
<div class="publication-info">
	<h3>Direct C[sbnd]C coupling of phthalazine-N-oxide with the carboranyl anion – An original approach to C-modification of carboranes / Varaksin M.V., Galliamova L.A., Stepanova O.A., Eltsov O.S., Chupakhin O.N., Charushin V.N. // Journal of Organometallic Chemistry. - 2017. - V. 830, l. . - P. 93-99.</h3>
	<dl>
		<dt>ISSN:</dt><dd>0022328X</dd>
		<dt>Type:</dt><dd>Article</dd>
				<dt>Abstract:</dt><dd>An original transition metal-free approach based on the direct C[sbnd]C coupling of phtalazine-N-oxide with the carboranyl anion has been developed. A series of the novel C-modified closo-carboranes such as 1-(2-oxido-3-acyl-3,4-dihydrophtalazinyl-4-yl)-1,2-dicarba-closo-dodecaboranes and 1-(2-formylbenzyl)-1,2-dicarba-closo-dodecaborane have been obtained. The synthesized boron clusters could be of interest as promising building blocks in design of BNCT delivery agents. © 2016</dd>
		<dt>Author keywords:</dt><dd>Carboranes; C[sbnd]C coupling; Phthalazine-N-oxide</dd>
		<dt>Index keywords:</dt><dd>нет данных</dd>
		<dt>DOI:</dt><dd>10.1016/j.jorganchem.2016.11.0</dd>
		<dt>Смотреть в Scopus:</dt>
			<dd>
								<a href="https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006789489&doi=10.1016%2fj.jorganchem.2016.11.032&partnerID=40&md5=b40792b32f0b8bd08cd03b45806f459f" target="_blank">https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006789489&amp;doi=10.1016%2fj.jorganchem.2016.11.032&amp;partnerID=40&amp;md5=b40792b32f0b8bd08cd03b45806f459f</a>
							</dd>

		<dt>Соавторы в МНС:</dt>
		<dd>
				</dd>

				<dt>Другие поля</dt>
		<dd>
			<table class="v-table">
			<thead>
				<tr>
					<td class="w8 gar">Поле</td>
					<td>Значение</td>
				</tr>
			</thead>
			<tbody>
								<tr>
						<td class="gar">Link</td>
						<td>https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006789489&doi=10.1016%2fj.jorganchem.2016.11.032&partnerID=40&md5=b40792b32f0b8bd08cd03b45806f459f</td>
					</tr>
										<tr>
						<td class="gar">Affiliations</td>
						<td>Ural Federal University, 19 Mira Str., Ekaterinburg, Russian Federation; Institute of Organic Synthesis, Ural Branch of the Russian Academy of Sciences, 22 S. Kovalevskaya Str., Ekaterinburg, Russian Federation</td>
					</tr>
										<tr>
						<td class="gar">Author Keywords</td>
						<td>Carboranes; C[sbnd]C coupling; Phthalazine-N-oxide</td>
					</tr>
										<tr>
						<td class="gar">Funding Details</td>
						<td>16-03-00958, RFBR, Russian Foundation for Basic Research; 4.6351.2017/BCh, Minobrnauka, Ministry of Education and Science of the Russian Federation</td>
					</tr>
										<tr>
						<td class="gar">Funding Text</td>
						<td>The research was supported by the Ministry of Education and Science of the Russian Federation (Project № 4.6351.2017/BCh, synthesis of carboranes 4a–f) and the Russian Foundation for Basic Research (Project № 16-03-00958, synthesis of carborane 5).</td>
