Reprints (Peer-refereed journal papers):
(143) Weihua Geng and G.W. Wei, Multiscale macro-micro dynamics for macromolecules (40 pages), (2009).
(142) Changjun Chen, RishuSaxena, and Guo-Wei Wei, Differentialgeometry based multiscale model for virus capsid dynamics, submitted (2009).
(141) Guo-Wei, Wei, Differential geometry based multiscale models (46 pages), submitted (2009).
(140) Sigal Gottlieb, Guo-Wei Wei, andShan Zhao, A unified discontinuous Galerkin framework forthe solution of ordinary differential equations (23 pages), (2009)
(139) Duan Chen and Guo-Wei Wei, Modeling and simulation of nano-electronicdevices (44 pages), submitted (2009).
(138) Duan Chen, Zhan Chen, Changjun Chen, Weihua Geng and Guo-Wei Wei, MIBPB: Asoftware package for electrostatic analysis (35 pages), submitted (2009).
(137) C.H.W. Ng, Y.B.Zhao, Y. Xiang and G.W. Wei, On the accuracy and stability of a few differential quadrature formulations for the vibration analysis of beams, Int. J. Engng. Applied Sci. 1 (4), 1-25 (2009).
(136) G.W. Wei and G. Wang, Editoral: Special issue on recent advances in computational techniquesfor biomedical imaging, Commun. Numer.Methods Engng, 25, 581-582 (2009)
(135) P. Bates, Z. Chen, Y.H. Sun, G.W. Wei and S. Zhao, Geometric and potentialdriving formation and evolution of biomolecular surfaces, J. Math. Biol.59, 193-231 (2009)
(134) Shan Zhao and G.W. Wei, Matched interface andboundary (MIB) for the implementation of boundary conditions in high ordercentral finite differences, Int. J. Numer. Meth. Engng. 77, 1690-1730 (2009)
(133) Duan Chen, G.W. Wei, X. Cong and Ge Wang, Computational methods foroptical molecular imaging, Commun. Numer. Methods Engng, (2008).
(132) S.N. Yu, Y. Xiang and G.W. Wei, Matched interface andboundary (MIB) method for the vibration analysis of plates, Commun. Numer.Methods Engng, 25, 923-950 (2009).
(131) S.N. Yu and G.W. Wei, Three dimensional matchedinterface and boundary (MIB) method for geometric singularities, J. Comput.Phys. 227, 602-632 (2007).
(130) W.H. Geng, S.N. Yu and G.W. Wei, Treatment of chargesingularities in implicit solvent models, J. Chem. Phys., 127, 114106 (20 pages) (2007). Also available at the Virtual Journalof Biological Physics Research October1, 2007
(129) P. Bates, G.W. Wei and S. Zhao, Minimal molecular surfaces and their applications, J. Comput. Chem., 29, 380-391(2008).
(128) S. N. Yu, W. H. Geng and G.W. Wei, Treatment of geometricsingularities in implicit solvent models, J. Chem. Phys., 126, 244108 (13pages) (2007). Also available at the Virtual Journal of BiologicalPhysics Research July 1, 2007.
(127) Y.C. Zhou,M. Feig and G.W. Wei, Highly accuratebiomolecular electrostatics in continuum dielectric environments, J. Comput. Chem. 29, 87-97 (2008).
(126) G.W. Wei and S. Zhao, On the validity of ``A proof that the discrete singular convolution (DSC)/Langrange-distributed approximation function (LDAF) method is inferior to high order finite differences '', J. Comput.Phys., 226, 2389-2392 (2007).
(125) S. N. Yu, Y. C. Zhou and G. W. Wei, Matched interface and boundary (MIB) method for elliptic problems with sharp-edged interfaces,J. Comput. Phys. 224, 729-756 (2007).
(124) G.W. Wei, Editoral: Recentadvances in mathematical methods for the analysis of biomedical image,International Journal of Biomedical Imaging, vol. 2006, 70578, 1, (2006).
