Magnetic behavior and ground spin states for coordination {L·[MII(Hal)2]3}3− assemblies (Hal = Cl or I) of radical trianion hexacyanohexaazatriphenylenes (L) with three coordinated high-spin FeII (S = 2) or CoII (S = 3/2) centers

Magnetic behavior and ground spin states for coordination {L·[MII(Hal)2]3}3− assemblies (Hal = Cl or I) of radical trianion hexacyanohexaazatriphenylenes (L) with three coordinated high-spin FeII (S = 2) or CoII (S = 3/2) centers

A series of trianion assemblies of hexaazatriphenylenehexacarbonitrile {HAT(CN)6} and hexaazatrinaphthylenehexacarbonitrile {HATNA(CN)6} with three Fe(ii) or Co(ii) ions: {cryptand(K+)}3·{HATNA(CN)6·(FeIII2)3}3−·2C6H4Cl2 (1), {cryptand(K+)}3·{HATNA(CN)6·(CoIII2)3}3−·2C6H4Cl2 (2), and (CV+)3·{HAT(CN)...

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Veröffentlicht in:Dalton transactions : an international journal of inorganic chemistry 2023-08, Vol.52 (32), p.11222-11233
Hauptverfasser: Mikhailenko, Maxim V, Ivanov, Vladislav V, Shestakov, Alexander F, Kuzmin, Aleksey V, Khasanov, Salavat S, Otsuka, Akihiro, Yamochi, Hideki, Kitagawa, Hiroshi, Konarev, Dmitri V
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Antiferromagnetism
Assemblies
Cooling
Couplings
Density functional theory
Ligands
Magnetic properties
Radicals
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container_issue 32
container_start_page 11222
container_title Dalton transactions : an international journal of inorganic chemistry
container_volume 52
creator Mikhailenko, Maxim V
Ivanov, Vladislav V
Shestakov, Alexander F
Kuzmin, Aleksey V
Khasanov, Salavat S
Otsuka, Akihiro
Yamochi, Hideki
Kitagawa, Hiroshi
Konarev, Dmitri V
description A series of trianion assemblies of hexaazatriphenylenehexacarbonitrile {HAT(CN)6} and hexaazatrinaphthylenehexacarbonitrile {HATNA(CN)6} with three Fe(ii) or Co(ii) ions: {cryptand(K+)}3·{HATNA(CN)6·(FeIII2)3}3−·2C6H4Cl2 (1), {cryptand(K+)}3·{HATNA(CN)6·(CoIII2)3}3−·2C6H4Cl2 (2), and (CV+)3·{HAT(CN)6·(CoIICl2)3}3−·0.5(CVCl)·2.5C6H4Cl2 (3) are synthesized (CVCl = crystal violet). Salt 1 has a χMT value of 9.80 emu K mol−1 at 300 K, indicating a contribution of three high-spin FeII (S = 2) and one S = 1/2 of HATNA(CN)6·3−. The χMT value increases with cooling up to 12.92 emu K mol−1 at 28 K, providing a positive Weiss temperature of +20 K. Such behavior is described using a strong antiferromagnetic coupling between S = 2 and S = 1/2 with J1 = −82.1 cm−1 and a weaker FeII–FeII antiferromagnetic coupling with J2 = −7.0 cm−1. As a result, the spins of three Fe(ii) ions (S = 2) align parallel to each other forming a high-spin S = 11/2 system. Density functional theory (DFT) calculations support a high-spin state of CoII (S = 3/2) for 2 and 3. However, the χMT value of 2 and 3 is 2.25 emu K mol−1 at 300 K, which is smaller than 6 emu K mol−1 calculated for the system with three independent S = 3/2 and one S = 1/2 spins. In contrast to 1, the χMT values decrease with cooling to 0.13–0.36 emu K mol−1 at 1.9 K, indicating that spins of cobalt atoms align antiparallel to each other. Data fitting using PHI software for the model consisting of three high-spin Co(ii) ions and an S = 1/2 radical ligand shows very large CoII–L·3− coupling for 2 and 3 with J1 values of −442 and −349 cm−1. The CoII–CoII coupling via the ligand (J2) is also large, being −100 and −84 cm−1, respectively, which is more than 10 times larger than that of 1. One of the reasons for the J2 increase may be the shortening of the Co–N(L) bonds in 3 and 2 to 2.02(2) and 1.993(12) Å. DFT calculations support the population of the quartet state for the Co3 system, whereas the high-spin decet (S = 9/2) state is positioned higher by 680 cm−1 and is not populated at 300 K. This is explained by the large CoII–CoII coupling. Thus, a balance between J1 and J2 couplings provides parallel or antiparallel alignment of the FeII and CoII spins, leading to high- or low-spin ground states of {L·[MII(Hal)2]3}3−.