					</tr>
										<tr>
						<td class="gar">References</td>
						<td>Grimes, R.N., Carboranes (2011), second ed. Academic Press New York; Douvris, C., Michl, J., (2013) Chem. Rev., 113, pp. PR179-PR233; Teixidor, F., Vinñas, C., Demonceau, A., Nunñez, R., (2003) Pure Appl. Chem., 75, pp. 1305-1313; Scholz, M., Hey-Hawkins, E., (2011) Chem. Rev., 111, pp. 7035-7062; Ban, H.S., Nakamura, H., (2015) Chem. Rec., 15, pp. 616-635; Sadrerafi, K., Zargham, E.O., Lee, M.W., Jr., (2016) Bioorg. Med. Chem. Lett., 26, pp. 618-621; Otero, R., Seoane, S., Sigueiro, R., Belorusova, A.Y., Maestro, M.A., Perez-Fernandez, R., Rochel, N., Mourino, A., (2016) Chem. Sci., 7, pp. 1033-1037; Sivaev, I.B., Bregadze, V.V., (2009) Eur. J. Inorg. Chem., 11, pp. 1433-1450; Issa, F., Ioppolo, J.A., Rendina, L.M., Boron and gadolinium neutron capture therapy (2013) Comprehensive Inorganic Chemistry II, 3, pp. 877-900. , J. Reedijk K. Poeppelmeier Elsevier Oxford; Khalil, A., Ishita, K., Ali, T., Tjarks, W., (2013) Future Med. Chem., 5, pp. 677-692; Valliant, J.F., Guenther, K.J., King, A.S., Morel, P., Schaffer, P., Sogbein, O.O., Stephenson, K.A., (2002) Coord. Chem. Rev., 232, pp. 173-230; Cabrera-GonzaÁlez, J., Xochitiotzi-Flores, E., Vinñas, C., Teixidor, F., García-Ortega, H., Farfaán, N., Santillan, R., Nuánñez, R., (2015) Inorg. Chem., 54, pp. 5021-5031; Housecroft, C.E., (2015) J. Organomet. Chem., 798, pp. 218-228; Jiang, Y., Li, X., Huang, F., Zhou, Y., Du, L., Macromol, J., (2015) Sci. Part A Pure Appl. Chem., 52, pp. 476-484; Zhu, Y., Zhao, W., Hosmane, N.S., (2015) J. Organomet. Chem., 798, pp. 80-85; Yue, J., Li, Y., Zhao, Y., Xiang, D., Dai, Y., (2016) Polym. Degrad. Stab., 129, pp. 286-295; Nuánñez, R., Romero, I., Teixidor, F., Vinñas, C., (2016) Chem. Soc. Rev., 45, pp. 5147-5173; Ma, N.-N., Li, S.-J., Yan, L.-K., Qiu, Y.-Q., Su, Z.-M., (2014) Dalton Trans., 43, pp. 5069-5075; Li, X.-Q., Wang, C.-H., Zhang, M.-Y., Zou, H.-Y., Ma, N.-N., Qiu, Y.-Q., (2014) J. Organomet. Chem., 749, pp. 327-334; Entwistle, C.D., Marder, T.B., (2002) Angew. Chem. Int. Ed., 41, pp. 2927-2931; Wang, H.-Q., Wang, W.-Y., Fang, X.-Y., Wang, L., Zhu, C.-L., Chen, Z.-Z., Chen, H., Qiu, Y.-Q., (2016) J. Mol. Graph. Model., 67, pp. 111-118; McArthur, S.G., Geng, L., Guo, J., Lavallo, V., (2015) Inorg. Chem. Front., 2, pp. 1101-1104; Li, T.C., Fabregat-Santiago, F., Farha, O.K., Spokoyny, A.M., Raga, S.R., Bisquert, J., Mirkin, C.A., Hupp, J.T., (2011) J. Phys. Chem. C, 115, pp. 11257-11264; Carter, T.J., Mohtadi, R., Arthur, T.S., Mizuno, F., Zhang, R., Shirai, S., Kampf, J.W., (2014) Angew. Chem. Int. Ed., 53, pp. 3173-3177; Schinazi, R.F., Hurwitz, S.J., Liberman, I., Glazkova, Y., Mourier, N.S., Olson, J., Keane, T., (2004) Nucleosides Nucleotides Nucleic Acids, 23, pp. 291-306; Bednarska, K., Olejniczak, A.B., Wojtczak, B.A., Sulowska, Z., Lesnikowski, Z.J., (2010) ChemMedChem, 5, pp. 749-756; Wojtczak, B.A., Olejniczak, A.B., Wang, L., Eriksson, S., Lesnikowski, Z.J., (2013) Nucleosides Nucleotides Nucleic Acids, 32, pp. 571-588; Scholz, M., Blobaum, A.L., Marnett, L.J., Hey-Hawkins, E., (2011) Bioorg. Med. Chem., 19, pp. 3242-3248; Endo, Y., Yoshimi, T., Kimura, K., Itai, A., (1999) Bioorg. Med. Chem. Lett., 9, pp. 2561-2564; Yaoa, Z.