Your search keyword '"MANGANESE clusters"' showing total 35 results

1. Regulated adsorption sites using atomically single cluster over biochar for efficient elemental mercury uptake

Author

Jiaxing Li, Hongli Li, Haomiao Xu, Qinyuan Hong, Leipeng Ji, Zhisong Liu, Yixiang Qiu, Wenjun Huang, Naiqiang Yan, and Zan Qu

Subjects

Biomass, Heteroatoms, Manganese clusters, Elemental mercury, Waste recycling, Environmental sciences, GE1-350, Agriculture

Abstract

Highlights A facile chelated coupled pyrolysis strategy was reported to prepare Mn single-cluster Hg0 adsorbent. The nitrogen-containing group in biomass determined the size of atomically dispersed manganese. The presence of oxygen and small size Mn clusters in biochar promoted Hg0 adsorption.

Published

2023

2. Regulated adsorption sites using atomically single cluster over biochar for efficient elemental mercury uptake.

Author

Li, Jiaxing, Li, Hongli, Xu, Haomiao, Hong, Qinyuan, Ji, Leipeng, Liu, Zhisong, Qiu, Yixiang, Huang, Wenjun, Yan, Naiqiang, and Qu, Zan

Subjects

*ADSORPTION (Chemistry), *BIOCHAR, *BIOMASS, *ENCAPSULATION (Catalysis), *MANGANESE clusters

Abstract

Carbon-based materials have been widely used in gaseous pollutant removal because of their sufficient surface functional groups; however, its removal efficiency for elemental mercury (Hg0) is low. In this study, we fabricated biomass using a chelated coupled pyrolysis strategy and further constructed the regulated adsorption sites for gaseous Hg0 uptake. A series of Mnδ-N2O2/BC with different manganese cluster sizes demonstrated that manganese clusters anchored on biochar acted as highly active and durable adsorbents for Hg0 immobilization, which increased the adsorption efficiency of Hg0 by up to 50%. Shrimp- and crab-based biochar adsorbents exhibited excellent Hg0 removal because of their chitosan-like structure. In particular, small Mn clusters and oxygen species around the defect led to a boost in the Hg0 adsorption by carbon. The results of density functional theory calculation revealed that the presence of oxygen in the carbon skeleton can tune the electrons of small-sized Mn clusters, thereby promoting the affinity of mercury atoms. The newly developed Mnδ-N2O2/BCshrimp had an adsorption capacity of 7.98–11.52 mg g−1 over a broad temperature range (50–200 °C) and showed a high tolerance to different industrial flue gases (H2O, NO, HCl, and SO2). These results provide novel green and low-carbon disposal methods for biomass resource utilization and industrial Hg0 emission control. Highlights: A facile chelated coupled pyrolysis strategy was reported to prepare Mn single-cluster Hg0 adsorbent. The nitrogen-containing group in biomass determined the size of atomically dispersed manganese. The presence of oxygen and small size Mn clusters in biochar promoted Hg0 adsorption. [ABSTRACT FROM AUTHOR]

Published

2023

3. Functional Capabilities of Silicon with Nanoclusters of Manganese Atoms.

Author

Bakhadirkhanov, M. K., Isamov, S. B., Zikrillaev, N. F., Iliev, Kh. M., Mavlonov, G. Kh., Koveshnikov, S. V., and Ibodullaev, Sh. N.

Abstract

The paper reports that silicon with nanoclusters of manganese atoms has unique electrical, photoelectric, magnetic, and photomagnetic properties that are absent in ordinary doped semiconductor materials. The samples revealed an anomalously high impurity photosensitivity in the region of λ = 1–3 μm, a large negative magnetoresistance at room temperature, and new thermomagnetic and photomagnetic effects, which were observed in the same sample. The optimal electrophysical parameters of the samples were found. A unique set of the observed physical effects allows the creation of fundamentally new multifunction sensors of physical quantities based on these materials. [ABSTRACT FROM AUTHOR]

Published

2020

4. Функциональные возможности кремния с нанокластерами атомов марганца

Author

Бахадирханов, М. К., Исамов, С. Б., Зикриллаев, Н. Ф., Илиев, Х. М., Мавлонов, Г. Х., Ковешников, С. В., and Ибодуллаев, Ш. Н.

Abstract

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Published

2020

5. Manganese cluster induce the control synthesis of RHO- and CHA-type silicoaluminaphosphates for dimethylether to light olefin conversion.

