| # | Author / Year / Journal / Reference | Recs
|
|---|
| 1 | 1974, INT TABLES XRAY CRYS, V4 | WoS | 46
|
| 2 | ALLEN FH, 1987, J CHEM SOC P2, PS1 | WoS | 35
|
| 3 | ALLINGER NL, 1977, J AM CHEM SOC, V99, P8127 | WoS | 32
|
| 4 | ALLINGER NL, 1989, J AM CHEM SOC, V111, P8551 | WoS | 31
|
| 5 | ALMENNINGEN A, 1963, ACTA CHEM SCAND, V17, P2455 | WoS | 34
|
| 6 | ALMENNINGEN A, 1984, J MOL STRUCT, V116, P199 | WoS | 30
|
| 7 | ANDERSEN B, 1969, ACTA CHEM SCAND, V23, P3224 | WoS | 176
|
| 8 | BADER RFW, 1990, ATOMS MOL QUANTUM TH | WoS | 48
|
| 9 | BARTELL LS, 1955, J CHEM PHYS, V23, P1219 | WoS | 27
|
| 10 | BARTELL LS, 1960, J CHEM PHYS, V32, P827 | WoS | 28
|
| 11 | BASTIANSEN O, 1969, BALZERS HIGH VACUUM, V25, P1 | WoS | 29
|
| 12 | BASTIANSEN O, 1973, J MOL STRUCT, V18, P163 | WoS | 43
|
| 13 | BEAGLEY B, 1971, J MOL STRUCT, V8, P401 | WoS | 26
|
| 14 | BECKE AD, 1988, PHYS REV A, V38, P3098 | WoS | 92
|
| 15 | BECKE AD, 1993, J CHEM PHYS, V98, P1372 | WoS | 26
|
| 16 | BECKE AD, 1993, J CHEM PHYS, V98, P5648 | WoS | 197
|
| 17 | BENT HA, 1961, CHEM REV, V61, P275 | WoS | 26
|
| 18 | BERGNER A, 1993, MOL PHYS, V80, P1431 | WoS | 26
|
| 19 | BINKLEY JS, 1980, J AM CHEM SOC, V102, P939 | WoS | 39
|
| 20 | BOCK CW, 1985, J MOL STRUCT THEOCHE, V122, P155 | WoS | 34
|
| 21 | BOCK CW, 1994, STRUCT CHEM, V5, P307 | WoS | 35
|
| 22 | BONDI A, 1964, J PHYS CHEM-US, V68, P441 | WoS | 79
|
| 23 | BONHAM RA, 1974, INT TABLES XRAY CRYS, V4 | WoS | 46
|
| 24 | BORISENKO KB, 1993, J PHYS CHEM-US, V97, P4080 | WoS | 37
|
| 25 | BORISENKO KB, 1994, J PHYS CHEM-US, V98, P1442 | WoS | 57
|
| 26 | BORISENKO KB, 1996, J PHYS CHEM-US, V100, P7426 | WoS | 54
|
| 27 | BOYD ASF, 1981, J MOL STRUCT, V71, P217 | WoS | 30
|
| 28 | BOYS SF, 1970, MOL PHYS, V19, P553 | WoS | 49
|
| 29 | BRUNVOLL J, 1976, J MOL STRUCT, V30, P361 | WoS | 45
|
| 30 | BUCHLER A, 1964, J AM CHEM SOC, V86, P4544 | WoS | 31
|
| # | Author / Year / Journal / Reference | Recs
|
|---|
| 31 | BUCHLER A, 1964, J CHEM PHYS, V40, P3471 | WoS | 28
|
| 32 | CASADO J, 1971, J MOL STRUCT, V8, P211 | WoS | 24
|
| 33 | COLAPIETRO M, 1984, J MOL STRUCT, V112, P141 | WoS | 52
|
| 34 | COLAPIETRO M, 1984, J MOL STRUCT, V125, P19 | WoS | 24
|
| 35 | COLAPIETRO M, 1987, J PHYS CHEM-US, V91, P1728 | WoS | 45
|
| 36 | COLLINS JB, 1976, J CHEM PHYS, V64, P5142 | WoS | 29
|
| 37 | COX HL, 1967, J CHEM PHYS, V47, P2599 | WoS | 26
|
| 38 | CRADOCK S, 1981, J MOL STRUCT, V77, P113 | WoS | 29
|
| 39 | CROMER DT, 1968, ACTA CRYSTALLOGR A, V24, P321 | WoS | 32
|
| 40 | CSAKVARI B, 1976, J ORGANOMET CHEM, V107, P287 | WoS | 69