-J., Jin, G.-X., (2013) Coord. Chem. Rev., 257, pp. 2522-2535; Tsang, M.Y., Vinñas, C., Teixidor, F., Planas, J.G., Conde, N., SanMartin, R., Herrero, M.T., Choquesillo-Lazarte, D., (2014) Inorg. Chem., 53, pp. 9284-9295; Wang, X., Jin, G.-X., (2005) Chem. Eur. J., 11, pp. 5758-5764; Yaoa, Z.-J., Deng, W., (2016) Coord. Chem. Rev., 309, pp. 21-35; Asay, M.J., Fisher, S.P., Lee, S.E., Tham, F.S., Borchardt, D., Lavallo, V., (2015) Chem. Commun., 51, pp. 5359-5362; Lee, Y.H., Park, J., Jo, S.-J., Kim, M., Lee, J., Lee, S.U., Lee, M.H., (2015) Chem. Eur. J., 21, pp. 2052-2061; Zhu, L., Tang, X., Yu, Q., Lv, W., Yan, H., Zhao, Q., Huang, W., (2015) Chem. Eur. J., 21, pp. 4721-4730; Lee, Y.H., Park, J., Lee, J., Lee, S.U., Lee, M.H., (2015) J. Am. Chem. Soc., 137, pp. 8018-8021; Li, X., Yan, H., Zhao, Q., (2016) Chem. Eur. J., 22, pp. 1888-1898; Böhling, L., Brockhinke, A., Kahlert, J., Weber, L., Harder, R.A., Yufit, D.S., Howard, J.A.K., Fox, M.A., (2016) Eur. J. Inorg. Chem., 3, pp. 403-412; Kirlikovali, K.O., Axtell, J.C., Gonzalez, A., Phung, A.C., Khan, S.I., Spokoyny, A.M., (2016) Chem. Sci., 7, pp. 5132-5138; Hawthorne, M.F., Maderna, A., (1999) Chem. Rev., 99, pp. 3421-3434; Larhed, M., (2013) Cross Coupling and Heck-type Reactions 03: Metal-catalyzed Heck-type Reactions and C-c Cross Coupling via C-h Activation, , Thieme Medical Publishers Stuttgart; Guo, X.-X., Gu, D.-W., Wu, Z., Zhang, W., (2015) Chem. Rev., 115, pp. 1622-1651; Yoshikai, N., Wei, Y., (2013) Asian J. Org. Chem., 2, pp. 466-478; Kozhushkov, S.I., Potukuchi, H.K., Ackermann, L., (2013) Catal. Sci. Technol., 3, pp. 562-571; Charushin, V., Chupakhin, O., Metal free C-H functionalization of aromatics. Nucleophilic displacement of hydrogen (2014) The Series Topics in Heterocyclic Chemistry, 37, p. 283. , B.U.W. Maes J. Cossy S. Polanc Springer Switzerland; Chupakhin, O.N., Charushin, V.N., (2016) Tetrahedron Lett., 57, pp. 2665-2672; Prokhorov, A.M., Kozhevnikov, D.N., Rusinov, V.L., Chupakhin, O.N., Glukhov, I.V., Antipin, M.Y., Kazheva, O.N., Dyachenko, O.A., (2006) Organometallics, 25, pp. 2972-2977; Prokhorov, A.M., Hofbeck, T., Czerwieniec, R., Suleymanova, A.F., Kozhevnikov, D.N., Yersin, H., (2014) J. Am. Chem. Soc., 136, pp. 9637-9642; Galliamova, L.A., Varaksin, M.V., Chupakhin, O.N., Slepukhin, P.A., Charushin, V.N., (2015) Organometallics, 34, pp. 5285-5290; Joule, J.A., Mills, K., Heterocyclic Chemistry (2013), fifth ed. Blackwell Publishing Chichester; Zhang, Q.-R., Xue, D.-Q., He, P., Shao, K.-P., Chen, P.-J., Gu, Y.-F., Ren, J.-L., Liu, H.