| # | Author / Year / Journal | Recs
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|---|
| 1 | WATSON JD, 1954, BIOCHIM BIOPHYS ACTA, V13, P10 | WoS | 12
|
| 2 | FRANKLIN RE, 1955, NATURE, V175, P379 | WoS | 11
|
| 3 | BERNAL JD, 1941, J GEN PHYSIOL, V25, P111 | WoS | 10
|
| 4 | SCHRAMM G, 1947, Z NATURFORSCH B, V2, P249 | WoS | 8
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| 5 | SCHRAMM G, 1947, ZX NATURFORSCH B, V2, P112 | WoS | 8
|
| 6 | BISCOE J, 1942, J APPL PHYS, V13, P364 | WoS | 6
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| 7 | FRANKLIN RE, 1953, NATURE, V171, P740 | WoS | 6
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| 8 | COCHRAN W, 1952, ACTA CRYSTALLOGR, V5, P581 | WoS | 5
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| 9 | FRANKLIN RE, 1955, ACTA CRYSTALLOGR, V8, P777 | WoS | 5
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| 10 | HART R, 1955, P NATIONAL ACADEMY S, V41, P261 | WoS | 5
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| 11 | KNIGHT CA, 1954, ADV VIRUS RES, V2, P153 | WoS | 5
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| 12 | SCHRAMM G, 1955, NATURE, V175, P549 | WoS | 5
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| 13 | WARREN BE, 1941, PHYS REV, V59, P693 | WoS | 5
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| 14 | WILLIAMS RC, 1951, J AM CHEM SOC, V73, P2057 | WoS | 5
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| 15 | ASTBURY WT, 1947, COLD SPRING HARB SYM, V12, P56 | WoS | 4
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| 16 | COMMONER B, 1953, SCIENCE, V118, P529 | WoS | 4
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| 17 | FRANKLIN RE, 1950, ACTA CRYSTALLOGR, V3, P107 | WoS | 4
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| 18 | FRANKLIN RE, 1951, ACTA CRYSTALLOGR, V4, P253 | WoS | 4
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| 19 | FRANKLIN RE, 1956, BIOCHIM BIOPHYS ACTA, V19, P403 | WoS | 4
|
| 20 | HARRIS JI, 1952, NATURE, V170, P613 | WoS | 4
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| 21 | HARRIS JI, 1955, J BIOL CHEM, V214, P215 | WoS | 4
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| 22 | MARKHAM R, 1951, FARADAY SOC DISC, V11, P221 | WoS | 4
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| 23 | NELSON JB, 1945, P PHYS SOC LOND, V57, P477 | WoS | 4
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| 24 | SIEGEL A, 1954, PHYTOPATHOLOGY, V44, P277 | WoS | 4
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| 25 | WATSON JD, 1953, NATURE, V171, P737 | WoS | 4
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| 26 | BUNN CW, 1954, NATURE, V174, P549 | WoS | 3
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| 27 | CASPAR DLD, 1956, NATURE, V177, P476 | WoS | 3
