3,737 research outputs found
Gibbs free-energies of transfer of the peroxodisulfate anion from water into aqueous methanol and into aqueous acetone
PT: J; CR: ADAMS DM, 1965, ADV PRACTICAL INORGA, P122 ALFENAAR M, 1967, RECL TRAV CHIM PAY B, V86, P929 BAX D, 1972, RECL TRAV CHIM PAY B, V91, P1225 BLANDAMER MJ, 1975, CHEM SOC REV, V4, P55 BLANDAMER MJ, 1976, J CHEM SOC DA, P606 BLANDAMER MJ, 1977, J CHEM SOC DA, P165 BURGESS J, 1978, METAL IONS SOLUTION, CH7 COX BG, 1973, ANN REPORTS A, V70, P249 GORDON AJ, 1972, CHEM COMPANION HDB P SCHNEIDER H, 1976, TOP CURR CHEM, V68, P103 TARUGI N, 1904, GAZZ CHIM ITAL, V34, P329 VOGEL AI, 1951, QUANTITATIVE INORGAN, CH3 WEBER LJ, 1929, Z ANORG CHEM, V181, P385 WELLS CF, 1973, J CHEM SOC FARAD T 1, V69, P984 WELLS CF, 1974, J CHEM SOC FARAD T 1, V70, P694; NR: 15; TC: 14; J9: J INORG NUCL CHEM; PG: 3; GA: GM646Source type: Electronic(1
Initial state and transition-state contributions to solvent effects in the reaction of 2,2'-bipyridyl with nickel(ii) in aqueous methanol
PT: J; CR: ABRAHAM MH, 1969, J CHEM SOC CHEM COMM, P1307 ARNETT EM, 1965, J AM CHEM SOC, V87, P2048 BENNETTO HP, 1971, J CHEM SOC A, P2207 BLANDAMER MJ, 1978, J CHEM SOC CHEM COMM, P963 BLANDAMER MJ, 1979, PURE APPL CHEM, V51, P2087 BLANDAMER MJ, 1980, J CHEM SOC DA, P1 BURGESS J, CHEM IND LONDON BURGESS J, 1974, J CHEM SOC DA, P1062 EIGEN M, 1962, Z ELEKTROCHEM, V66, P107 EIGEN M, 1962, Z ELEKTROCHEM, V66, P93 KRESTOV GA, 1964, ZH STRUKT KHIM, V5, P829 WILKINS RG, 1970, ACCOUNTS CHEM RES, V3, P408; NR: 12; TC: 7; J9: J CHEM SOC CHEM COMMUN; PG: 2; GA: JQ808Source type: Electronic(1
Initial state and transition-state solvation effects in the cobaltotungstate oxidation of iodide in binary aqueous solvent mixtures
PT: J; CR: AMJAD Z, 1977, CAN J CHEM, V55, P3581 BAKER LCW, 1956, J AM CHEM SOC, V78, P4503 BECK MT, 1968, COORDIN CHEM REV, V3, P91 BLANDAMER MJ, UNPUB CAN J CHEM BLANDAMER MJ, 1978, J CHEM SOC CHEM COMM, P963 BLANDAMER MJ, 1979, PURE APPL CHEM, V51, P2087 BLANDAMER MJ, 1980, COORDIN CHEM REV, V31, P93 BLANDAMER MJ, 1980, J CHEM SOC DA, P1 BLANDAMER MJ, 1980, J CHEM SOC DA, P2442 BRODOVITCH JC, UNPUB BURGESS J, 1968, J CHEM SOC A, P2571 BURGESS J, 1970, J CHEM SOC A, P2111 BURGESS J, 1970, J CHEM SOC A, P2351 BURGESS J, 1972, INORGANIC REACTION M, V2, P127 BURGESS J, 1973, J CHEM SOC A, P825 BURGESS J, 1974, INORGANIC REACTION M, V3, P142 BURGESS J, 1977, INORGANIC REACTION M, V5, P158 BURGESS J, 1979, INORGANIC REACTION M, V6, P168 COX BG, 1974, ANN REP CHEM SOC A, V71, P249 