-M., (2014) Bioorg. Med. Chem. Lett., 24, pp. 1236-1238; Nammalwar, B., Bunce, R.A., Berlin, K.D., Bourne, C.R., Bourne, P.C., Barrow, E.W., Barrow, W.W., (2012) Eur. J. Med. Chem., 54, pp. 387-396; Sun, X.-Y., Wei, C.-X., Deng, X.-Q., Sun, Z.-G., Quan, Z.-S., (2010) Pharmacol. Rep., 62, pp. 273-277; Ryu, C.-K., Park, R.-E., Ma, M.-Y., Nho, J.-H., (2007) Bioorg. Med. Chem. Lett., 17, pp. 2577-2580; Paige, M., Kosturko, G., Bulut, G., Miessau, M., Rahim, S., Toretsky, J.A., Brown, M.L., Üren, A., (2014) Bioorg. Med. Chem., 22, pp. 478-487; Chung, K.F., (2006) Eur. J. Pharmacol., 533, pp. 110-117; Street, L.J., Sternfeld, F., Jelley, R.A., Reeve, A.J., Carling, R.W., Moore, K.W., McKernan, R.M., MacLeod, A.M., (2004) J. Med. Chem., 47, pp. 3642-3657; Muddala, N.P., Nammalwar, B., Selvaraju, S., Bourne, C.R., Henry, M., Bunce, R.A., Berlin, K.D., Barrow, W.W., (2015) Molecules, 20, pp. 7222-7244; Nammalwar, B., Muddala, N.P., Bourne, C.R., Henry, M., Bourne, P.C., Bunce, R.A., Barrow, E.W., Barrow, W.W., (2014) Molecules, 19, pp. 3231-3246; Popescu, A.-R., Musteti, A.D., Ferrer-Ugalde, A., Vinñas, C., Nuánñez, R., Teixidor, F., (2012) Chem. Eur. J., 18, pp. 3174-3184; Minkin, V.I., Bren, V.A., Dubonosov, A.D., Tsukanov, A.V., (2012) Chem. Heterocycl. Compd., 48, pp. 107-116; Varaksin, M.V., Utepova, I.A., Chupakhin, O.N., (2012) Chem. Heterocycl. Compd., 48, pp. 1213-1219; Varaksin, M.V., Utepova, I.A., Chupakhin, O.N., Charushin, V.N., (2013) Macroheterocycles, 6, pp. 308-314; Mąkosza, M., (2011) Synthesis, 15, pp. 2341-2356; Mąkosza, M., (2009) Arkivoc, 4, pp. 136-154; Varaksin, M.V., Utepova, I.A., Chupakhin, O.N., Charushin, V.N., (2015) Tetrahedron, 71, pp. 7077-7082; Ranieri, K., Conradi, M., Chavant, P.-Y., Blandin, V., Barner-Kowollik, C., Junkers, T., (2012) Aust. J. Chem., 65, pp. 1110-1116; Nash, K.M., Rockenbauer, A., Villamena, F.A., (2012) Chem. Res. Toxicol., 25, pp. 1581-1597; Beziere, N., Frapart, Y., Rockenbauer, A., Boucher, J.-L., Mansuy, D., Peyrot, F., (2010) Free Radic. Biol. Med., 49, pp. 437-446; Vicente, M.G.H., Nurco, D.J., Shetty, S.J., Osterloh, J., Ventre, E., Hegde, V., Deutsch, W.A., (2002) J. Photochem. Photobiol. B Biol., 68, pp. 123-132; Gottumukkala, V., Luguya, R., Fronczek, F.R., Vicente, M.G.H., (2005) Bioorg. Med. Chem., 13, pp. 1633-1640; Vicente, M.G.H., Shetty, S.J., Wickramasinghea, A., Smith, K.M., (2000) Tetrahedron Lett., 41, pp. 7623-7627; Sheldrick, G.M., (2008) Acta Crystallorg. Sect. A, 64, pp. 112-122; Clark, R.C., Reid, J.S., (1995) Acta Crystallorg. Sect. A, 51, pp. 887-897; Balicki, R., Golinski, J., (2000) Synth. Commun., 30, pp. 1529-1534</td>
					</tr>
										<tr>
						<td class="gar">Correspondence Address</td>
						<td>Chupakhin, O.N.; Ural Federal University, 19 Mira Str., Russian Federation; email: chupakhin@ios.uran.ru</td>
					</tr>
										<tr>
						<td class="gar">Publisher</td>
						<td>Elsevier B.V.</td>