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| 28 | DRUSHEL WA, 1918, CHEM ZENT, V89, P1016 | WoS | 3
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| 29 | EWALD PP, 1940, P PHYS SOC LOND 1, V52, P167 | WoS | 3
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| 30 | FRANKLIN RE, 1953, NATURE, V172, P156 | WoS | 3
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| # | Author / Year / Journal | Recs
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|---|
| 31 | FRANKLIN RE, 1956, BIOCHIM BIOPHYS ACTA, V21, P405 | WoS | 3
|
| 32 | FRANKLIN RE, IN PRESS | | 3
|
| 33 | GULLAND JM, 1947, COLD SPRING HARB SYM, V12, P5 | WoS | 3
|
| 34 | MAIRE J, 1951, CR ACAD SCI PARIS, V232, P61 | WoS | 3
|
| 35 | NIU CI, 1955, J AM CHEM SOC, V77, P5882 | WoS | 3
|
| 36 | OSTER G, 1950, J GEN PHYSIOL, V33, P445 | WoS | 3
|
| 37 | PAULING L, 1951, P NATL ACAD SCI USA, V37, P205 | WoS | 3
|
| 38 | PAULING L, 1953, P NATL ACAD SCI USA, V39, P84 | WoS | 3
|
| 39 | SCHRAMM G, 1953, NATURFORSCH, V8, P61 | WoS | 3
|
| 40 | SCHRAMM G, 1954, Z NATURFORSCH B, V9, P298 | WoS | 3
|
| 41 | WILKINS MHF, 1951, NATURE, V167, P759 | WoS | 3
|
| 42 | ANSON ML, 1941, J GEN PHYSL, V24, P269 | WoS | 2
|
| 43 | BACON GE, 1950, ACTA CRYSTALLOGR, V3, P137 | WoS | 2
|
| 44 | BAWDEN FC, 1937, P ROY SOC LOND B BIO, V123, P274 | WoS | 2
|
| 45 | BERNAL JD, 1951, DISC FARADAY SOC, V11, P227 | WoS | 2
|
| 46 | BRADBURN M, 1948, P ROY SOC EDINB A, V62, P336 | WoS | 2
|
| 47 | CASPAR D, 1955, THESIS YALE U | WoS | 2
|
| 48 | CASPAR DLD, 1956, NATURE, V177, P928 | WoS | 2
|
| 49 | COCHRAN W, 1952, ACTA CRYSTALLOGR, V5, P501 | WoS | 2
|
| 50 | CRICK FHC, 1953, THESIS CAMBRIDGE | WoS | 2
|
| 51 | CRICK FHC, 1956, NATURE, V177, P473 | WoS | 2
|
| 52 | DELWICHE CC, 1955, BIOCHIM BIOPHYS ACTA, V16, P127 | WoS | 2
|
| 53 | FRANKLIN RE, 1950, ACTA CRYSTALLOGR, V3, P158 | WoS | 2
|
| 54 | FRANKLIN RE, 1951, P ROY SOC LOND A MAT, V209, P196 | WoS | 2
|
| 55 | FRANKLIN RE, 1953, ACTA CRYSTALLOGR, V6, P673 | WoS | 2
|
| 56 | FRANKLIN RE, 1955, BIOCHIM BIOPHYS ACTA, V18, P313 | WoS | 2
|
| 57 | FRANKLIN RE, 1956, BIOCHIM BIOPHYS ACTA, V19, P203 | WoS | 2
|
| 58 | FRANKLIN RE, 1956, NATURE, V177, P929 | WoS | 2
|
| 59 | FRANKLIN RE, 1957, NATURE VIRUSES, P39 | WoS | 2
|
| 60 | FRANKLIN, 1956, NATURE VIRUSES, P39 | WoS | 2
|
| # | Author / Year / Journal | Recs
|
|---|
| 61 | FRANKLIN, UNPUB | | 2
|
| 62 | HENDRICKS S, 1942, J CHEM PHYS, V10, P147 | WoS | 2
|
| 63 | JAMES RW, 1931, PHILOS MAG, V12, P104 | WoS | 2
|
| 64 | JEENER R, 1954, ACTA BIOCH BIOPHYS, V14, P321 | WoS | 2
|
| 65 | KLUG A, 1957, BIOCHIM BIOPHYS ACTA, V25, P242 | WoS | 2
|
| 66 | KLUG A, 1958, ACTA CRYSTALLOGR, V11, P199 | WoS | 2
|