COX BG, 1979, J CHEM SOC F1, V75, P1780 COX BG, 1979, J CHEM SOC FARAD T 1, V75, P86 DELIGNY CL, 1965, RECL TRAV CHIM PAY B, V84, P81 ELLIS KJ, 1973, J CHEM SOC DA, P1533 GRUNWALD E, 1948, J AM CHEM SOC, V70, P846 KANEMAQUIRE LAP, 1975, J CHEM SOC DA, P1890 KEPERT DL, 1978, J CHEM SOC DA, P137 MARCUS RA, 1968, J PHYS CHEM-US, V72, P891 PELIZZETTI E, 1976, INORG CHEM, V15, P2898 SUBHANI MS, 1978, REV ROUMAINE CHIM, V23, P719 UDOVENKO VV, 1977, RUSS J INORG CHEM, V22, P168 WELLS CF, 1973, J CHEM SOC FARAD T 1, V69, P984 WELLS PR, 1968, LINEAR FREE ENERGY R, CH4; NR: 32; TC: 14; J9: TRANSIT METAL CHEM; PG: 4; GA: NG073Source type: Electronic(1
Kinetics of peroxodisulfate oxidation of low-spin iron(ii) complexes in binary aqueous mixtures
PT: J; CR: ABRAHAM MH, 1969, CHEM COMMUN, P1307 ABRAHAM MH, 1969, CHEM COMMUN, P930 ABRAHAM MH, 1971, J CHEM SOC A, P1061 ADAMS DM, 1965, ADV PRACTICAL INORGA, P122 BALL DL, 1960, J ORG CHEM, V25, P1599 BLANDAMER MJ, 1976, J CHEM SOC DA, P1158 BLANDAMER MJ, 1976, J CHEM SOC DA, P606 BLANDAMER MJ, 1977, J CHEM SOC DA, P165 BLANDAMER MJ, 1977, J CHEM SOC DA, P60 BLANDAMER MJ, 1978, J CHEM SOC DA, P1001 BLANDAMER MJ, 1979, J INORG NUCL CHEM, V41, P258 BURGESS J, UNPUBLISHED BURGESS J, 1965, J CHEM SOC, P6061 BURGESS J, 1966, J CHEM SOC A, P1772 BURGESS J, 1968, J CHEM SOC A, P1085 BURGESS J, 1969, J CHEM SOC A, P1899 BURGESS J, 1970, J CHEM SOC A, P2111 BURGESS J, 1970, J CHEM SOC A, P2114 BURGESS J, 1970, J CHEM SOC A, P2351 CARRONDO MAA, 1977, J CHEM SOC DA, P2323 COOKSON PG, 1976, J CHEM SOC CHEM COMM, P1022 COX BG, 1979, JCS F1, P1780 DICKENS JE, 1957, J AM CHEM SOC, V79, P1286 GARDNER ER, 1964, INT J CHEM KINETICS, V6, P133 GILLARD RD, 1975, COORDIN CHEM REV, V16, P67 GORDON AJ, 1972, CHEM COMPANION HDB P GREEN AA, 1966, INORG CHEM, V5, P1858 HAINES RI, 1977, THESIS U LEICESTER HALPERN J, 1963, J AM CHEM SOC, V85, P680 HOUSE DA, 1962, CHEM REV, V62, P185 IRVINE DH, 1959, J CHEM SOC, P2977 JACKMAN FA, 1976, J SOLUTION CHEM, V5, P417 JINDAL VK, 1970, Z NATURFORSCH B, V25, P188 KAPOOR S, 1977, J INORG NUCL CHEM, V39, P1019 KOLTHOFF IM, 1953, J AM CHEM SOC, V75, P1439 KULIEV AM, 1976, KINETICA KATALIZ, V17, P1428 MOSS ML, 1942, IND ENG CHEM ANAL ED, V14, P931 OHASHI K, 1976, B CHEM SOC JPN, V49, P2440 RAMAN S, 1969, J INORG NUCL CHEM, V31, P1091 SAIPRAKASH PK, 1976, J INORG NUCL CHEM, V38, P880 SHAKHASHIRI BZ, 1969, J AM CHEM SOC, V91, P1103 SOROKINA MF, 1976, RUSS J PHYS CHEM, V50, P915 STALNAKER ND, 1977, J PHYS CHEM-US, V81, P601 SULFAB Y, 1977, INORG CHIM ACTA, V22, P35 TURNEY TA, 1965, OXIDATION MECHANISMS, P147 VANMETER FM, 1976, J AM CHEM SOC, V98, P1382; NR: 46; TC: 20; J9: J CHEM SOC DALTON TRANS; PG: 5; GA: KU279Source type: Electronic(1