Author

Wang, Fei, Wen, Zhiyong, Qin, Zhaoxian, Fang, Qihua, Ge, Qingjie, Li, Zhimin, Sun, Jian, and Li, Gao

Subjects

*MANGANESE clusters, *ALKENES, *CATALYSTS, *ETHYLENE, *THIOLATES

Abstract

Graphical abstract Highlights • Controlled synthesis of RHO and SAPO-34 and RHO&SAPO-34 silicoaluminaphosphates is mediate by Mn cluster additives. • High selectivity for the C 2-4= light olefins (90.2%) was obtained over RHO&SAPO-34 catalysts. • RHO&SAPO-34 showed good durability during the DTO, due to its high acidic density (over 4.5 h). Abstract RHO- and CHA-type silicoaluminaphosphates have played an essential role in the global olefin production, e.g., dimethylether to light olefin process (DTO). In this work, we report a simple synthetic protocol to selectively acquire pure RHO and SAPO-34 and RHO&SAPO-34 silicoaluminaphosphates, which is controllable mediated by the thiolate-capped manganese cluster additives. These prepared silicoaluminaphosphates are well characterized by powder X-ray diffraction (XRD), ammonia-temperature programmed desorption (NH 3 -TPD), and as well as N 2 -physical adsorption. They are investigated in the DTO catalysis. The selectivity for the C 2-4= light olefins over the RHO&SAPO-34 catalysts is up to 90.2%, which is much higher than these over the RHO (65.5%) and SAPO-34 (69.0%) silicoaluminaphosphates. Especially, the selectivity for ethylene is two times of these over RHO and SAPO-34. It is beneficial to selectively give rise to ethylene by the dual cycle hydrocarbon-pool mechanism in the DTO reactions, as the RHO&SAPO-34 showed much stronger acidic density, both in the strong acidic sites (0.966 mmol g−1) and weak acidic sites (0.575 mmol g−1), than the RHO and SAPO-34. Finally, the RHO&SAPO-34 also performs longer lifetime and durability (ca. 4.5 h) than the corresponding SAPO-34 and RHO silicoaluminaphosphates (ca. 1 h and 4 h), which is mainly due to slow formation of the carbon deposition over its strong acid density. [ABSTRACT FROM AUTHOR]

Published

2019

6. Artificial Mn4Ca Clusters with Exchangeable Solvent Molecules Mimicking the Oxygen‐Evolving Center in Photosynthesis.

Author

Chen, Changhui, Chen, Yang, Yao, Ruoqing, Li, Yanxi, and Zhang, Chunxi

Subjects

*MANGANESE clusters, *SOLVENTS, *METAL complexes, *WATER electrolysis, *PHOTOSYNTHESIS, *OXYGEN

Abstract

The natural Mn4Ca cluster in photosystem II serves as a blueprint to develop artificial water‐splitting catalysts for the generation of solar fuel in artificial photosynthesis. Although significant advances have recently been achieved, it remains a great challenge to prepare robust artificial Mn4Ca clusters that precisely mimic the structure and function of the biological catalyst. Herein, we report the isolation and structural characterization of two Mn4CaO4 complexes with polar solvent molecules, acetonitrile or N,N‐dimethylformamide, which closely mimics the two water molecules on the calcium ion, as well as the oxidation states of the four manganese ions and the main geometric structure of the natural Mn4Ca cluster. These new artificial Mn4Ca complexes provide important chemical clues to understand the structure and mechanism of the biological system. [ABSTRACT FROM AUTHOR]

Published

2019

7. Synthesis and Reactivity of an Early‐Transition‐Metal Alkynyl Cubane Mn4C4 Cluster.

Author

Chakraborty, Uttam, Demeshko, Serhiy, Meyer, Franc, and Jacobi von Wangelin, Axel

Subjects

*MANGANESE clusters, *REACTIVITY (Chemistry), *INORGANIC synthesis, *SURFACE properties, *CUBANES

Abstract

While the coordination chemistry of monometallic complexes and the surface properties of extended metal particles are well understood, the control of metal nanocluster formation has remained challenging. The isolation of discrete metal clusters provides an especially rare snapshot at the nanoscale of cluster growth. The synthesis and full characterization of the first early‐transition‐metal alkynyl cubane and the first μ3‐alkynyl Mn3 motif are reported. [ABSTRACT FROM AUTHOR]

Published

2019

8. Efficient Homogeneous Electrocatalytic Water Oxidation by a Manganese Cluster with an Overpotential of Only 74 mV.

Author

Ghosh, Totan and Maayan, Galia

Subjects

*WATER electrolysis, *RENEWABLE energy sources, *CATALYSTS, *MANGANESE clusters, *ELECTRON microscopy

