1964:41尖晶石與反式尖晶石的穩(wěn)定性。第一節(jié) 節(jié)面與原子核位置精講文獻[61] “Where Should the Nuclei Be Located”Ying Liu, Yue Liu，Michael G. B. Drew, Journal of Chemical Education , 2005, 82 (2), 320322我們在美國化學(xué)教育上發(fā)表的關(guān)于節(jié)面、原子核位置的教學(xué)論文。 Drew, Mike G. B.。 ChengBin Che, Hui Zhang, Xiang Zhang, Yue Liu, Bo Liu, The Journal of Physical Chemistry A，2003, 107(16)，29292933[58]“The crucial importance of agostic interactions in intermediates formed in propylene polymerization using neutral salicyladiminato palladium(II) and nickel plexes as catalysts”, Yue Liu, Michael . Drew, Ying Liu， Journal of Molecular Structure: THEOCHEM, 2007, 821, 30–41 [59]“A DFT study of propylene polymerization using neutral salicyladiminato nickel(II) and palladium(II) as catalysts”, Ying Liu, Milin Zhanga Michael . Drew, ZhaoDi Yang, Yue Liu, Journal of Molecular Structure: THEOCHEM , 2005,726, 277–283. [60] “Thermal Irreversibility Study on the Electrocyclic Reaction of Diaryl Maleic Anhydrides by Density Functional Calculations”, Yue Liu, Qi Wang, Ying Liu, Xiaozhen Yang, Chemical Physics Letters, 2003，373(34), 338343.自學(xué)文獻[19] “Design and Theoretical Study of Nickel Catalysts for syndiotactic Polylefins”, LIU, Ying。 George, Thomas F. BCS primer: A guide to putational methods in superconductivity theory, A concise survey of the important ideas of the BardeenCooperSchrieffer (BCS) theory of superconductivity. Journal of Chemical Education, Volume 67 Number 9 September 1990:738[47] Matsen, F. A. Three theories of superconductivity, The London, BCS, and the suddenpolarization theories. Journal of Chemical Education, Volume 64 Number 10 October 1987:842超導(dǎo)體的三種理論[48] Frederick H. J,Juergens, Arthur B. Ellis, Gunther H. Dieckrnann, Ronald I. Perkins. Levitating a Magnet Using a Superconductive Material, Journal of Chemical Education, Volume 64 Number 10 October 1987:851 [49] Anthony L. Jacob, Charles 1. Pechmarm, and Arthur 6. Ellis, A DoubleDecker Levitation Experiment Using a Sandwich of Superconductors, Journal of Chemical Education,Volume 65 Number 12 December 1988:1094[50] J. McHale, R. Schaeffer, and R. E. Salornon，Demonstrating high temperature superconductivity in the chemistry lab through the Meissner effect，Journal of Chemical Education,Volume 69 Number 12 December 1992:1031自學(xué)文獻[18] Peter I. Djurovich， Richard J. watts，A Simple and Reliable Chemical Preparationof YBa2Cu3O7x Superconducors, Journal of Chemical Education,Volume 70 Number 6 June 1993:497 超導(dǎo)體的制備第六節(jié)Ferrofluid 磁流體[51] Patricia Berger, Nicholas B. Adelman, Katie J. Beckman, Dean J. Campbell, Arthur B. Ellis, George C. Lisensky, Preparation and Properties of an Aqueous Ferrofluid, Journal of Chemical Education, Vol. 76 No. 7 July 1999:943[52] Kerro Knox, Ferrimagnetism, Journal of Chemical Education,Volume 66 Number 4 April 1989:337第七節(jié)Chemiluminescence 化學(xué)發(fā)光[53] Economou, D. Papargyris, and J. Stratis, Automated FlowInjection Instrument for Chemiluminescence Detection Using a LowCost Photodiode Detector, Journal of Chemical Education, Vol. 81 No. 3 March 2004, 406[54] WILLIAM GEORGE LEEDY, The Phenomena of Chemiluminescence, Journal of Chemical Education, 1944:142[55] Harry D. Gafney, Arthur W. Adamson, Chemiluminescence, Journal of Chemical Education, Volume 52, Number 7. July 1975:480第五章 化學(xué)研究結(jié)合我們的工作，講授光致變色材料、熱致變色材料、催化聚合材料。 Draeger, J. A The kinetics of oscillating reactions: Laboratory experiment for physical chemistry , Journal of Chemical Education, Volume 69 Number 7 July 1992:596 This experiment presents chemical dynamic relationships and promotes the use of puters for analysis. (振蕩反應(yīng)可以用偏微分方程的類周期解來模擬)自學(xué)文獻[16] John A. Pojman and William W. West, A Unified Physical Chemistry Laboratory Based on Oscillating Reactions and Traveling Fronts，Journal of Chemical Education, January, 1996, Vol. 73 No. 1:35第三節(jié)Blue Bottle 藍瓶反應(yīng)[39] J. A. Campbell, KineticsEarly and Often, Journal of Chemical Education, Volume 40, Number 11, November 1963:579[40] A. Gilbert Cook, Randi l ive, Janelle E. Williarns, The Blue Bottle Experiment Revisited, Journal of Chemical Education, 1994, Vol. 71 No. 2:160[41] Walter R. Vandaveer, et al. The Blue Bottle Revisited, Journal of Chemical Education, Vol. 74 No. 4 April 1997: 402[42] Whitney E. Wellman, Mark E. Noble, Tom Healy, Greening the Blue Bottle, Journal of Chemical Education, Vol. 80 No. 5 May 2003:537第四節(jié)Memory Metal 記憶反應(yīng)精講文獻[43] Gisser, Kathleen R. C. et al Memory Metal: A Smart Material Exhibiting a SolidState Phase Change and Superelasticity, Journal of Chemical Education, January, Volume 71 Number 4 April 1994:335Several simple experiments that illustrate the shapememory, mechanical, and acoustical properties of Nitinol. (馬氏體與奧氏體)[44] JCE Editorial Staff，Memory Metal， Journal of Chemical Education， Vol. 82 No. 10 October 2005：1488AIn this Activity, students investigate the properties of wire made from nitin