| 377 - 381 |
Negative polarization transfer between a spin 1/2 and a spin 1
Luy B, Glaser SJ |
| 382 - 388 |
Ultrafast anisotropy decay of coherent excitations and the non-coincidence effect for delocalized vibrational modes in liquids
Torii H |
| 389 - 392 |
Selective binding of 2-anthrylmethylpyrrole with fluoride: fluorescence and theoretical studies
Sortino S, Conoci S |
| 393 - 399 |
Comparative study of Aln-1X (n = 1-9 and 13, X = Li, Al and Sb) clusters: density functional theory based molecular dynamics simulation study
Majumder C, Kulshreshtha SK |
| 400 - 406 |
Unusual spectroscopic behaviour of the carbonyl and carbon-carbon double-bond groups in the infrared spectra of simple nitroenaminoketone derivatives
Taoufik N, Pappalardo RR, Marcos ES |
| 407 - 415 |
Structural and vibrational analysis of azodendrimers by molecular orbital methods
Tanaka S, Itoh S, Kurita N |
| 416 - 424 |
Basis set and correlation effects in configuration analysis of reactive systems
Rincon L, Almeida R |
| 425 - 433 |
An improved J matrix engine for density functional theory calculations
Shao YY, Head-Gordon M |
| 434 - 440 |
Ab initio CASSCF and MRSDCI calculations of the (C6H6)(3)(+) radical
Miyoshi E, Ghosh TK |
| 441 - 447 |
Ab initio study of H photodetachment from the ethyl radical
Zyubin AS, Mebel AM, Lin SH |
| 448 - 453 |
Thermal activation of the trapped proton in diamond crystal: direct molecular dynamics calculation
Shimizu A, Tachikawa H |
| 454 - 459 |
Interfacial second harmonic generation in the limit of weak orientational order: determining interfacial refractive index
Frey JG |
| 460 - 466 |
Does inversion symmetry influence IVR?
Patwari GN, Wategaonkar S |
| 467 - 473 |
Light- and pH-driven electron transfer in the pyranine-methylviologen system
Prayer C, Tran-Thi TH, Pommeret S, d'Oliveira P, Meynadier P |
| 474 - 481 |
Intramolecular motion in dibenzobarrelenephosphinyl radical: a single crystal EPR study at variable temperature
Brynda M, Berclaz T, Geoffroy M |
| 482 - 489 |
Critical test of performance of B3LYP functional for prediction of gas-phase acidities and basicities
Burk P, Koppel IA, Koppel I, Leito I, Travnikova O |
| 490 - 497 |
Rotary resonance recoupling of C-13-H-1 dipolar interactions in magic angle spinning C-13 NMR of dynamic solids
Kitchin SJ, Harris KDM, Aliev AE, Apperley DC |
| 498 - 505 |
Heats of formation for ClFn (n=1-3)
Ricca A |
| 506 - 513 |
Photolysis of HI in solid Xe: production and distribution of hydrogen atoms
Pettersson M, Khriachtchev L, Roozeman RJ, Rasanen M |
| 514 - 521 |
Lifetime determination of intermediate excited electronic states via up-conversion using sequences of square-wave excitation pulses
Wermuth M, Gudel HU |
| 522 - 528 |
Molecular modeling of C-60 : cobaltocene and nickelocene complexes, comparison with IR absorption
Byszewski P, Antonova K, Kowalska E, Radomska J, Baran J |
| 529 - 533 |
Highly oriented rich boron B-C-N nanotubes by bias-assisted hot filament chemical vapor deposition
Yu J, Bai XD, Ahn J, Yoon SF, Wang EG |
| 534 - 541 |
Ground and excited state tautomerization in 9-acetoxy-2,7,12,17-tetra-n-propylporphycene
Gil M, Jasny J, Vogel E, Waluk J |
| 542 - 548 |
Removal processes of nitric oxide along positive streamers observed by laser-induced fluorescence imaging spectroscopy
Hazama H, Fujiwara M, Tanimoto M |
| 549 - 553 |
Porous target enhances production of single-wall carbon nanotubes by laser ablation
Yudasaka M, Zhang MF, Iijima S |
| 554 - 559 |
Growth of well-aligned carbon nanotubes on a large area of Co-Ni co-deposited silicon oxide substrate by thermal chemical vapor deposition
Lee CJ, Park J, Kang SY, Lee JH |
| 560 - 565 |
Synthesis of bamboo-shaped multiwalled carbon nanotubes using thermal chemical vapor deposition
Lee CJ, Park JH, Park J |
| 566 - 571 |
High specific surface area carbon nanotubes from catalytic chemical vapor deposition process
Bacsa RR, Laurent C, Peigney A, Bacsa WS, Vaugien T, Rousset A |
| 572 - 579 |
Metallic behaviour of boron-containing carbon nanotubes
Hsu WK, Chu SY, Munoz-Picone E, Boldu JL, Firth S, Franchi P, Roberts BP, Schilder A, Terrones H, Grobert N, Zhu YQ, Terrones M, McHenry ME, Kroto HW, Walton DRM |
| 580 - 585 |
Mass production of single-wall carbon nanotubes by the arc plasma jet method
Ando Y, Zhao X, Hirahara K, Suenaga K, Bandow S, Iijima S |
| 586 - 593 |
Hot-atom mechanism in hydrogen exchange reaction on the Ir{100} surface
Okada M, Moritani K, Nakamura M, Kasai T, Murata Y |