Abstract

Water electrolysis is among the simplest method for generating hydrogen as an alternative renewable fuel. A major challenge associated with this process is the development of cheap, simple, and environmentally benign catalysts that lead to a minimum overpotential for water oxidation. Inspired by the Mn4CaOx cluster that catalyzes water oxidation in photosystem II, described here is the synthesis and characterization of the manganese cluster [Mn12O12(O2CC6H2(OH)3)16(H2O)4] (Mn12TH) along with its electrocatalytic activity at pH 6. Electrochemical, spectroscopic, and electron microscopy studies show that Mn12TH is a homogeneous electrocatalyst for water oxidation and enables oxygen evolution with a reaction rate of 22 s−1, high Faradic efficiency (93 %), and an overpotential of only 74 mV, the lowest reported to date. Based on the electrochemical data, the organic ligands, which can be described as the second coordination sphere of the catalytic manganese core, play a key role in facilitating the oxidation process and accelerating the reaction. [ABSTRACT FROM AUTHOR]

Published

2019

9. Oxygenic photosynthesis: history, status and perspective.

Author

Junge, Wolfgang

Subjects

*PHOTOSYNTHESIS, *CYANOBACTERIA, *ATMOSPHERIC oxygen, *OXYGEN evolution reactions, *MANGANESE clusters

Abstract

Cyanobacteria and plants carry out oxygenic photosynthesis. They use water to generate the atmospheric oxygen we breathe and carbon dioxide to produce the biomass serving as food, feed, fibre and fuel. This paper scans the emergence of structural and mechanistic understanding of oxygen evolution over the past 50 years. It reviews speculative concepts and the stepped insight provided by novel experimental and theoretical techniques. Driven by sunlight photosystem II oxidizes the catalyst of water oxidation, a hetero-metallic Mn4CaO5(H2O)4 cluster. Mn3Ca are arranged in cubanoid and one Mn dangles out. By accumulation of four oxidizing equivalents before initiating dioxygen formation it matches the four-electron chemistry from water to dioxygen to the one-electron chemistry of the photo-sensitizer. Potentially harmful intermediates are thereby occluded in space and time. Kinetic signatures of the catalytic cluster and its partners in the photo-reaction centre have been resolved, in the frequency domain ranging from acoustic waves via infra-red to X-ray radiation, and in the time domain from nano- to milli-seconds. X-ray structures to a resolution of 1.9 Å are available. Even time resolved X-ray structures have been obtained by clocking the reaction cycle by flashes of light and diffraction with femtosecond X-ray pulses. The terminal reaction cascade from two molecules of water to dioxygen involves the transfer of four electrons, two protons, one dioxygen and one water. A rigorous mechanistic analysis is challenging because of the kinetic enslaving at millisecond duration of six partial reactions (4e−, 1H+, 1O2). For the time being a peroxide-intermediate in the reaction cascade to dioxygen has been in focus, both experimentally and by quantum chemistry. Homo sapiens has relied on burning the products of oxygenic photosynthesis, recent and fossil. Mankind's total energy consumption amounts to almost one-fourth of the global photosynthetic productivity. If the average power consumption equalled one of those nations with the highest consumption per capita it was four times greater and matched the total productivity. It is obvious that biomass should be harvested for food, feed, fibre and platform chemicals rather than for fuel. [ABSTRACT FROM AUTHOR]

Published

2019

10. Homometallic {Mn10} and heterometallic {Mn6Ca4} supertetrahedra exhibiting an unprecedented {MnIII9MnII} oxidation state level and heterometal ions distribution.

Author

Skordi, Katerina, Papatriantafyllopoulou, Constantina, Zartilas, Sotiris, Poole, Katye M., Nastopoulos, Vassilios, Christou, George, and Tasiopoulos, Anastasios J.