(123) S.F. Shieh, Y.Q. Wang , G.W. Wei and C.-H.Lai, Mathematical analysis of the wavelet method of chaos control, J. Math. Phys., 47,082701 (2006).
(122) Y.C. Zhou and G.W. Wei, Onthe fictitious-domain and interpolation formulations of the matched interface and boundary (MIB) method, J. Comput. Phys. 219, 228-246 (2006).
(121) Ge Wang, HaiouShen Wenxiang Cong, Shan Zhao and G.W. Wei, Temperature modulated bioluminescence tomography,Optics Express, 14 (17) 7852-7871 (2006).
(120) L. Zhang,Y. Xiang and G.W. Wei, Local adaptive differential quadrature for free vibration analysis of cylindrical shells with various boundary conditions, International Journal of MechanicalSciences, 48, 1126-1138 (2006).
(119) Y.H. Sun, P.R. Wu, G.W. Wei and G. Wang, Evolution operator based single-step method for image processing, Int. J. Biomed. Imaging, 83847, 1-27 (2006).
(118) Y.H. Sun, Y.C. Zhou, S. G. Li and G.W. Wei, A windowed Fourier spectral scheme for hyperbolic conservation laws, J. Comput. Phys. , 214,466-490 (2006).
(117) Y.C. Zhou, S. Zhao, M. Feig and G. W. Wei, High order matched interface and boundary(MIB) schemes for elliptic equations with discontinuous coefficients and singular sources, J. Comput. Phys. , 213, 1-30, (2006).
(116) C.W. Lim, Z.R.Li, Y. Xiang, G.W. Wei and C.M. Wang, On the missing modes when using the exact frequency relationship between Kirchhoff and Mindlin plates, Advances in Vibration Engineering, 4,221-248, (2005).
(115) Y.-C. Lai, Z. Liu, G.-W. Wei, C. H. Lai, Reply to ``Commenton `Shadowability of statistical averages in chaotic systems''', Physical Review Letters, 94, 219403 (2005).
(114) S.G. Guan, C.H.Lai and G.W. Wei, Phasesynchronization between two essentially different chaotic systems, Phys. Rev. E , 72, 016205 (2005).
(113) S.G. Guan, C.H.Lai and G.W. Wei, Bistable chaos without symmetry in generalizedsynchronization, Phys. Rev. E , 71, 036209 (2005).
(112) S.N. Yu, S. Zhao and G.W. Wei, Local spectral time splitting method for first and secondorder partial differential equations, J. Comput. Phys., 206, 727-780(2005).
(111) S. Zhao, G.W. Wei and Y. Xiang, DSC analysis offree-edged beams by an iterativelymatched boundary method, J. SoundVibr., 284, 487-493 (2005).
(110) S. Zhao and G.W. Wei, Optionvaluation by using discrete singular convolution, Appl. Math. Comput., 167, 383-418 (2005).
(109) C.W. Lim, Z.R. Li and G.W. Wei, DSC-Ritz method for the high frequency mode analysis ofthick shallow shells, Int. J. Numer. Meth. Engng., 62, 205-232 (2005).
(108) Y.S. Hou, G.W. Wei and Y. Xiang, DSC-Ritz method for the vibration analysis of Mindlinplates, Int. J. Numer. Meth. Engng., 62, 262-288 (2005).
(107) S. Zhao and G.W. Wei, Tensorproduct derivative matching for wave propagation in inhomogeneous media,Microwave Optical Techn. Lett., 43(1),69-77 (2004).
(106) S. Guan, G.W. Wei and C.H. Lai, Controllability of flow turbulence, Phys. Rev. E, 69, 066214 (2004).
(105) S. Zhao and G.W. Wei, Highorder FDTD methods via derivative matching for Maxwell's equations withmaterial interfaces, J. Comput. Phys., 200, 60-103, (2004).