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Salt 1 has a χMT value of 9.80 emu K mol−1 at 300 K, indicating a contribution of three high-spin FeII (S = 2) and one S = 1/2 of HATNA(CN)6·3−. The χMT value increases with cooling up to 12.92 emu K mol−1 at 28 K, providing a positive Weiss temperature of +20 K. Such behavior is described using a strong antiferromagnetic coupling between S = 2 and S = 1/2 with J1 = −82.1 cm−1 and a weaker FeII–FeII antiferromagnetic coupling with J2 = −7.0 cm−1. As a result, the spins of three Fe(ii) ions (S = 2) align parallel to each other forming a high-spin S = 11/2 system. Density functional theory (DFT) calculations support a high-spin state of CoII (S = 3/2) for 2 and 3. However, the χMT value of 2 and 3 is 2.25 emu K mol−1 at 300 K, which is smaller than 6 emu K mol−1 calculated for the system with three independent S = 3/2 and one S = 1/2 spins. In contrast to 1, the χMT values decrease with cooling to 0.13–0.36 emu K mol−1 at 1.9 K, indicating that spins of cobalt atoms align antiparallel to each other. Data fitting using PHI software for the model consisting of three high-spin Co(ii) ions and an S = 1/2 radical ligand shows very large CoII–L·3− coupling for 2 and 3 with J1 values of −442 and −349 cm−1. The CoII–CoII coupling via the ligand (J2) is also large, being −100 and −84 cm−1, respectively, which is more than 10 times larger than that of 1. One of the reasons for the J2 increase may be the shortening of the Co–N(L) bonds in 3 and 2 to 2.02(2) and 1.993(12) Å. DFT calculations support the population of the quartet state for the Co3 system, whereas the high-spin decet (S = 9/2) state is positioned higher by 680 cm−1 and is not populated at 300 K. This is explained by the large CoII–CoII coupling. Thus, a balance between J1 and J2 couplings provides parallel or antiparallel alignment of the FeII and CoII spins, leading to high- or low-spin ground states of {L·[MII(Hal)2]3}3−.</description><identifier>ISSN: 1477-9226</identifier><identifier>EISSN: 1477-9234</identifier><identifier>DOI: 10.1039/d3dt01571h</identifier><language>eng</language><publisher>Cambridge: Royal Society of Chemistry</publisher><subject>Antiferromagnetism ; Assemblies ; Cooling ; Couplings ; Density functional theory ; Ligands ; Magnetic properties ; Radicals</subject><ispartof>Dalton transactions : an international journal of inorganic chemistry, 2023-08, Vol.52 (32), p.11222-11233</ispartof><rights>Copyright Royal Society of Chemistry 2023</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,777,781,27905,27906</link.rule.ids></links><search><creatorcontrib>Mikhailenko, Maxim V</creatorcontrib><creatorcontrib>Ivanov, Vladislav V</creatorcontrib><creatorcontrib>Shestakov, Alexander F</creatorcontrib><creatorcontrib>Kuzmin, Aleksey V</creatorcontrib><creatorcontrib>Khasanov, Salavat S</creatorcontrib><creatorcontrib>Otsuka, Akihiro</creatorcontrib><creatorcontrib>Yamochi, Hideki</creatorcontrib><creatorcontrib>Kitagawa, Hiroshi</creatorcontrib><creatorcontrib>Konarev, Dmitri V</creatorcontrib><title>Magnetic behavior and ground spin states for coordination {L·[MII(Hal)2]3}3− assemblies (Hal = Cl or I) of radical trianion hexacyanohexaazatriphenylenes (L) with three coordinated high-spin FeII (S = 2) or CoII (S = 3/2) centers</title><title>Dalton transactions : an international journal of inorganic chemistry</title><description>A series of trianion assemblies of hexaazatriphenylenehexacarbonitrile {HAT(CN)6} and hexaazatrinaphthylenehexacarbonitrile {HATNA(CN)6} with three Fe(ii) or Co(ii) ions: {cryptand(K+)}3·{HATNA(CN)6·(FeIII2)3}3−·2C6H4Cl2 (1), {cryptand(K+)}3·{HATNA(CN)6·(CoIII2)3}3−·2C6H4Cl2 (2), and (CV+)3·{HAT(CN)6·(CoIICl2)3}3−·0.5(CVCl)·2.5C6H4Cl2 (3) are synthesized (CVCl = crystal violet). Salt 1 has a χMT value of 9.80 emu K mol−1 at 300 K, indicating a contribution of three high-spin FeII (S = 2) and one S = 1/2 of HATNA(CN)6·3−. The χMT value increases with cooling up to 12.92 emu K mol−1 at 28 K, providing a positive Weiss temperature of +20 K. Such behavior is described using a strong antiferromagnetic coupling between S = 2 and S = 1/2 with J1 = −82.1 cm−1 and a weaker FeII–FeII antiferromagnetic coupling with J2 = −7.0 cm−1. As a result, the spins of three Fe(ii) ions (S = 2) align parallel to each other forming a high-spin S = 11/2 system. Density functional theory (DFT) calculations support a high-spin state of CoII (S = 3/2) for 2 and 3. However, the χMT value of 2 and 3 is 2.25 emu K mol−1 at 300 K, which is smaller than 6 emu K mol−1 calculated for the system with three independent S = 3/2 and one S = 1/2 spins. In contrast to 1, the χMT values decrease with cooling to 0.13–0.36 emu K mol−1 at 1.9 K, indicating that spins of cobalt atoms align antiparallel to each other. Data fitting using PHI software for the model consisting of three high-spin Co(ii) ions and an S = 1/2 radical ligand shows very large CoII–L·3− coupling for 2 and 3 with J1 values of −442 and −349 cm−1. The CoII–CoII coupling via the ligand (J2) is also large, being −100 and −84 cm−1, respectively, which is more than 10 times larger than that of 1. One of the reasons for the J2 increase may be the shortening of the Co–N(L) bonds in 3 and 2 to 2.02(2) and 1.993(12) Å. DFT calculations support the population of the quartet state for the Co3 system, whereas the high-spin decet (S = 9/2) state is positioned higher by 680 cm−1 and is not populated at 300 K. This is explained by the large CoII–CoII coupling. Thus, a balance between J1 and J2 couplings provides parallel or antiparallel alignment of the FeII and CoII spins, leading to high- or low-spin ground states of {L·[MII(Hal)2]3}3−.</description><subject>Antiferromagnetism</subject><subject>Assemblies</subject><subject>Cooling</subject><subject>Couplings</subject><subject>Density functional theory</subject><subject>Ligands</subject><subject>Magnetic