| 67 | KNIGHT CA, 1951, J BIOL CHEM, V192, P727 | WoS | 2
|
| 68 | LIPSON H, 1942, PROC R SOC LON SER-A, V181, P101 | WoS | 2
|
| 69 | MACGILLAVRY CH, 1948, ACTA CRYSTALLOGR, V1, P156 | WoS | 2
|
| 70 | MARKHAM R, 1949, PARASITOLOGY, V39, P330 | WoS | 2
|
| 71 | MILLER GL, 1942, J BIOL CHEM, V146, P331 | WoS | 2
|
| 72 | NIU CJ, 1955, BIOCHIM BIOPHYS ACTA, V16, P597 | WoS | 2
|
| 73 | SCHRAMM G, 1947, Z NATURFORSCH B, V2, P108 | WoS | 2
|
| 74 | SMITH, 1942, IND ENG CHEM, V34, P43 | WoS | 2
|
| 75 | STEERE RL, 1957, J BIOPHYS BIOCHEM CY, V3, P45 | WoS | 2
|
| 76 | TAKAHASHI WN, 1953, AM J BOT, V40, P85 | WoS | 2
|
| 77 | WANDLESS AM, 1934, FUEL, V13, P4 | WoS | 2
|
| 78 | WARREN BE, 1934, J CHEM PHYS, V2, P551 | WoS | 2
|
| 79 | WILLIAMS RC, 1952, BIOCHIM BIOPHYS ACTA, V8, P227 | WoS | 2
|
| 80 | 1934, SOLID PRODUCTS CARBO | WoS | 1
|
| 81 | 1937, MATH TABLES 1, V6 | WoS | 1
|
| 82 | 1944, C ULTRAFINE STRUCTUR | WoS | 1
|
| 83 | 1950, ACTA CRYSTALLOGRAPHI, V3, P107 | WoS | 1
|
| 84 | 1955, P INT C COORDINATION | WoS | 1
|
| 85 | AINSWORTH L, 1954, J SOC GLASS TECHNOL, V38, P479 | WoS | 1
|
| 86 | AINSWORTH L, 1954, J SOC GLASS TECHNOL, V38, P501 | WoS | 1
|
| 87 | ALFREY T, 1954, J APPL PHYS, V44, P503 | WoS | 1
|
| 88 | ANDERSON S, 1955, J AM CERAM SOC, V38, P370 | WoS | 1
|
| 89 | ARMSTRONG EJ, 1946, BELL SYST TECH J, V25, P136 | WoS | 1
|
| 90 | ARNDT UW, COMMUNICATION | | 1
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| # | Author / Year / Journal | Recs
|
|---|
| 91 | ARUJA E, 1943, THESIS U CAMBRIDGE | WoS | 1
|
| 92 | BACON GE, 1951, ACTA CRYSTALLOGR, V4, P558 | WoS | 1
|
| 93 | BAGNO O, 1954, J CHIM PHYS, V51, P434 | WoS | 1
|
| 94 | BAMFORD CH, 1954, NATURE, V173, P27 | WoS | 1
|
| 95 | BANGHAM DH, 1946, T FARADAY SOC B, V42, P289 | WoS | 1
|
| 96 | BANGHAM, 1943, ANN REPORTS, V40, P29 | WoS | 1
|
| 97 | BANGHAM, 1943, C ULTRAFINE STRUCTUR, P18 | WoS | 1
|
| 98 | BARRER RM, 1949, B SOC CHIM FRANCE | WoS | 1
|
| 99 | BARRER, 1941, DIFFUSION SOLIDS | WoS | 1
|
| 100 | BATES TF, 1950, AM MINERAL, V35, P463 | WoS | 1
|
| 101 | BATES TF, 1950, SCIENCE, V111, P512 | WoS | 1
|
| 102 | BAWDEN FC, 1956, NATURE, V177, P302 | WoS | 1
|
| 103 | BAWDEN FC, 1958, J GEN MICROBIOL, V18, P751 | WoS | 1
|
| 104 | BEAR RS, 1950, ACTA CRYSTALLOGR, V3, P236 | WoS | 1
|
| 105 | BEEVERS CA, 1947, P ROY SOC LOND A MAT, V190, P257 | WoS | 1
|
| 106 | BERGMANN P, 1938, Z PHYS CHEM A-CHEM T, V181, P301 | WoS | 1
|
| 107 | BERNAL JD, 1946, T FARADAY SOC B, V42, P1130 | WoS | 1
|
| 108 | BERNAL JD, 1948, NATURE, V162, P139 | WoS | 1
|
| 109 | BERNAL JD, 1948, NATURE, V163, P139 | WoS | 1
|
| 110 | BERNAL JD, 1953, C INT CTR NATL RECHE, V53, P11 | WoS | 1
|
| 111 | BISCOE J, 1941, J AM CERAM SOC, V24, P100 | WoS | 1
|