(104) C.H.W. Ng, Y.B. Zhao and G.W. Wei, Comparison of the DSC and GDQ methods for the vibrationanalysis of plates, Comput. MethodsAppl. Mech. Engng., 193, 2483-2506 (2004).
(103) G. Bao, G.W. Wei, and S. Zhao, Numericalsolution of the Helmholtz equation with high wave numbers, Int. J. Numer. Meth. Engng., 59, 389-408 (2004).
(102) Y. Xiang and G.W. Wei, Exactsolution for buckling and vibration of stepped rectangular Mindlin plates, Int. J. Solid Struct. , 41, 279-294 (2004).
(101) M. Zhan, X. Wang, X. Gong, G.W. Wei, and C.-H. Lai, Completesynchronization and generalized synchronization of one -way coupledtime-delayed systems, Phys. Rev. E, 68, 036208 (2003).
(100) S. Guan, C.-H. Lai and G.W. Wei, A new wavelet method for characterizing turbulence, Comput. Phys. Commun. 155, 77-91 (2003).
(99) Ying Wang, Y.B. Zhao and G.W. Wei, A note on the numerical solution of high-orderdifferential equations, J. Comput.Appl. Math., 159, 387-398 (2003).
(98) W.Z. Bao, F.F. Sun and G.W. Wei, Numericalmethods for the generalized Zakharov system, J. Comput. Phys., 190, 201-228(2003).
(97) Z.H. Shao , G.W.Wei and S. Zhao, DSC time-domainsolution of Maxwell's equations, J. Comput. Phys., 189, 427-453 (2003).
(96) Y.C. Zhou and G.W. Wei, High-resolutionconjugate filters for the simulation of flows, J. Comput. Phys., 189, 150-179 (2003).
(95) S. Zhao and G.W. Wei, Comparisonof the discrete singular convolution and three other numerical schemes forFisher's equation, SIAM J. Sci. Comput.,25, 127-147 (2003).
(94) G. Bao, G.W. Weiand S. Zhao, Local spectral time-domain method forelectromagnetic wave propagation, Optics Letters, 28, 513-515 (2003).
(93) Z. H. Shao, Z. Shen, Q. He and G.W. Wei, A generalized higher-order finite difference time domainmethod and its application in guided-wave problems, IEEE T. MicrowaveTheory Tech., 51, 856-861 (2003).
(92) Y.C. Zhou, Y. Guand G.W. Wei, Shock-capturing with natural highfrequency oscillations, Int. J. Numer. Methods in Fluid, 41, 1319-1338 (2003).
(91) Y. Gu, Y.C. Zhouand G.W. Wei, Conjugate filters with spectral-like resolutionfor 2D incompressible flows, Computers and Fluids, 33, 777-794 (2003).
(90) S. Guan, Y.C. Zhou, G.W. Wei and C.-H. Lai, Controlling flowturbulence, Chaos, 13, 64-70 (2003).
(89) S. Guan, C.-H. Lai and G.W. Wei, On geometry and boundarycontrol of pattern formation and competition, Physica D, 176, 19-43 (2003).
(88) Y. Gu and G.W.Wei, Conjugatedfilter approach for shock capturing, Commun. Numer. Meth. Engng., 19, 99-110 (2003).
(87) Y.C. Zhou, B. S. V. Patnaik, D.C. Wan and G. W. Wei, DSC solution for flow in a staggered double lid drivencavity, Int. J. Numer. Methods in Engng. ,57, 211-234 (2003).
(86) S. Zhao and G.W. Wei, Jump process analysis for the trend estimationof time series, Comput. Statist.Data Anal., 42, 219-241 (2003).
(85) G.W. Wei, M. Zhan, and C.-H. Lai, Tailoring wavelets for chaos control, Phys. Rev. Lett.89, 284103 (2002). This work was highlighted in Physical Review Letters andfeatured in Nature.
(84) G. W. Weiand Y. Q. Jia, Synchronization basedimage edge detection, Europhys. Lett.59, 814-819 (2002).