					</tr>
										<tr>
						<td class="gar">CODEN</td>
						<td>JORCA</td>
					</tr>
										<tr>
						<td class="gar">Language of Original Document</td>
						<td>English</td>
					</tr>
										<tr>
						<td class="gar">Abbreviated Source Title</td>
						<td>J. Organomet. Chem.</td>
					</tr>
										<tr>
						<td class="gar">Source</td>
						<td>Scopus</td>
					</tr>
								</tbody>
			</table>
		</dd>
			</dl>

</div>
Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006789489&doi=10.1016%2fj.jorganchem.2016.11.032&partnerID=40&md5=b40792b32f0b8bd08cd03b45806f459f
Affiliations	Ural Federal University, 19 Mira Str., Ekaterinburg, Russian Federation; Institute of Organic Synthesis, Ural Branch of the Russian Academy of Sciences, 22 S. Kovalevskaya Str., Ekaterinburg, Russian Federation
Author Keywords	Carboranes; C[sbnd]C coupling; Phthalazine-N-oxide
Funding Details	16-03-00958, RFBR, Russian Foundation for Basic Research; 4.6351.2017/BCh, Minobrnauka, Ministry of Education and Science of the Russian Federation
Funding Text	The research was supported by the Ministry of Education and Science of the Russian Federation (Project № 4.6351.2017/BCh, synthesis of carboranes 4a–f) and the Russian Foundation for Basic Research (Project № 16-03-00958, synthesis of carborane 5).
References	Grimes, R.N., Carboranes (2011), second ed. Academic Press New York; Douvris, C., Michl, J., (2013) Chem. Rev., 113, pp. PR179-PR233; Teixidor, F., Vinñas, C., Demonceau, A., Nunñez, R., (2003) Pure Appl. Chem., 75, pp. 1305-1313; Scholz, M., Hey-Hawkins, E., (2011) Chem. Rev., 111, pp. 7035-7062; Ban, H.S., Nakamura, H., (2015) Chem. Rec., 15, pp. 616-635; Sadrerafi, K., Zargham, E.O., Lee, M.W., Jr., (2016) Bioorg. Med. Chem. Lett., 26, pp. 618-621; Otero, R., Seoane, S., Sigueiro, R., Belorusova, A.Y., Maestro, M.A., Perez-Fernandez, R., Rochel, N., Mourino, A., (2016) Chem. Sci., 7, pp. 1033-1037; Sivaev, I.B., Bregadze, V.V., (2009) Eur. J. Inorg. Chem., 11, pp. 1433-1450; Issa, F., Ioppolo, J.A., Rendina, L.M., Boron and gadolinium neutron capture therapy (2013) Comprehensive Inorganic Chemistry II, 3, pp. 877-900. , J. Reedijk K. Poeppelmeier Elsevier Oxford; Khalil, A., Ishita, K., Ali, T., Tjarks, W., (2013) Future Med. Chem., 5, pp. 677-692; Valliant, J.F., Guenther, K.J., King, A.S., Morel, P., Schaffer, P., Sogbein, O.O., Stephenson, K.A., (2002) Coord. Chem. Rev., 232, pp. 173-230; Cabrera-GonzaÁlez, J., Xochitiotzi-Flores, E., Vinñas, C., Teixidor, F., García-Ortega, H., Farfaán, N., Santillan, R., Nuánñez, R., (2015) Inorg. Chem., 54, pp. 5021-5031; Housecroft, C.E., (2015) J. Organomet. Chem., 798, pp. 218-228; Jiang, Y., Li, X., Huang, F., Zhou, Y., Du, L., Macromol, J., (2015) Sci. Part A Pure Appl. Chem., 52, pp. 476-484; Zhu, Y., Zhao, W., Hosmane, N.S., (2015) J. Organomet. Chem., 798, pp. 80-85; Yue, J., Li, Y., Zhao, Y., Xiang, D., Dai, Y., (2016) Polym. Degrad. Stab., 129, pp. 286-295; Nuánñez, R., Romero, I., Teixidor, F., Vinñas, C., (2016) Chem. Soc. Rev., 45, pp. 5147-5173; Ma, N.