|
| 41 | CYVIN SJ, 1968, MOL VIBRATIONS MEAN | WoS | 52
|
| 42 | CYVIN SJ, 1968, MOLECULAR VIBRATIONS | WoS | 35
|
| 43 | CYVIN SJ, 1974, J MOL STRUC, V23, P385 | WoS | 25
|
| 44 | DAVIS M, 1963, ACTA CHEM SCAND, V17, P1181 | WoS | 24
|
| 45 | DEWAR MJS, 1977, J AM CHEM SOC, V99, P4899 | WoS | 39
|
| 46 | DEWAR MJS, 1985, J AM CHEM SOC, V107, P3902 | WoS | 54
|
| 47 | DITCHFIELD R, 1971, J CHEM PHYS, V54, P724 | WoS | 41
|
| 48 | DOMENICANO A, 1975, ACTA CRYSTALLOGR B, V31, P1630 | WoS | 49
|
| 49 | DOMENICANO A, 1975, ACTA CRYSTALLOGR B, V31, P221 | WoS | 53
|
| 50 | DOMENICANO A, 1979, ACTA CRYSTALLOGR B, V35, P1382 | WoS | 32
|
| 51 | DOMENICANO A, 1979, J MOL STRUCT, V53, P197 | WoS | 76
|
| 52 | DOMENICANO A, 1979, TETRAHEDRON LETT, P2283 | WoS | 49
|
| 53 | DOMENICANO A, 1979, TETRAHEDRON LETT, V24, P2283 | WoS | 25
|
| 54 | DOMENICANO A, 1982, J MOL STRUCT, V78, P97 | WoS | 47
|
| 55 | DOMENICANO A, 1983, ACTA CRYSTALLOGR B, V39, P457 | WoS | 43
|
| 56 | DOMENICANO A, 1990, STRUCT CHEM, V1, P107 | WoS | 34
|
| 57 | DUNNING TH, 1970, J CHEM PHYS, V53, P2823 | WoS | 38
|
| 58 | DUNNING TH, 1971, J CHEM PHYS, V55, P716 | WoS | 27
|
| 59 | DUNNING TH, 1989, J CHEM PHYS, V90, P1007 | WoS | 47
|
| 60 | FERENCZY G, 1986, J MOL STRUCT, V140, P71 | WoS | 54
|
| # | Author / Year / Journal / Reference | Recs
|
|---|
| 61 | FRANCL MM, 1982, J CHEM PHYS, V77, P3654 | WoS | 45
|
| 62 | FRISCH MJ, 1992, GAUSSIAN 92 | WoS | 32
|
| 63 | FRISCH MJ, 1995, GAUSSIAN 94 | WoS | 59
|
| 64 | FRISCH MJ, 1995, GAUSSIAN 94 REVISION | WoS | 108
|
| 65 | FRISCH MJ, 1998, GAUSSIAN 98 | WoS | 45
|
| 66 | FRISCH MJ, 1998, GAUSSIAN 98 REVISION | WoS | 214
|
| 67 | FRISCH MJ, 2003, GAUSSIAN 03 REVISION | WoS | 27
|
| 68 | GERGO E, 1976, J ORGANOMET CHEM, V112, P29 | WoS | 27
|
| 69 | GILLESPIE RJ, 1957, QUART REV CHEM SOC, V11, P339 | WoS | 28
|
| 70 | GILLESPIE RJ, 1972, MOLECULAR GEOMETRY | WoS | 88
|
| 71 | GILLESPIE RJ, 1991, VSEPR MODEL MOL GEOM | WoS | 63
|
| 72 | GILLI G, 1989, J AM CHEM SOC, V111, P1023 | WoS | 40
|
| 73 | GORDON MS, 1982, J AM CHEM SOC, V104, P2797 | WoS | 34
|
| 74 | GUNDERSEN G, 1969, J CHEM PHYS, V51, P2500 | WoS | 34
|
| 75 | HAASE J, 1970, Z NATURFORSCH A, V25, P936 | WoS | 26
|
| 76 | HAGEN K, 1973, J AM CHEM SOC, V95, P1003 | WoS | 24
|
| 77 | HAMILTON WC, 1965, ACTA CRYSTALLOGR, V18, P502 | WoS | 24
|
| 78 | HARGITTAI I, 1969, ACTA CHIM HUNG, V60, P231 | WoS | 78
|
| 79 | HARGITTAI I, 1971, J CHEM SOC CHEM COMM, P1499 | WoS | 45
|
| 80 | HARGITTAI I, 1971, REV SCI INSTRUM, V42, P546 | WoS | 118
|
| 81 | HARGITTAI I, 1972, MOL STRUCTURES VIBRA, P340 | WoS | 26