(83) Y.-C. Lai, Z.H. Liu, G.W. Wei, and C.-H. Lai, Shadowing of statistical averages in chaotic systems, Phys. Rev. Lett . 89, 184101 (2002).
(82) M. Zhan, G.W. Wei, C.-H. Lai, Y.-C. Lai and Z.H. Liu, Coherent resonancenear Hopf bifurcation from chaos, Phys. Rev. E 66, 036201 (2002).
(81) G.W. Wei, and Y.Gu, Conjugated filter approach for solving Burger'sequation, J. Comput. Appl. Math., 149, 439-456 (2002).
(80) Y. Xiang, Y.B.Zhao and G.W. Wei, Closed form solutions for vibration of multi-spanrectangular plates, Int. J. Mech. Sci. , 44, 1195-1218(2002).
(79) D.C. Wan, B.S.V. Patnaik and G.W. Wei, Discrete singularconvolution-finite subdomain method forthe solution of incompressible viscous flows, J. Comput. Phys. 180, 229-255 (2002).
(78) Y. Xiang and G.W. Wei, Exact solutions for the vibration of multi-spanrectangular Mindlin plates, Journal of Vibration and Acoustics, Trans.ASME, 124, 545-551 (2002).
(77) G.W. Wei, Oscillation reduction by anisotropic diffusions,Comput. Phys. Commun. , 144 , 417-342 (2002).
(76) G.W. Wei, Y.B. Zhao, and Y. Xiang, A novelapproach for the analysis of high frequency vibrations, J. Sound and Vibration , 257, 207-246 (2002).
(75) Y.B. Zhao and G.W. Wei, DSC analysis rectangular plates with nonuniformboundary conditions, J. Sound and Vibration, 255, 203-225 (2002).
(74) G.W. Wei and S. Zhao, Synchronization and information processing byan on-off coupling, Phys. Rev. E, 65, 056210 (2002).
(73) Y. Xiang, Y.B.Zhao and G.W. Wei, Discrete singular convolution and its application to theanalysis of plates with internal supports. II Complex supports, Int.J. Numer. Methods Engng. , 55, 947-971(2002).
(72) G.W. Wei, Y.B. Zhao and Y. Xiang, Discrete singular convolution and itsapplication to the analysis of plates with internal supports, I Theory and algorithm, Int. J. Numer. Methods Engng. , 55, 913-946 (2002).
(71) B.F. Feng andG.W. Wei, Acomparison of the spectral and the discrete singular convolution schemes forthe KdV-type equations, J. Comput. Appl. Math. , 145,183-188 (2002).
(70) Z.J. Hou and G.W. Wei, A new approach for edge detection, PatternRecognition, 35(7) , 1559-1570 (2002).
(69) B. S. V. Patnaik and G.W. Wei, Controllingwake turbulence [Phys. Rev. Lett. 88, 054502 (2002)], Phys. Rev. Lett., 88, 127901 (2002).
(68) Y.B. Zhao, G.W. Wei, and Y. Xiang, Platevibration under irregular internal supports, Int. J. Solids and Structures, 39, 1361-1383(2002).
(67) S. Guan, C.-H. Lai and G.W. Wei, A wavelet method for thecharacterization of spatiotemporal patterns, Physica D , 163 , 49-79(2002).
(66) D.C. Wan, Y.C. Zhou and G.W. Wei, Numerical solution of incompressible flows by the discretesingular convolution, Int. J. Numer.Methods Fluid, 38 ,789-810 (2002).
(65) M. Zhan, G.W. Wei and C.-H. Lai, Transitionfrom intermittence to periodicity in lag synchronization in coupled Rossleroscillators, Phys. Rev. E , 65, 036202 (2002).
(64) S. Y. Yang, Y. C. Zhou and G.W. Wei, Comparison of the discrete singular convolution algorithmand the Fourier pseudospectral methods for solving partial differentialequations, Comput. Phys. Commun. , 143 , 113-135 (2002).