Initial state and transition-state effects in the mercury(ii)-catalysed aquation of chlorotransition-metal complexes in binary aqueous solvent mixtures
PT: J; CR: ABRAHAM MH, 1969, CHEM COMMUN, P1307 ABRAHAM MH, 1969, CHEM COMMUN, P930 ABRAHAM MH, 1971, J CHEM SOC A, P1061 ABRAHAM MH, 1973, J CHEM SOC F1, V69, P1375 ARNETT EM, 1965, J AM CHEM SOC, V87, P2048 BAILAR JC, 1946, INORG SYN, V2, P222 BAX D, 1972, RECL TRAV CHIM PAY B, V91, P965 BERTRAND GL, 1976, J AM CHEMICAL SOC, V98, P7944 BLANDAMER MJ, 1976, J CHEM SOC DA, P1158 BLANDAMER MJ, 1976, J CHEM SOC DA, P1293 BLANDAMER MJ, 1976, J CHEM SOC DA, P385 BLANDAMER MJ, 1976, J CHEM SOC DA, P606 BLANDAMER MJ, 1977, J CHEM SOC DA, P165 BLANDAMER MJ, 1977, J CHEM SOC DA, P60 BLANDAMER MJ, 1977, J CHEM SOC DA, P63 BURGES J, 1976, J CHEM SOC DA, P1561 BURGESS J, UNPUBLISHED BURGESS J, 1971, INORGANIC REACTION M, V1, P112 BURGESS J, 1972, INORGANIC REACTION M, V2, P111 BURGESS J, 1973, J CHEM SOC DA, P902 BURGESS J, 1974, INORGANIC REACTION M, V3, P322 BURGESS J, 1977, J CHEM SOC DA, P1775 BURGESS J, 1978, METAL IONS SOLUTION, CH9 CHAN SF, 1976, J INORG NUCL CHEM, V38, P2161 COLTON R, 1965, CHEM RHENIUM TECHNET, P76 COX BG, COMMUNICATION COX BG, 1974, ANN REP CHEM SOC A, P249 COX BG, 1974, AUST J CHEM, V27, P477 DASH AC, 1975, J CHEM SOC DA, P897 DASH AC, 1977, TRANSIT METAL CHEM, V2, P183 DASH AC, 1978, J INORG NUCL CHEM, V40, P132 DAWSON BS, 1977, INORG CHEM, V16, P1354 FITZGERALD WR, 1968, J AM CHEM SOC, V90, P5744 FOONG SW, 1971, J CHEM SOC A, P118 GORDON AJ, 1972, CHEM COMPANION, P429 GOSWAMI L, 1977, Z ANORG ALLG CHEM, V435, P301 GRUNWALD E, 1948, J AM CHEM SOC, V70, P846 GRUNWALD E, 1974, J AM CHEM SOC, V96, P423 INGOLD CK, 1953, STRUCTURE MECH ORGAN, P345 ISE N, 1976, J POLYM SCI POL LETT, V14, P667 KELM H, 1969, Z PHYS CHEM, V67, P98 KUMARI K, 1977, CHEM ABSTR 29623J, V87 LALOR GC, 1978, J INORG NUCL CHEM, V40, P305 LEFFLER JE, 1963, RATES EQUILIBRIA ORG MAYER U, 1975, PURE APPL CHEM, V41, P291 MCAULEY A, 1976, INORGANIC REACTION M, V4, P242 PEARSON RG, 1973, HARD SOFT ACIDS BASE SCHLESSINGER GG, 1967, INORG SYNTH, V9, P160 STRELTSOVA EM, 1973, IZVEST VYSSH UCHEBN, V16, P694 STRELTSOVA EM, 1974, RUSS J ORG CHEM+, V48, P992 STRELTSOVA EM, 1974, RUSS J PHYS CHEM, V48, P2244 STRELTSOVA EM, 1976, RUSS J PHYS CHEM, V50, P264 SZE YK, 1975, CAN J CHEM, V53, P427 VANMETER FM, 1976, J AM CHEM SOC, V98, P1382 WELLS CF, 1973, JCS F1, P984 WELLS PR, 1963, CHEM REV, V63, P171 WELLS PR, 1968, LINEAR FREE ENERGY R, CH4; NR: 57; TC: 38; J9: J CHEM SOC DALTON TRANS; PG: 9; GA: JN546Source type: Electronic(1