|
| 82 | HARGITTAI I, 1972, PRIB TEKH EKSP, P239 | WoS | 81
|
| 83 | HARGITTAI I, 1973, J MOL STRUCT, V15, P399 | WoS | 63
|
| 84 | HARGITTAI I, 1973, J MOL STRUCT, V16, P69 | WoS | 30
|
| 85 | HARGITTAI I, 1973, J MOL STRUCT, V18, P381 | WoS | 33
|
| 86 | HARGITTAI I, 1975, J MOL STRUCT, V26, P116 | WoS | 30
|
| 87 | HARGITTAI I, 1976, ACTA CHEM SCAND A, V30, P634 | WoS | 29
|
| 88 | HARGITTAI I, 1976, ACTA CHEM SCAND, V30, P540 | WoS | 46
|
| 89 | HARGITTAI I, 1976, COORDIN CHEM REV, V18, P257 | WoS | 29
|
| 90 | HARGITTAI I, 1977, J MOL STRUCT, V39, P1 | WoS | 25
|
| # | Author / Year / Journal / Reference | Recs
|
|---|
| 91 | HARGITTAI I, 1978, CONFORMATION GEOMETR, V6 | WoS | 38
|
| 92 | HARGITTAI I, 1978, SULPHONE MOL STRUCTU | WoS | 31
|
| 93 | HARGITTAI I, 1979, Z NATURFORSCH A, V34, P755 | WoS | 29
|
| 94 | HARGITTAI I, 1980, HSI HUNG SCI INSTRUM, V50, P31 | WoS | 91
|
| 95 | HARGITTAI I, 1980, HSI HUNG SCI INSTRUM, V50, P51 | WoS | 33
|
| 96 | HARGITTAI I, 1983, J AM CHEM SOC, V105, P2895 | WoS | 47
|
| 97 | HARGITTAI I, 1985, STRUCTURE VOLATILE S | WoS | 117
|
| 98 | HARGITTAI I, 1986, CHEM ORGANIC SELENIU, P63 | WoS | 93
|
| 99 | HARGITTAI I, 1986, SYMMETRY EYES CHEM | WoS | 97
|
| 100 | HARGITTAI I, 1986, SYMMETRY UNIFYING HU | WoS | 36
|
| 101 | HARGITTAI I, 1988, STEREOCHEMICAL APP A | WoS | 24
|
| 102 | HARGITTAI I, 1988, STEREOCHEMICAL APPL | WoS | 30
|
| 103 | HARGITTAI I, 1988, STEREOCHEMICAL APPL A, P1 | WoS | 33
|
| 104 | HARGITTAI M, 1973, J CHEM PHYS, V59, P2513 | WoS | 155
|
| 105 | HARGITTAI M, 1974, J MOL STRUCT, V20, P283 | WoS | 87
|
| 106 | HARGITTAI M, 1975, J MOL STRUCT, V24, P27 | WoS | 34
|
| 107 | HARGITTAI M, 1977, J MOL STRUCT, V39, P79 | WoS | 35
|
| 108 | HARGITTAI M, 1986, INORG CHEM, V25, P3163 | WoS | 33
|
| 109 | HARGITTAI M, 1987, PHYS CHEM MINER, V14, P413 | WoS | 24
|
| 110 | HARGITTAI M, 1988, COORDIN CHEM REV, V91, P35 | WoS | 34
|
| 111 | HARGITTAI M, 1991, J CHEM PHYS, V94, P7278 | WoS | 28
|
| 112 | HARGITTAI M, 1992, INT J QUANTUM CHEM, V44, P1057 | WoS | 65
|
| 113 | HARIHARAN PC, 1973, THEOR CHIM ACTA, V28, P213 | WoS | 97
|
| 114 | HASTIE JW, 1971, HIGH TEMP SCI, V3, P257 | WoS | 24
|
| 115 | HEDBERG K, 1962, J CHEM PHYS, V36, P589 | WoS | 31
|
| 116 | HEDBERG K, 1964, ACTA CRYSTALLOGR, V17, P529 | WoS | 30
|
| 117 | HEDBERG L, 1993, J MOL SPECTROSC, V160, P117 | WoS | 68
|
| 118 | HEHRE WJ, 1969, J CHEM PHYS, V51, P2657 | WoS | 25
|
| 119 | HEHRE WJ, 1972, J CHEM PHYS, V56, P2257 | WoS | 72
|
| 120 | HEHRE WJ, 1986, AB INITIO MOL ORBITA | WoS | 178
|