(63) B. S. V. Patnaik, and G.W. Wei, Controllingwake turbulence, Phys. Rev. Lett. , 88 , 054502 (2002). This work was featuredin Physical Review Focus and Wissenschat-online.
(62) Y.B. Zhao, G.W. Wei, and Y. Xiang, Discrete singular convolution for the prediction of highfrequency vibration of plates, Int. J. Solids and Struct., 39, 65-88(2002).
(61) G.W. Wei, H. Wang, D.J. Kouri, M. Papadakis, I.A.Kakadiaris, and D.K. Hoffman, On the mathematical properties of distributedapproximating functionals, J. Math. Chem., 30 , 83-107 (2001).
(60) Z. Shi, G.W. Wei, D.J. Kouri, D.K. Hoffman, Z. Bao, Lagrange waveletsfor signal processing, IEEE T. Image Processing, 10 , 1488-1508 (2001).
(59) D.C. Wan, B.S.V. Patnaik and G.W. Wei, A new benchmark qualitysolution for the buoyancy driven cavity by discrete singular convolution,Numer. Heat Transfer B - Fundamentals ,40 , 199-228 (2001).
(58) G.W. Wei, Y.B. Zhao and Y. Xiang, The determination of the natural frequencies ofrectangular plates with mixed boundary conditions by discrete singular convolution, Int. J. Mech. Sci. , 43 ,1731-1746 (2001).
(57) S. Guan, C.-H. Lai and G.W. Wei, Fourier-Besselanalysis of patterns in a circular domain, Physica D , 151 , 83-98 (2001).
(56) G.W. Wei, Discrete singular convolution for beam analysis,Engineering Structures , 23 , 1045-1053 (2001).
(55) G.W. Wei, Vibration analysis by discrete singular convolution, J. Sound Vibration , 244 , 535-553 (2001).
(54) G.W. Wei, Synchronization ofsingle-side locally averaged adaptive coupling and its application to shock capturing,Phys. Rev. Lett. , 86 , 3542-3545 (2001).
(53) G.W. Wei, A new algorithm forsolving some mechanical problems, Comput. Methods Appl. Mech. Engng.,190, 2017-2030 (2001).
(52) D.C. Wan and G.W. Wei, Thestudy of quasi wavelets based numerical method applied to Burgers' equations,Appl. Math. Mech-Engl , 21 , 1099-1110 (2000).
(51) D.C. Wan and G.W. Wei, Numericalsolution of incompressible Euler and Navier-Stokes equations by efficientdiscrete singular convolution method, Acta Mechanica Sinica, 16 , 223-239(2000).
(50) G.W. Wei, Wavelets generated by using discrete singular convolutionkernels, J. Phys. A, Mathematicaland General, 33 , 8577-8596 (2000).
(49) G.W. Wei, A unified approach for the solution of theFokker-Planck equation, J. Phys. A, Mathematical and General , 33 ,4935-4953 (2000).
(48) G.W. Wei, Solving quantum eigenvalue problems by discrete singularconvolution, J. Phys. B , 33 , 343-352 (2000).
(47) G.W. Wei, Discrete singular convolution for the sine-Gordon equation, Physica D, 137 , 247-259 (2000).
(46) D. K. Hoffman, G. W. Wei, and D. J. Kouri, A variation approachto the Dirichlet--Gabor wavelet-distributed approximating functional, J.Math. Chem., 25, 235-244 (1999).
(45) D.S. Zhang, G.W. Wei, D.J.Kouri, David K. Hoffman,Michael Gorman, Antonio Palacios, and Gemunu H. Gunaratne, Integrating theKuramoto-Sivashinsky equation in polar coordinates: Application of thedistributed approximating functional approach, Phys. Rev. E., 60 ,3353-3360 (1999).
