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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1783 1
1786 1
1788 1
1791 2
1792 3
1793 2
1794 8
1796 1
1797 6
1799 1
1800 10
1801 5
1802 2
1803 3
1804 5
1805 5
1806 5
1807 5
1808 5
1809 6
1810 3
1811 6
1812 4
1813 4
1814 9
1815 1
1816 4
1817 3
1818 1
1819 1
1820 1
1821 1
1822 5
1823 2
1824 5
1825 1
1826 14
1827 5
1828 6
1829 5
1830 10
1831 8
1832 3
1833 5
1834 6
1835 5
1836 3
1837 5
1838 3
1840 4
1841 10
1842 20
1843 3
1844 3
1845 9
1846 8
1847 11
1848 10
1849 12
1850 9
1851 5
1852 2
1853 5
1854 6
1855 9
1856 6
1857 13
1858 9
1859 7
1860 6
1861 10
1862 3
1863 4
1864 6
1865 3
1866 7
1867 5
1868 3
1869 6
1870 8
1871 11
1872 12
1873 11
1874 12
1875 21
1876 31
1877 32
1878 29
1879 21
1880 25
1881 35
1882 30
1883 25
1884 20
1885 12
1886 22
1887 21
1888 21
1889 37
1890 32
1891 10
1892 21
1893 42
1894 27
1895 31
1896 35
1897 29
1898 63
1899 81
1900 106
1901 135
1902 108
1903 97
1904 111
1905 107
1906 118
1907 114
1908 85
1909 111
1910 148
1911 109
1912 98
1913 139
1914 132
1915 106
1916 99
1917 108
1918 85
1919 111
1920 79
1921 89
1922 95
1923 115
1924 121
1925 117
1926 180
1927 167
1928 185
1929 196
1930 183
1931 191
1932 228
1933 196
1934 185
1935 199
1936 139
1937 113
1938 101
1939 107
1940 105
1941 112
1942 96
1943 71
1944 107
1945 210
1946 140
1947 191
1948 186
1949 132
1950 370
1951 658
1952 689
1953 557
1954 463
1955 445
1956 524
1957 497
1958 497
1959 499
1960 440
1961 572
1962 601
1963 1918
1964 3073
1965 1783
1966 1302
1967 1379
1968 1645
1969 2206
1970 2454
1971 2527
1972 2578
1973 3210
1974 3434
1975 6865
1976 6953
1977 6360
1978 6420
1979 7029
1980 7614
1981 8105
1982 8778
1983 10111
1984 10683
1985 11007
1986 11325
1987 12156
1988 13436
1989 14959
1990 15500
1991 15565
1992 16965
1993 17259
1994 17381
1995 17436
1996 18331
1997 18185
1998 19003
1999 20345
2000 24142
2001 25868
2002 27438
2003 29390
2004 29708
2005 32903
2006 34986
2007 37604
2008 40016
2009 41764
2010 44877
2011 49147
2012 52513
2013 55660
2014 66374
2015 72025
2016 74593
2017 77426
2018 86513
2019 94259
2020 110049
2021 120433
2022 74026
2023 4
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1,510,694 results
Results by year
Filters applied: . Clear all The following term was not found in PubMed: Kharezi
Page 1
Did you mean M. kharazi (11 results)?
Venturiales.
Shen M, Zhang JQ, Zhao LL, Groenewald JZ, Crous PW, Zhang Y. Shen M, et al. Stud Mycol. 2020 Apr 9;96:185-308. doi: 10.1016/j.simyco.2020.03.001. eCollection 2020 Jun. Stud Mycol. 2020. PMID: 32904190 Free PMC article.
Alkynylbis(alkylidynyl)phosphines: {LnM[triple bond, length as m-dash]C}2PC[triple bond, length as m-dash]CR.