-N., Li, S.-J., Yan, L.-K., Qiu, Y.-Q., Su, Z.-M., (2014) Dalton Trans., 43, pp. 5069-5075; Li, X.-Q., Wang, C.-H., Zhang, M.-Y., Zou, H.-Y., Ma, N.-N., Qiu, Y.-Q., (2014) J. Organomet. Chem., 749, pp. 327-334; Entwistle, C.D., Marder, T.B., (2002) Angew. Chem. Int. Ed., 41, pp. 2927-2931; Wang, H.-Q., Wang, W.-Y., Fang, X.-Y., Wang, L., Zhu, C.-L., Chen, Z.-Z., Chen, H., Qiu, Y.-Q., (2016) J. Mol. Graph. Model., 67, pp. 111-118; McArthur, S.G., Geng, L., Guo, J., Lavallo, V., (2015) Inorg. Chem. Front., 2, pp. 1101-1104; Li, T.C., Fabregat-Santiago, F., Farha, O.K., Spokoyny, A.M., Raga, S.R., Bisquert, J., Mirkin, C.A., Hupp, J.T., (2011) J. Phys. Chem. C, 115, pp. 11257-11264; Carter, T.J., Mohtadi, R., Arthur, T.S., Mizuno, F., Zhang, R., Shirai, S., Kampf, J.W., (2014) Angew. Chem. Int. Ed., 53, pp. 3173-3177; Schinazi, R.F., Hurwitz, S.J., Liberman, I., Glazkova, Y., Mourier, N.S., Olson, J., Keane, T., (2004) Nucleosides Nucleotides Nucleic Acids, 23, pp. 291-306; Bednarska, K., Olejniczak, A.B., Wojtczak, B.A., Sulowska, Z., Lesnikowski, Z.J., (2010) ChemMedChem, 5, pp. 749-756; Wojtczak, B.A., Olejniczak, A.B., Wang, L., Eriksson, S., Lesnikowski, Z.J., (2013) Nucleosides Nucleotides Nucleic Acids, 32, pp. 571-588; Scholz, M., Blobaum, A.L., Marnett, L.J., Hey-Hawkins, E., (2011) Bioorg. Med. Chem., 19, pp. 3242-3248; Endo, Y., Yoshimi, T., Kimura, K., Itai, A., (1999) Bioorg. Med. Chem. Lett., 9, pp. 2561-2564; Yaoa, Z.-J., Jin, G.-X., (2013) Coord. Chem. Rev., 257, pp. 2522-2535; Tsang, M.Y., Vinñas, C., Teixidor, F., Planas, J.G., Conde, N., SanMartin, R., Herrero, M.T., Choquesillo-Lazarte, D., (2014) Inorg. Chem., 53, pp. 9284-9295; Wang, X., Jin, G.-X., (2005) Chem. Eur. J., 11, pp. 5758-5764; Yaoa, Z.-J., Deng, W., (2016) Coord. Chem. 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Rev., 99, pp. 3421-3434; Larhed, M., (2013) Cross Coupling and Heck-type Reactions 03: Metal-catalyzed Heck-type Reactions and C-c Cross Coupling via C-h Activation, , Thieme Medical Publishers Stuttgart; Guo, X.-X., Gu, D.-W., Wu, Z., Zhang, W., (2015) Chem. Rev., 115, pp. 1622-1651; Yoshikai, N., Wei, Y., (2013) Asian J. Org. Chem., 2, pp. 466-478; Kozhushkov, S.I., Potukuchi, H.K., Ackermann, L., (2013) Catal. Sci. Technol., 3, pp. 562-571; Charushin, V., Chupakhin, O., Metal free C-H functionalization of aromatics. Nucleophilic displacement of hydrogen (2014) The Series Topics in Heterocyclic Chemistry, 37, p. 283. , B.U.W. Maes J. Cossy S. 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Correspondence Address	Chupakhin, O.N.; Ural Federal University, 19 Mira Str., Russian Federation; email: chupakhin@ios.uran.ru
Publisher	Elsevier B.V.
CODEN	JORCA
Language of Original Document	English
Abbreviated Source Title	J. Organomet. Chem.
Source	Scopus