| 112 | BLAYDEN HE, 1944, C ULTRAFINE STRUCTUR | WoS | 1
|
| 113 | BOND RL, 1948, DISCUSS FARADAY SOC, V3, P29 | WoS | 1
|
| 114 | BRAGG WL, 1930, PHILOS MAG, V10, P823 | WoS | 1
|
| 115 | BRAGG WL, 1952, P ROY SOC A, V213, P425 | WoS | 1
|
| 116 | BRAUNITZER G, 1954, Z NATURFORSCH B, V9, P675 | WoS | 1
|
| 117 | BRAUNITZER G, 1954, Z NATURFORSCH, V96, P675 | WoS | 1
|
| 118 | BRAVAIS A, 1877, ANN SCI NAT, V1, P42 | WoS | 1
|
| 119 | BRINDLEY GW, 1947, T BRIT CERAMIC SOC, V46, P49 | WoS | 1
|
| 120 | BRINDLEY GW, 1948, MINERAL MAG, V28, P393 | WoS | 1
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| # | Author / Year / Journal | Recs
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|---|
| 121 | BROOMHEAD JM, 1951, ACTA CRYSTALLOGR, V4, P92 | WoS | 1
|
| 122 | BROWN L, UNPUBLISHED | | 1
|
| 123 | BUERGER MJ, 1951, ACTA CRYSTALLOGR, V4, P531 | WoS | 1
|
| 124 | BUNN CW, 1939, T FARADAY SOC, V35, P482 | WoS | 1
|
| 125 | CANNON, 1944, P C ULTRA FINE STRUC, P131 | WoS | 1
|
| 126 | CARLISLE CH, 1948, ACTA CRYSTALLOGR, V1, P194 | WoS | 1
|
| 127 | CASPAR D, 1956, NATURE, P928 | WoS | 1
|
| 128 | CASPAR DLD, 1955, THESIS YALE U NEW HA | WoS | 1
|
| 129 | CASPAR DLD, 1956, NATURE, V177, P475 | WoS | 1
|
| 130 | CHARGAFF E, 1949, J BIOL CHEM, V177, P405 | WoS | 1
|
| 131 | CLAPP MM, 1937, J MATH PHYS, V16, P76 | WoS | 1
|
| 132 | COMMONER B, 1952, ARCH BIOCH, V37, P15 | WoS | 1
|
| 133 | COMMONER B, 1955, J GEN PHYSIOL, V38, P459 | WoS | 1
|
| 134 | COMPTON AH, 1935, XRAYS THEORY EXPT | WoS | 1
|
| 135 | CORBRIDGE DEC, 1955, ACTA CRYSTALLOGR, V8, P520 | WoS | 1
|
| 136 | CORBRIDGE DEC, 1956, ACTA CRYSTALLOGR, V9, P308 | WoS | 1
|
| 137 | CORRIEZ, 1937, THESIS PARIS | WoS | 1
|
| 138 | COSENTINO V, 1956, VIROLOGY, V2, P139 | WoS | 1
|
| 139 | COSSLETT VE, 1948, NATURE, V161, P250 | WoS | 1
|
| 140 | COULSON CA, 1948, CONTRIBUTION ETUDE S, P15 | WoS | 1
|
| 141 | COX EG, 1930, P ROY SOC LOND A MAT, V127, P71 | WoS | 1
|
| 142 | CRICK FHC, 1954, P ROY SOC LONDON S A, V223, P80 | WoS | 1
|
| 143 | CRICK FHC, 1954, SCI PROGR, V166, P205 | WoS | 1
|
| 144 | CRICK, 1956, CIBA F S | WoS | 1
|
| 145 | CRICK, 1958, BIOL REPLICATION LAR | WoS | 1
|
| 146 | CROWFOOT D, 1945, NATURE, V155, P504 | WoS | 1
|
| 147 | CUDE, 1920, J AM CHEM SOC, V42, P391 | WoS | 1
|
| 148 | CULBERTSON JL, 1938, J AM CHEM SOC, V60, P2695 | WoS | 1
|
| 149 | DANFORTH, 1939, J AM CHEM SOC, V61, P873 | WoS | 1
|
| 150 | DANIEL V, 1953, ADV PHYS, V2, P450 | WoS | 1
|
| # | Author / Year / Journal | Recs
|
|---|
| 151 | DAVIDSON JN, 1950, BIOCH NUCLEIC ACIDS, P32 | WoS | 1
|
| 152 | DEBYE P, 1931, ERGEB TECHN RONTGENK, V2, P1 | WoS | 1
|
| 153 | DEMPSTER PB, 1952, NATURE, V169, P538 | WoS | 1
|
| 154 | DEMPSTER PB, 1953, J APPL CHEM-USSR, V3, P182 | WoS | 1
|