Frogley BJ , Hill AF . Frogley BJ , et al. Chem Commun (Camb). 2018 Oct 30;54(87):12373-12376. doi: 10.1039/c8cc07166g. Chem Commun (Camb). 2018. PMID: 30327800
Sequential treatment of [M([triple bond, length as m-dash]CBr)(CO)2(Tp*)] (M = Mo, W; Tp* = hydrotris(dimethylpyrazolyl)borate) with nBuLi, RPCl2 and LiC[triple bond, length as m-dash]CSiMe3 affords [M{[triple bond, length as m-dash]CPR(C …
Sequential treatment of [M([triple bond, length as m-dash]CBr)(CO)2(Tp*)] (M = Mo, W; Tp* = hydrotris(dimethylpyrazolyl …
Structures of M+(CH4)n (M = Ti, V) Based on Vibrational Spectroscopy and Density Functional Theory.
Kozubal J, Heck T, Metz RB. Kozubal J, et al. J Phys Chem A. 2021 May 20;125(19):4143-4151. doi: 10.1021/acs.jpca.1c02217. Epub 2021 May 7. J Phys Chem A. 2021. PMID: 33961741
Photofragment spectroscopy is used to measure the vibrational spectra of M(+)(CH(4))(Ar) and M(+)(CH(4))(n) (M = Ti, V; n = 1-4) in the C-H stretching region (2550-3100 cm(-1)). ...In M(+)(CH(4))(Ar) (M = Ti, V), the heavy atoms are collinear. T …
Photofragment spectroscopy is used to measure the vibrational spectra of M(+)(CH(4))(Ar) and M(+)(CH(4))(n) (M = Ti, V; …
Second virial coefficient properties of the n-m Lennard-Jones/Mie potential.
Sadus RJ. Sadus RJ. J Chem Phys. 2018 Aug 21;149(7):074504. doi: 10.1063/1.5041320. J Chem Phys. 2018. PMID: 30134705
The (n = m + 1)-m LJ/M potential has an important role in characterising the overall behavior of second virial coefficient properties. Different T(B) , T(max) behavior is observed for n(constant)-m LJ/M and n-m(constant) LJ/M poten …
The (n = m + 1)-m LJ/M potential has an important role in characterising the overall behavior of second virial coeffici …
Erratum for the Report "Global distribution of earthworm diversity" by H. R. P. Phillips, C. A. Guerra, M. L. C. Bartz, M. J. I. Briones, G. Brown, T. W. Crowther, O. Ferlian, K. B. Gongalsky, J. van den Hoogen, J. Krebs, A. Orgiazzi, D. Routh, B. Schwarz, E. M. Bach, J. Bennett, U. Brose, T. Decaëns, B. König-Ries, M. Loreau, J. Mathieu, C. Mulder, W. H. van der Putten, K. S. Ramirez, M. C. Rillig, D. Russell, M. Rutgers, M. P. Thakur, F. T. de Vries, D. H. Wall, D. A. Wardle, M. Arai, F. O. Ayuke, G. H. Baker, R. Beauséjour, J. C. Bedano, K. Birkhofer, E. Blanchart, B. Blossey, T. Bolger, R. L. Bradley, M. A. Callaham, Y. Capowiez, M. E. Caulfield, A. Choi, F. V. Crotty, A. Dávalos, D. J. Diaz Cosin, A. Dominguez, A. E. Duhour, N. van Eekeren, C. Emmerling, L. B. Falco, R. Fernández, S. J. Fonte, C. Fragoso, A. L. C. Franco, M. Fugère, A. T. Fusilero, S. Gholami, M. J. Gundale, M. Gutiérrez López, D. K. Hackenberger, L. M. Hernández, T. Hishi, A. R. Holdsworth, M. Holmstrup, K. N. Hopfensperger, E. Huerta Lwanga, V. Huhta, T. T. Hurisso, B. V. Iannone III, M. Iordache, M. Joschko, N. Kaneko, R. Kanianska, A. M. Keith, C. A. Kelly, M. L. Kernecker, J. Klaminder, A. W. Koné, Y. Kooch, S. T. Kukkonen, H. Lalthanzara, D. R. Lammel, I. M. Lebedev, Y. Li, J. B. Jesus Lidon, N. K. Lincoln, S. R. Loss, R. Marichal, R. Matula, J. H. Moos, G. Moreno, A. Morón-Ríos, B. Muys, J. Neirynck, L. Norgrove, M. Novo, V. Nuutinen, V. Nuzzo, M. Rahman P, J. Pansu, S. Paudel, G. Pérès, L. Pérez-Camacho, R. Piñeiro, J.-F. Ponge, M. I. Rashid, S. Rebollo, J. Rodeiro-Iglesias, M. Á. Rodríguez, A. M. Roth, G. X. Rousseau, A. Rozen, E. Sayad, L. van Schaik, B. C. Scharenbroch, M. Schirrmann, O. Schmidt, B. Schröder, J. Seeber, M. P. Shashkov, J. Singh, S. M. Smith, M. Steinwandter, J. A. Talavera, D. Trigo, J. Tsukamoto, A. W. de Valença, S. J. Vanek, I. Virto, A. A. Wackett, M. W. Warren, N. H. Wehr, J. K. Whalen, M. B. Wironen, V. Wolters, I. V. Zenkova, W. Zhang, E. K. Cameron, N. Eisenhauer.