properties</subject><subject>Radicals</subject><issn>1477-9226</issn><issn>1477-9234</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><recordid>eNpdUD1vFDEQXUVEIiQ0_AJLae6KJfbYe5stKNApHytdlCJQIRTN2bO3jjb2YfsgAdFT82fo-Smp-BnxQgIS1cy89-a90RTFC8FfCi6bAyNN4qKqRb9V7AhV12UDUj3528PsafEsxivOAXgFO8WvM1w5SlazJfX40frA0Bm2Cn6TS1xbx2LCRJF1mdLeB2MdJusd-7L4-ePdWdtOTnGYwnv5Vd59-84wRrpeDjZvjAR7xeYDy6vtlPmOBTRWZzQFi2406ekG9S06Pzb4GTOx7sndDuRGh8WUfbKpZ6kPRP_iybDervry933H1LZscpGTYDomzf3jLA8yosklCnGv2O5wiPT8oe4Wb4-P3sxPy8X5STt_vSjXQs1SCRJAkkTe5IdVTSWBd6IDLQ03wphOG0MADV_WVUXYadUsueFSCY76kCPK3WLyx3cd_IcNxXR5baOmYUBHfhMv4VCpWd3ADLJ0_z_pld8El6_LqoqrWtaVkve0r5Ka</recordid><startdate>20230815</startdate><enddate>20230815</enddate><creator>Mikhailenko, Maxim V</creator><creator>Ivanov, Vladislav V</creator><creator>Shestakov, Alexander F</creator><creator>Kuzmin, Aleksey V</creator><creator>Khasanov, Salavat S</creator><creator>Otsuka, Akihiro</creator><creator>Yamochi, Hideki</creator><creator>Kitagawa, Hiroshi</creator><creator>Konarev, Dmitri V</creator><general>Royal Society of Chemistry</general><scope>7SR</scope><scope>7U5</scope><scope>8BQ</scope><scope>8FD</scope><scope>JG9</scope><scope>L7M</scope><scope>7X8</scope></search><sort><creationdate>20230815</creationdate><title>Magnetic behavior and ground spin states for coordination {L·[MII(Hal)2]3}3− assemblies (Hal = Cl or I) of radical trianion hexacyanohexaazatriphenylenes (L) with three coordinated high-spin FeII (S = 2) or CoII (S = 3/2) centers</title><author>Mikhailenko, Maxim V ; Ivanov, Vladislav V ; Shestakov, Alexander F ; Kuzmin, Aleksey V ; Khasanov, Salavat S ; Otsuka, Akihiro ; Yamochi, Hideki ; Kitagawa, Hiroshi ; Konarev, Dmitri V</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p146t-23223e3a09477595320f1f2c3d0d1ddfcdde2290b755eafc49b0d03410ac80aa3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Antiferromagnetism</topic><topic>Assemblies</topic><topic>Cooling</topic><topic>Couplings</topic><topic>Density functional theory</topic><topic>Ligands</topic><topic>Magnetic properties</topic><topic>Radicals</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Mikhailenko, Maxim V</creatorcontrib><creatorcontrib>Ivanov, Vladislav V</creatorcontrib><creatorcontrib>Shestakov, Alexander F</creatorcontrib><creatorcontrib>Kuzmin, Aleksey V</creatorcontrib><creatorcontrib>Khasanov, Salavat S</creatorcontrib><creatorcontrib>Otsuka, Akihiro</creatorcontrib><creatorcontrib>Yamochi, Hideki</creatorcontrib><creatorcontrib>Kitagawa, Hiroshi</creatorcontrib><creatorcontrib>Konarev, Dmitri V</creatorcontrib><collection>Engineered Materials Abstracts</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Materials Research Database</collection><collection>Advanced Technologies Database with Aerospace</collection><collection>MEDLINE - Academic</collection><jtitle>Dalton transactions : an international journal of inorganic chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Mikhailenko, Maxim V</au><au>Ivanov, Vladislav V</au><au>Shestakov, Alexander F</au><au>Kuzmin, Aleksey V</au><au>Khasanov, Salavat S</au><au>Otsuka, Akihiro</au><au>Yamochi, Hideki</au><au>Kitagawa, Hiroshi</au><au>Konarev, Dmitri V</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Magnetic behavior and ground spin states for coordination {L·[MII(Hal)2]3}3− assemblies (Hal = Cl or I) of radical trianion hexacyanohexaazatriphenylenes (L) with three coordinated high-spin FeII (S = 2) or CoII (S = 3/2) centers</atitle><jtitle>Dalton transactions : an international journal of inorganic chemistry</jtitle><date>2023-08-15</date><risdate>2023</risdate><volume>52</volume><issue>32</issue><spage>11222</spage><epage>11233</epage><pages>11222-11233</pages><issn>1477-9226</issn><eissn>1477-9234</eissn><abstract>A series of trianion assemblies of hexaazatriphenylenehexacarbonitrile {HAT(CN)6} and hexaazatrinaphthylenehexacarbonitrile {HATNA(CN)6} with three Fe(ii) or Co(ii) ions: {cryptand(K+)}3·{HATNA(CN)6·(FeIII2)3}3−·2C6H4Cl2 (1), {cryptand(K+)}3·{HATNA(CN)6·(CoIII2)3}3−·2C6H4Cl2 (2), and (CV+)3·{HAT(CN)6·(CoIICl2)3}3−·0.5(CVCl)·2.5C6H4Cl2 (3) are synthesized (CVCl = crystal violet). Salt 1 has a χMT value of 9.80 emu K mol−1 at 300 K, indicating a contribution of three high-spin FeII (S = 2) and one S = 1/2 of HATNA(CN)6·3−. The χMT value increases with cooling up to 12.92 emu K mol−1 at 28 K, providing a positive Weiss temperature of +20 K. Such behavior is described using a strong antiferromagnetic coupling between S = 2 and S = 1/2 with J1 = −82.1 cm−1 and a weaker FeII–FeII antiferromagnetic coupling with J2 = −7.0 cm−1. As a result, the spins of three Fe(ii) ions (S = 2) align parallel to each other forming a high-spin S = 11/2 system. Density functional theory (DFT) calculations support a high-spin state of CoII (S = 3/2) for 2 and 3. However, the χMT value of 2 and 3 is 2.25 emu K mol−1 at 300 K, which is smaller than 6 emu K mol−1 calculated for the system with three independent S = 3/2 and one S = 1/2 spins. In contrast to 1, the χMT values decrease with cooling to 0.13–0.36 emu K mol−1 at 1.9 K, indicating that spins of cobalt atoms align antiparallel to each other. Data fitting using PHI software for the model consisting of three high-spin Co(ii) ions and an S = 1/2 radical ligand shows very large CoII–L·3− coupling for 2 and 3 with J1 values of −442 and −349 cm−1. The CoII–CoII coupling via the ligand (J2) is also large, being −100 and −84 cm−1, respectively, which is more than 10 times larger than that of 1. One of the reasons for the J2 increase may be the shortening of the Co–N(L) bonds in 3 and 2 to 2.02(2) and 1.993(12) Å. DFT calculations support the population of the quartet state for the Co3 system, whereas the high-spin decet (S = 9/2) state is positioned higher by 680 cm−1 and is not populated at 300 K. This is explained by the large CoII–CoII coupling. Thus, a balance between J1 and J2 couplings provides parallel or antiparallel alignment of the FeII and CoII spins, leading to high- or low-spin ground states of {L·[MII(Hal)2]3}3−.</abstract><cop>Cambridge</cop><pub>Royal Society of Chemistry</pub><doi>10.1039/d3dt01571h</doi><tpages>12</tpages></addata></record>
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subjects Antiferromagnetism
Assemblies
Cooling
Couplings
Density functional theory
Ligands
Magnetic properties
Radicals
title Magnetic behavior and ground spin states for coordination {L·[MII(Hal)2]3}3− assemblies (Hal = Cl or I) of radical trianion hexacyanohexaazatriphenylenes (L) with three coordinated high-spin FeII (S = 2) or CoII (S = 3/2) centers
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