| 155 | DERJAGUIN IBV, 1954, DISCUSSIONS FARADAY, V18, P33 | WoS | 1
|
| 156 | DOUGLAS RW, 1948, J SOC GLASS TECHNOL, V32, P309 | WoS | 1
|
| 157 | DOUGLAS RW, 1951, J SOC GLASS TECHNOL, V35, P206 | WoS | 1
|
| 158 | DRAKELEY, 1931, J SOC CHEM IND, V50, T331 | WoS | 1
|
| 159 | DUNNINGHAM, 1943, C ULTRAFINE STRUCTUR, P57 | WoS | 1
|
| 160 | EHRENBERG W, 1951, P PHYS SOC B, V64, P67 | WoS | 1
|
| 161 | FAJANS K, 1952, J AM CHEM SOC, V74, P2761 | WoS | 1
|
| 162 | FEUGHELMAN M, 1955, NATURE, V175, P834 | WoS | 1
|
| 163 | FINCH GI, 1953, P PHYS SOC B, V66, P949 | WoS | 1
|
| 164 | FINCH JT, UNPUBLISHED | | 1
|
| 165 | FIRTH, 1923, T FARAD SOC, V19, P444 | WoS | 1
|
| 166 | FOURNET G, 1947, NATURE LOND, V160, P500 | WoS | 1
|
| 167 | FRAENKELCONRAT H, 1954, J AM CHEM SOC, V76, P180 | WoS | 1
|
| 168 | FRAENKELCONRAT H, 1955, P NATL ACAD SCI USA, V41, P690 | WoS | 1
|
| 169 | FRAENKELCONRAT H, 1957, BIOCHIM BIOPHYS ACTA, V25, P87 | WoS | 1
|
| 170 | FRANKLIN RE, 1948, FUEL, V27, P46 | WoS | 1
|
| 171 | FRANKLIN RE, 1949, T FARADAY SOC, V45, P274 | WoS | 1
|
| 172 | FRANKLIN RE, 1949, T FARADAY SOC, V45, P668 | WoS | 1
|
| 173 | FRANKLIN RE, 1950, J CHIM PHYS PCB, V47, P573 | WoS | 1
|
| 174 | FRANKLIN RE, 1950, NATURE LONDON, V165, P71 | WoS | 1
|
| 175 | FRANKLIN RE, 1951, CR ACAD SCI, V232, P232 | WoS | 1
|
| 176 | FRANKLIN RE, 1953, ACTA CRYSTALLOGR, V6, P678 | WoS | 1
|
| 177 | FRANKLIN RE, 1953, BRENNST CHEM, V34, P359 | WoS | 1
|
| 178 | FRANKLIN RE, 1955, NATURE, V175, P1076 | WoS | 1
|
| 179 | FRANKLIN RE, 1958, ACTA CRYSTALLOGR, V11, P213 | WoS | 1
|
| 180 | FRANKLIN RE, ACTA CRYST 1 | | 1
|
| # | Author / Year / Journal | Recs
|
|---|
| 181 | FRANKLIN RE, ACTA CRYST 2 | | 1
|
| 182 | FRANKLIN RE, ACTA CRYSTALLOGRAPHI | | 1
|
| 183 | FRANKLIN RE, BIOCH BIOPHYS ACTA | | 1
|
| 184 | FRANKLIN RE, NATURE | | 1
|
| 185 | FRANKLIN RE, UNPUB | | 1
|
| 186 | FRASER RDB, 1952, NATURE, V170, P491 | WoS | 1
|
| 187 | GAY P, 1952, ACTA CRYSTALLOGR, V5, P7 | WoS | 1
|
| 188 | GINGRICH NS, 1943, REV MOD PHYS, V15, P90 | WoS | 1
|
| 189 | GINOZA W, 1958, NATURE LONDON, V181, P958 | WoS | 1
|
| 190 | GOLDACRE RJ, 1954, NATURE, V174, P732 | WoS | 1
|
| 191 | GORDON RL, 1952, SAFETY MINES RES EST, V52 | WoS | 1
|
| 192 | GORDON RL, 1955, NATURE, V175, P1135 | WoS | 1
|
| 193 | GORDON RL, 1956, SAFETY MINES RES EST, V138 | WoS | 1
|
| 194 | GOSLING RG, 1954, THESIS LONDON | WoS | 1
|
| 195 | GRAHAM, 1943, C ULTRAFINE STRUCTUR, P151 | WoS | 1
|
| 196 | GREEN DW, 1954, P ROY SOC LOND A MAT, V225, P287 | WoS | 1
|
| 197 | GRIFFIN OG, 1955, SAFETY MINES RES EST, V103 | WoS | 1
|
| 198 | GRIFFITH, 1944, C ULTRAFINE STRUCTUR, P80 | WoS | 1
|
| 199 | GRUND A, 1952, ACTA CRYST, V5, P857 | WoS | 1
|
| 200 | GUINIER A, 1939, THESIS U PARIS | WoS | 1
|