[No authors listed] [No authors listed] Science. 2020 Jul 31;369(6503):eabd9834. doi: 10.1126/science.abd9834. Science. 2020. PMID: 32732396 No abstract available.
Ground and excited electronic structures of metal encapsulated nanocages: the cases of endohedral M@C20H20 (M = K, Rb, Ca, Sr) and M@C36H36 (M = Na, K, Rb).
Ariyarathna IR . Ariyarathna IR . Phys Chem Chem Phys. 2021 Sep 14;23(34):18588-18594. doi: 10.1039/d1cp03146e. Epub 2021 Aug 17. Phys Chem Chem Phys. 2021. PMID: 34612395
High-level electronic structure calculations were performed to analyze ground and excited states of neutral and cationic endohedral M@C(20)H(20) (M = K, Rb, Ca, Sr) and M@C(36)H(36) (M = Na, K, Rb). ...On the other hand, excited electronic spectra of …
High-level electronic structure calculations were performed to analyze ground and excited states of neutral and cationic endohedral M
Rosen's (M,R) system in Unified Modelling Language.
Zhang L, Williams RA, Gatherer D. Zhang L, et al. Biosystems. 2016 Jan;139:29-36. doi: 10.1016/j.biosystems.2015.12.006. Epub 2015 Dec 23. Biosystems. 2016. PMID: 26723228 Free article.
Robert Rosen's (M,R) system is an abstract biological network architecture that is allegedly non-computable on a Turing machine. If (M,R) is truly non-computable, there are serious implications for the modelling of large biological networks in computer software. ...
Robert Rosen's (M,R) system is an abstract biological network architecture that is allegedly non-computable on a Turing machine. If ( …
[Malassezia infections].
Sei Y. Sei Y. Med Mycol J. 2012;53(1):7-11. doi: 10.3314/mmj.53.7. Med Mycol J. 2012. PMID: 22467125 Free article. Japanese.
To date, the genus is composed of one non lipid-dependent species M. pachydermatis and lipid-dependent species M. furfur, M. sympodialis, M. globosa, M. obtusa, M. restricta, M. slooffiae, M. dermatis, M. yamatoensis, …
To date, the genus is composed of one non lipid-dependent species M. pachydermatis and lipid-dependent species M. furfur, M
Nineteen new species of Megaselia Rondani (Diptera, Phoridae) from Denmark.
Disney RHL, Bøggild E. Disney RHL, et al. Zootaxa. 2021 May 25;4975(2):306342. doi: 10.11646/zootaxa.4975.2.4. Zootaxa. 2021. PMID: 34186564
Nineteen new species, Megaselia culmenensis n. sp., M. cumrallum n. sp., M. dostrupensis n. sp., M. dravedskovensis n. sp., M. ehmsenae n. sp., M. falloclavis n. sp., M. fayesgadeensis n. sp., M. hobroensis n. sp.,M. hojeren …
Nineteen new species, Megaselia culmenensis n. sp., M. cumrallum n. sp., M. dostrupensis n. sp., M. dravedskovensis n. …
1,510,694 results
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