| # | Author / Year / Journal / Reference | Recs
|
|---|
| 121 | HUBER KP, 1979, MOL SPECTRA MOL STRU, V4 | WoS | 26
|
| 122 | HUNTLEY CM, 1980, J CHEM SOC DA, P954 | WoS | 34
|
| 123 | HUZINAGA S, 1965, J CHEM PHYS, V42, P1293 | WoS | 31
|
| 124 | KAUPP M, 1991, J AM CHEM SOC, V113, P6012 | WoS | 25
|
| 125 | KENDALL RA, 1992, J CHEM PHYS, V96, P6796 | WoS | 25
|
| 126 | KOVACS A, 2002, J PHYS CHEM A, V106, P5671 | WoS | 28
|
| 127 | KRAITCHMAN J, 1953, AM J PHYS, V21, P17 | WoS | 29
|
| 128 | KREINER WA, 1973, J MOL SPECTROSC, V48, P86 | WoS | 27
|
| 129 | KRISHNAN R, 1980, J CHEM PHYS, V72, P650 | WoS | 51
|
| 130 | KUCHITSU K, 1967, B CHEM SOC JPN, V40, P505 | WoS | 30
|
| 131 | KUCHITSU K, 1968, J CHEM PHYS, V49, P4456 | WoS | 26
|
| 132 | KUCHITSU K, 1972, MOL STRUCTURE VIBRAT, PCH12 | WoS | 29
|
| 133 | LAMPERT H, 1996, J PHYS CHEM-US, V100, P7418 | WoS | 25
|
| 134 | LARSEN NW, 1979, J MOL STRUCT, V51, P175 | WoS | 44
|
| 135 | LEE C, 1988, PHYS REV B, V37, P785 | WoS | 199
|
| 136 | LIDE DR, 1957, J CHEM PHYS, V26, P734 | WoS | 46
|
| 137 | LISTER DG, 1974, J MOL STRUCT, V23, P253 | WoS | 42
|
| 138 | MASTRYUKOV VS, 1976, J MOL STRUCT, V34, P99 | WoS | 33
|
| 139 | MCLEAN AD, 1980, J CHEM PHYS, V72, P5639 | WoS | 37
|
| 140 | MOLLER C, 1934, PHYS REV, V46, P618 | WoS | 123
|
| 141 | MORINO Y, 1960, J CHEM PHYS, V32, P643 | WoS | 25
|
| 142 | MULLIKEN RS, 1955, J CHEM PHYS, V23, P1833 | WoS | 46
|
| 143 | NORRESTAM R, 1981, ACTA CHEM SCAND A, V35, P91 | WoS | 29
|
| 144 | NYGAARD L, 1968, J MOL STRUCT, V2, P209 | WoS | 42
|
| 145 | OBERHAMMER H, 1976, MOL STRUCTURES DIFFR, V4, P24 | WoS | 37
|
| 146 | OBERHAMMER H, 1981, J MOL STRUCT, V70, P273 | WoS | 42
|
| 147 | PARR RG, 1989, DENSITY FUNCTIONAL T | WoS | 29
|
| 148 | PAULING L, 1960, NATURE CHEM BOND | WoS | 184
|
| 149 | PERDEW JP, 1986, PHYS REV B, V33, P8822 | WoS | 50
|
| 150 | PIERCE L, 1961, J CHEM PHYS, V35, P479 | WoS | 24
|
| # | Author / Year / Journal / Reference | Recs
|
|---|
| 151 | PIETRO WJ, 1982, J AM CHEM SOC, V104, P5039 | WoS | 40
|
| 152 | POPLE JA, 1970, APPROXIMATE MOL ORBI | WoS | 26
|
| 153 | PORTALONE G, 1984, J MOL STRUCT, V118, P53 | WoS | 52
|
| 154 | PORTALONE G, 1992, CHEM PHYS LETT, V197, P482 | WoS | 52
|
| 155 | PULAY P, 1969, MOL PHYS, V17, P197 | WoS | 53
|
| 156 | PULAY P, 1979, J AM CHEM SOC, V101, P2550 | WoS | 56
|
| 157 | PULAY P, 1979, THEOR CHIM ACTA, V50, P299 | WoS | 29
|
| 158 | PULAY P, 1983, J AM CHEM SOC, V105, P7037 | WoS | 38
|
| 159 | RAUHUT G, 1995, J PHYS CHEM-US, V99, P3093 | WoS | 38
|
| 160 | REED AE, 1985, J CHEM PHYS, V83, P735 | WoS | 45