(44) Zhuoer Shi,D.J. Kouri, G.W. Wei, and David K.Hoffman, Generalized symmetric interpolating wavelets,Comput. Phys. Commun., 119, 194-218 (1999).
(43) D.J. Kouri, D.S.Zhang, G.W. Wei, and D.K. Hoffman, Numerical solutionsof nonlinear wave equations , Phys. Rev. , E 59 , 1274-1277 (1999).
(42) G.W. Wei, Generalized Perona-Malik equation for Image Restoration, IEEE Signal Processing Lett., 6, 165-167 (1999).
(41) G.W. Wei, Discrete singular convolution for the solution of theFokker-Planck equations, J. Chem.Phys. , 110 , 8930-8942 (1999).
(40) G.W. Wei, Generalized reaction-diffusion equations, Chem. Phys. Lett . , 303, 531-536 (1999).
(39) S. Alavi, G.W.Wei and R.F. Snider, Chain relations of reduced distribution functions andtheir associated correlation functions, J. Chem. Phys., 108 , 706-714 (1998).
(38) D.S. Zhang, G.W. Wei, D.J. Kouri and D.K. Hoffman, Lagrange distributedapproximating functional method for the solution of the Schrodinger equation, Chem. Phys. Lett. , 284 , 56-62 (1998).
(37) D.K. Hoffman, G.W. Wei, D.S. Zhang, and D.J. Kouri, Interpolating distributed approximating functionals,Phys. Rev. , E 57 , 6152-6160 (1998).
(36) D.K. Hoffman, G.W. Wei, and D.J. Kouri, Shannon-Gabor wavelet distributed approximating functional,Chem. Phys. Lett. , 287 , 119-124 (1998).
(35) G.W. Wei, D.S. Zhang, D.J. Kouri and D.K. Hoffman, Distributed approximating functional approach to Burgers'equation in one and two space dimensions, Comput. Phys. Commun. , 111 , 87-92 (1998).
(34) G.W. Wei, S. Althorpe, D.J. Kouri and D.K. Hoffman, Lagrange-distributedapproximating-functional approach to wave-packet propagation: Applicationto the time-independent wave-packetreactant-product decoupling method, Phys. Rev. A 57 (5) , 3309-3316 (1998).
(33) G.W. Wei, D.J. Kouri, and D.K.Hoffman, Wavelets and distributed approximating functionals,Comput. Phys. Commun. , 112, 1-6 (1998).
(32) G.W. Wei, D.S. Zhang, D.J.Kouri, and D.K. Hoffman, Wavelet-distributed approximating functional method forsolving the Navier-Stokes equation, Comput. Phys. Commun. ,115 , 18-24 (1998).
(31) G.W. Wei, D.S. Zhang, D.J. Kouriand D.K. Hoffman, A robust and reliable approach to nonlinear dynamicalproblems, Comput. Phys. Commun., 111, 93-109 (1998).
(30) G.W. Wei, Quasi wavelets and quasi interpolating wavelets, Chem. Phys. Lett., 296 , 215-222 (1998).
(29) G.W. Wei, S. Althorpe, D.J.Kouri and D.K. Hoffman, An application of distributed approximatingfunctional-wavelets to reactive scattering, J. Chem. Phys., 108, 7065-7069 (1998).
(28) G.W. Wei, D.S. Zhang,D.J. Kouri and D.K. Hoffman, Lagrange distributed approximating functionals,Phys. Rev. Lett. ,79 , 775-779 (1997).
(27) G.W. Wei, S. Alavi and R.F. Snider, Equal reaction rates for all recombinationpathways, J. Chem. Phys , 106 , 1463-1466 (1997).
(26) D.S. Zhang, G.W. Wei, D.J. Kouri and D.K. Hoffman, Distributed approximatingfunctional approach to the Fokker-Planck equation: Eigenfunction expansion, J. Chem. Phys. , 106 , 5216-5224 (1997).
(25) D.S. Zhang, G.W. Wei, D.J. Kouri and D.K. Hoffman, Burgers' equation with highReynolds number, Phys. Fluids , 9 , 1853-1855(1997).