Kinetics and mechanism of oxidation of nickel(ii) tetraazamacrocycles by the peroxydisulfate anion in aqueous and binary aqueous mixtures
The kinetics of oxidation of several nickel(II) tetraazamacrocycles by the peroxydisulphate anion have been studied in water and in binary aqueous mixtures. The reactions proceed via an ion-pairing pre-equilibrium, followed by metal ion-assisted peroxy-bond fissure within the ion-pair solvent shell The derived rate law is [GRAPHICS] Ion-pairing constants have been determined and have been found to be little influenced by steric factors, but do depend on solvent composition. Rate constants have been extracted using the rate expression and activation energies have been estimated from temperature dependences.PT: J; CR: AGARWAL SC, 1982, REV ROUM CHIM, V27, P265 BALL DL, 1960, J ORG CHEM, V25, P1599 BASOLO F, 1958, MECH INORGANIC REACT, CH9 BECK MT, 1970, CHEM COMPLEX EQUILIB, CH9 BENSON D, 1968, MECHANISMS INORGANIC, CH5 BLANDAMER MJ, 1978, J CHEM SOC CHEM COMM, P963 BLANDAMER MJ, 1980, COORDIN CHEM REV, V31, P93 BLANDAMER MJ, 1980, J CHEM SOC DA, P2442 BLANDAMER MJ, 1980, J CHEM SOC DA, P607 BURGESS J, 1978, METAL IONS SOLUTION, P349 BURGESS J, 1987, TRANSIT METAL CHEM, V12, P238 CURTIS NF, 1966, J CHEM SOC A, P1015 DIEBLER H, 1959, Z PHYS CHEM FRANKFUR, V20, P229 EIBENBERGER H, 1978, J PHYS CHEM-US, V82, P749 EIGEN M, 1960, Z ELEKTROCHEM, V64, P115 EIGEN M, 1962, Z ELEKTROCHEM, V66, P107 EIGEN M, 1962, Z ELEKTROCHEM, V66, P93 EIGEN M, 1963, BER BUNSEN PHYS CHEM, V67, P753 FEDOROVICH NV, 1975, DOKL AKAD NAUK SSSR, V225, P148 FRONAEUS S, 1955, ACTA CHEM SCAND, V9, P902 FRONAEUS S, 1968, ACTA CHEM SCAND, V22, P2827 FUOSS RM, 1957, J AM CHEM SOC, V79, P3304 FUOSS RM, 1958, J AM CHEM SOC, V80, P5059 GALLOPO AR, 1971, J ORG CHEM, V36, P4089 GRANOT J, 1974, J CHEM PHYS, V61, P3043 GUPTA SS, 1981, INORG CHEM, V20, P454 GUPTA VK, 1989, Z PHYS CHEM-LEIPZIG, V270, P297 HAINES RI, 1980, INORG CHEM, V19, P719 HAINES RI, 1981, COORDIN CHEM REV, V39, P77 HOLBA V, 1985, TRANSIT METAL CHEM, V10, P84 HOLBA V, 1987, TRANSIT METAL CHEM, V12, P121 HOUSE DA, 1962, CHEM REV, V62, P185 IRVINE DH, 1959, J CHEM SOC, P2977 KIMURA M, 1980, B CHEM SOC JPN, V53, P1271 KIMURA M, 1980, J CHEM SOC DA, P726 KOLTHOFF IM, 1953, J AM CHEM SOC, V75, P1439 