|
| 161 | REED AE, 1988, CHEM REV, V88, P899 | WoS | 97
|
| 162 | REED AE, 1990, J AM CHEM SOC, V112, P1434 | WoS | 31
|
| 163 | ROSS AW, 1992, INT TABLES CRYSTALLO, VC, P245 | WoS | 44
|
| 164 | ROZSONDAI B, 1977, ACTA CHIM HUNG, V94, P321 | WoS | 35
|
| 165 | ROZSONDAI B, 1979, J MOL STRUCT, V51, P69 | WoS | 26
|
| 166 | SADOVA NI, 1976, J MOL STRUCT, V31, P131 | WoS | 35
|
| 167 | SAMDAL S, 1979, J MOL STRUCT, V57, P105 | WoS | 27
|
| 168 | SCHAFER L, 1971, J CHEM PHYS, V55, P3055 | WoS | 48
|
| 169 | SCHARFENBERG P, 1980, Z NATURFORSCH A, V35, P431 | WoS | 46
|
| 170 | SCHMIDT MW, 1993, J COMPUT CHEM, V14, P1347 | WoS | 51
|
| 171 | SCHMIEDEKAMP A, 1979, J AM CHEM SOC, V101, P2002 | WoS | 75
|
| 172 | SCHOMAKER V, 1941, J AM CHEM SOC, V63, P37 | WoS | 30
|
| 173 | SCHULTZ G, 1974, ACTA CHIM HUNG, V83, P331 | WoS | 28
|
| 174 | SCHULTZ G, 1979, J MOL STRUCT, V55, P207 | WoS | 55
|
| 175 | SCHULTZ G, 1980, J MOL STRUCT, V68, P281 | WoS | 36
|
| 176 | SCHULTZ G, 1981, Z NATURFORSCH A, V36, P669 | WoS | 27
|
| 177 | SCHULTZ G, 1982, J MOL STRUCT, V82, P107 | WoS | 32
|
| 178 | SCHULTZ G, 1993, J PHYS CHEM-US, V97, P4966 | WoS | 31
|
| 179 | SCOTT AP, 1996, J PHYS CHEM-US, V100, P16502 | WoS | 42
|
| 180 | SEIP HM, 1973, ACTA CHEM SCAND, V27, P4024 | WoS | 30
|
| # | Author / Year / Journal / Reference | Recs
|
|---|
| 181 | SEIP R, 1977, Z NATURFORSCH A, V32, P1178 | WoS | 52
|
| 182 | SHELDRICK GM, 1976, SHELX PROGRAM CRYSTA | WoS | 41
|
| 183 | SHELDRICK GM, 1990, ACTA CRYSTALLOGR A, V46, P467 | WoS | 31
|
| 184 | STEWART JJP, 1989, J COMPUT CHEM, V10, P209 | WoS | 37
|
| 185 | STEWART RF, 1965, J CHEM PHYS, V42, P3175 | WoS | 28
|
| 186 | TAMAGAWA K, 1976, J MOL STRUCT, V30, P243 | WoS | 57
|
| 187 | TAVARD C, 1967, J CHIM PHYS PCB, V64, P540 | WoS | 107
|
| 188 | THOMPSON KR, 1968, J CHEM PHYS, V49, P4379 | WoS | 32
|
| 189 | TREMMEL J, 1977, J PHYS E, V10, P664 | WoS | 29
|
| 190 | TREMMEL J, 1985, J PHYS E SCI INSTRUM, V18, P148 | WoS | 43
|
| 191 | VAJDA E, 1978, J MOL STRUCT, V44, P101 | WoS | 28
|
| 192 | VAJDA E, 1986, J AM CHEM SOC, V108, P4352 | WoS | 35
|
| 193 | VAJDA E, 1987, INORG CHEM, V26, P1171 | WoS | 40
|
| 194 | VILKOV LV, 1978, J MOL STRUCT, V43, P109 | WoS | 39
|
| 195 | VOSKO SH, 1980, CAN J PHYS, V58, P1200 | WoS | 35
|
| 196 | WALKER N, 1983, ACTA CRYSTALLOGR A, V39, P158 | WoS | 31
|
| 197 | WILSON EB, 1955, MOL VIBRATIONS | WoS | 46
|
| 198 | WITT W, 1964, Z NATURFORSCH A, V19, P1363 | WoS | 68
|
| 199 | WOON DE, 1993, J CHEM PHYS, V98, P1358 | WoS | 28
|
| 200 | ZEIL W, 1966, Z INSTRUMENTENKD, V74, P84 | WoS | 40
|