(24) D.S. Zhang, G.W. Wei, D.J. Kouri and D.K. Hoffman, Numerical method for thenonlinear Fokker-Planck equation, Phys. Rev. E 56 , 1197-1206 (1997).
(23) G.W. Wei, D.S. Zhang, D.J. Kouri and D.K. Hoffman, Distributed approximatingfunctional approach to the Fokker-Planck equation: Time propagation, J.Chem. Phys., 107 , 3239-3246 (1997).
(22) J.G. Muga, G.W. Wei and R.F. Snider, Short-time behaviour of the quantum survivalprobability, Europhys. Lett., 35, 247-252 (1996).
(21) J.G. Muga, G.W. Wei and R.F. Snider, Survival probabilityfor the Yamaguchi potential, Ann. Phys. , 252 , 336-356 (1996).
(20) R.F. Snider, G.W. Wei and J.G. Muga, Moderately dense gasquantum kinetic theory: Transport coefficient expressions, J. Chem. Phys. ,105 , 3066-3078 (1996).
(19) R.F. Snider, G.W. Wei and J.G. Muga, Moderately dense gas quantum kinetic theory: Aspects ofpair correlations, J. Chem. Phys. , 105 , 3057-3065 (1996).
(18) G.W. Wei and R.F. Snider, Discrete basisrepresentation of Ursell operators, Phys. Rev. , E 54 , 2414-2418, (1996).
(17) G.W. Wei and R. F. Snider, Correlated stateevaluation of the second virialcoefficient, Phys. Rev. A , 52(4) , 2925-2936 (1995).
(16) G. Wei and R. F. Snider, A pictorial representation formultispin evolutions, Concepts in Magn. Reson. , 7(2) , 153-163 (1995).
(15) R. F. Kiefl, J. W. Schneider, A. McFarlane, K. Chow, T. L. Duty, T. L. Estle,B. Hitti, R. L.Lichti, E. J. Ansaldo,C. Schwab, P. W. Percival, G. Wei, S. Wlodek, K. Kojima, W. J. Romanow, J. P.McCauley, Jr, N. Coustel, J. E. Fischer, and A. B. Smith, III, Moleculardynamics of the Muonium-C60 radical insolid C60, Phys. Rev. Lett. , 68 , 2708-2712 (1992).
(14) R. F. Kiefl, J. W. Schneider, A. McFarlane, K. Chow, T.L. Duty, T. L. Estle, B. Hitti, R. L. Lichti, E. J. Ansaldo, C. Schwab, P. W.Percival, G. Wei, S. Wlodek, K. Kojima, W. J. Romanow, J. P. McCauley, Jr, N.Coustel, J. E. Fischer, and A. B. Smith, III, Molecular dynamics of the (Mu+)-C60 radical in solid C60, Phys. Rev. Lett. , 68, 1347-1350 (1992).
(13) F.L. Jiang, G.W. Wei, Z.Y.Huang, X.J. Lei, M.C. Hong, B.S.Kang and H.Q. Liu, Syntheses and crystalstructures of 2 thiolato-organophosphino cobalt(II) complexes, (Et4N)[Co(SC6H5)3(PPh3)]and [Co(S-meta- C6H4CH3)2(Ph2PCH2CH2P(Ph)CH2CH2PPh2)], J. Coord. Chem., 25, 183-191(1992).
(12) G.W. Wei, Z.Y. Huang, X.J. Lei, R. Cao, F.L. Jiang, M.C. Hong, L.R. Huang and H.Q. Liu, Structure of[Bis(2-diphenylphospinoethyl)phenylphospine-P, P, P]carbonyl-(phenylthiolato)Cobalt(I), [Co(Ph2PCH2CH2P(Ph)CH2CH2PPh2)(SPh)(CO)],ActaCrystallogr. C, 48, 2130-2132(1992).