KUMAR KA, 1987, TRANSIT METAL CHEM, V12, P441 LETTER JE, 1971, INORG CHEM, V10, P2692 LOVECCHIO FV, 1974, J AM CHEM SOC, V96, P3109 MARTELL AE, 1971, ACS MONOGR SER, V168, P469 MELSON GA, 1964, J AM CHEM SOC, V86, P4830 NANCOLLAS GH, 1964, INORG CHEM, V3, P360 NORMAN ROC, 1978, J CHEM SOC B, P1087 OKOH JM, 1986, J CHEM SOC DALTON, P449 OLABE JA, 1989, INORG CHEM, V28, P3278 PENNINGTON DE, 1968, J AM CHEM SOC, V90, P3700 POSEY FA, 1956, J AM CHEM SOC, V78, P15 SNOOK ME, 1975, J AM CHEM SOC, V97, P1603 STREHLOW H, 1975, BER BUNSEN PHYS CHEM, V79, P57 VASUDEVA WC, 1970, J CHEM SOC B, P960 VASUDEVA WC, 1975, J CHEM SOC P2, P697 ZEIGERSON E, 1979, J CHEM SOC CHEM COMM, P241 ZEIGERSON E, 1982, INORG CHEM, V21, P73; NR: 53; TC: 10; J9: CAN J CHEM; PG: 7; GA: KC742Source type: Electronic(1
Self-compression of 4.9 µm pulses to sub-40 fs with 2 mJ energy in Zinc Sulfide
Nonlinear self-compression of few-cycle multi-mJ pulses at 4.9 µm in ZnS is presented. 80 fs input pulses are compressed to 37 fs with 2.1 mJ energy at a 1 kHz repetition rate. © 2024 The Author(s
Correction to: Chamoun et al., Bacterial pathogenesis and interleukin-17: interconnecting mechanisms of immune regulation, host genetics, and microbial virulence that influence severity of infection
Chamoun MN, Blumenthal A, Sullivan MJ, Schembri MA, Ulett GC. 2018. Bacterial pathogenesis and interleukin-17: interconnecting mechanisms of immune regulation, host genetics, and microbial virulence that influence severity of infection. Critical Reviews in Microbiology. https://doi.org/10.1080/1040841X.2018.1426556.
When the above article was first published online, the below three corrections were missed.
The author ‘Antje Blumenthal’ was wrongly affiliated to the affiliation “cSchool of Chemistry and Molecular Biosciences, and Australian Infectious Disease Research Centre, The University of Queensland, Brisbane, Australia”. Now this affiliation has been removed for this author.
The affiliation ‘bTranslational Research Institute, The University of Queensland Diamantina Institute, Woolloongabba, Australia’ of the author ‘Antje Blumenthal’ should read ‘bThe University of Queensland Diamantina Institute, Translational Research Institute, Brisbane, Australia’.
In Table 3, the sentence ‘Benefit of manipulating IL-17 levels to improve immunization strategies M. tuberculosis’ should read “Benefit of manipulating IL-17 levels to improve immunization strategies against M. tuberculosis”.No Full Tex
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