(11) G. Wei, M. Hong, Z. Huang, andH. Liu, Synthesis and crystal structure of a platinum(II) complex with mixeddiphosphine and thiolate ligands,Pt(dppm)(SPh)_2, J. Struct. Chem., 11(5), 334-338 (1992).
(10) M.C. Hong, Z.Y. Huang, X.J. Lei,G.W. Wei, B.S. Kang and H.Q. Liu, Syntheses, properties and X-ray crystalstructures of hexa-nuclear cobalt chalcogen clusters Co6S8(PPh3)6 andCo6Se8(PPh3)6.THF, Polyhedron, 10, 927-934 (1991).
(9) F.L. Jiang, G.W. Wei, X.J. Lei,L.R. Huang, M.C. Hong and H.Q. Liu,Synthesis, characterization and polymorphic crystal structures ofBis(para-tolylthiolato)bis(tri-n-butylphosphine)-Nickel(II), J. Chem. Res. S, 9, 238-239 (1991).
(8) G.W. Wei, M.C. Hong, Z.Y. Huang, and H.Q. Liu,Stereochemistry of mixed thiolate andditertiary phosphine cobalt (II) complexes -- Crystal structures of[Co(Ph2P(CH2)3-PPh2)(SPh)2] and [Co(Ph2PCH2CH2P(Ph)CH2CH2PPh2)(SPh)2], J. Chem.Soc. Dalton, 11, 3145-3148 (1991).
(7) G.W. Wei, H.Q. Liu, Z.Y. Huang,M.C. Hong, L.R. Huang and B.S. Kang, Syntheses and stereochemistry of Dicobalt(II) complexes, [Co2(dppm)(mu-SR)2(SR)2] (dppm=Ph2PCH2PPh2 - R=C6H5, m-C6H4CH3,p-C6H4CH3 and p-C6H4-TC4H9) and [Co2(dppe)(mu-SPh)3(SPh)](dppe=Ph2PCH2CH2PPh2), Polyhedron, 10, 553-560 (1991).
(6) M. Hong, Z. Huang, X. Lei, G. Wei, B. Kang, and H. Liu, Acobalt-selenium cluster with triethylphophine: Preparation an structure ofCo6(v3-Se)8(PEt_3)_6.THF, Chin. J. Chem., (English), 9(5), 421-428(1991).
(5) G.W. Wei and H.Q. Liu, Structureof [1,2-Bis(diphenylphosphino)Ethane] -Di(phenylthio)Palladium(II), ActaCrystallogr. C, 46, 2457-2458 (1990).
(4) H.Q. Liu R. Cao, X.J. Liu D. Wu, G.W. Wei, Z.Y. Huang,M.C. Hong, and B.S. Kang, Syntheses and structural characterizations of aseries of Mo(W)-Cu-S compounds of bidentat dialkyldithiocarbamate ligands--Crystal structure of [NET4]2{Mo2Cu5S6O2(Me2NCS2)3], J. Chem. Soc. Dalton, 3, 1023-1026 (1990).
(3) M.C. Hong, Z.Y. Huang, X.J. Lei, G.W. Wei, B.S. Kang andH.Q. Liu, A new cobalt sulfur cluster with triphenylphosphine - Preparation andstructure of CO6S8(PPh3)6, Inorg. Chem. Acta, 159, 1-2 (1989).
(2) H. Liu, R. Cao, X. Lei, G. Wei, and B. Kang, NMR studyof some molybdenum (tungsten)-copper-sulfur compounds, Bull. Magn. Reson., 11(3-4), 395 (1989).
(1) G.W. Wei, H.Q. Liu, Z.Y. Huang, L.R. Huang and B.S.Kang, Synthesis and X-ray structure of an asymmetrical dicobalt (II) complexCO2(dppe)(mu-SPH)3SPh (dppe=Ph2PCH2CH2PPh2), J. Chem Soc. Chem. Commun., 23,1839-1840 (1989).