Subjects

*OXIDATION kinetics, *MAGNETISM, *TETRAHEDRA, *LIGATION reactions, *FERROMAGNETIC materials, *CALCIUM

Abstract

Two novel decametallic clusters displaying a supertetrahedral structural core are discussed, a homometallic compound [Mn III 9 Mn II (μ 4 -O) 4 (μ 3 -OMe) 3 (btH) 3 (ed) 3 (PhCO 2 ) 6 ]·6Η 2 Ο ( 1 ·6Η 2 Ο) (btH 3  = (±)-1,2,4-butanetriol; edH 2  = 1,2-ethanediol) and a heterometallic one [Mn III 6 Ca II 4 (μ 4 -O) 4 (μ 3 -Cl) 4 (pd) 6 Cl 2 (MeOH) 10 ] ( 2 ) (pdH 2  = 1,3-propanediol). In particular complex 1 ·6Η 2 Ο is a new member of an extended family of homometallic Mn 10 supertetrahedra which exhibits an unprecedented Mn III 9 Mn II oxidation state level. It is based on a supertetrahedral [Mn III 9 Mn II (μ 4 -O) 4 ] 21+ core with its peripheral ligation being completed by bridging alkoxy (OMe − , btH 2− , ed 2− ) and carboxylate (PhCO 2 − ) ligands. Complex 2 is a unique heterometallic analogue of the family of complexes displaying the well-known [Mn III 6 Mn II 4 (μ 4 -O) 4 ] 18+ supertetrahedral core in which the Mn II ions have been replaced by Ca II ions. The peripheral ligation of the heterometallic [Mn III 6 Ca II 4 (μ 4 -O) 4 ] 18+ core is completed by both bridging (μ 3 -Cl − and pd) and terminal (Cl − , MeOH) ligands. Magnetism studies revealed that complex 1 ·6Η 2 Ο displays dominant ferromagnetic exchange interactions and a large spin ground state value S T  = 23/2 whereas complex 2 exhibits exclusively ferromagnetic exchange interactions and the maximum possible spin ground state S T  = 12 for a complex consisting of six Mn III and four Ca II ions. [ABSTRACT FROM AUTHOR]

Published

2018

11. Effect of Co doping on the magnetic and DC electrical properties of Mn-Zn nanoferrites.

Author

Khandan Fadafan, H., Lotfi Orimi, R., and Nezhadeini, S.

Subjects

*COPRECIPITATION (Chemistry), *MAGNETIC properties of nanoparticles, *ELECTRIC properties of nanoparticles, *MANGANESE clusters, *ELECTRON microscopy

Abstract

In this study, Cobalt-Manganese-Zinc nanoferrites with the formula Co x Mn 0.5−x Zn 0.5 Fe 2 O 4 with x = 0.0, 0.1, 0.3, and 0.5 prepared by chemical Co-precipitation method. Then the structure and morphology of the synthesized nanoparticles were characterized by X-ray diffraction (XRD) and transmitting electron microscopy (TEM), respectively. The XRD patterns indicated the formation of single-phased cubic structure of spinel ferrite in nanometer size with no minor phase. The TEM image showed the formation of nanoparticles with average size of about 40 nm and normal size distribution. The magnetic measurements of the nanoparticles were done at room temperature using a vibrating sample magnetometer (VSM). Results exhibited a super-paramagnetic like behavior for some of the samples. DC electrical resistivity measurements were carried out by two-probe technique from 25 to 250 °C and showed decreasing of the resistivity with temperature meanwhile passing a transition to form of a peak. The peaks values observed near the Curie temperatures of samples suggest that anomaly behavior can attributed to spin canting associated with the phase transition from para to ferromagnetic state at T C . [ABSTRACT FROM AUTHOR]

Published

2018

12. Manganese trinuclear clusters based on schiff base: Synthesis, characterization, magnetic and electrochemiluminescence properties.

Author

Zhang, Shaonan, Hua, Yao, Chen, Zhonghang, Zhang, Shuhua, and Hai, Hong

Subjects

*MANGANESE clusters, *ELECTROCHEMILUMINESCENCE, *SCHIFF bases, *INTERMOLECULAR interactions, *CRYSTAL structure, *COMPLEX compounds

Abstract

Four novel linear trinuclear manganese clusters [Mn 3 (L n ) 2 (CH 3 COO) 4 ] ( 1 , n = 1; 2 , n = 2; 3 , n = 3; 4 , n = 4. where HL 1 is 4-chloro-2-((2-(6-chloropyridin-2-yl)hydrazono)methyl)phenol, HL 2 is 4-bromo-2-((2-(6-chloropyridin-2-yl)hydrazono)methyl)phenol, HL 3 is 4-chloro-2-((2-(6-bromopyridin-2-yl)hydrazono)methyl)phenol, HL 4 is 4-bromo-2-((2-(6-bromopyridin-2-yl) hydrazono)methyl)phenol) were synthesized through solvothermal method. Complexes 1 – 4 were characterized by IR, and X-ray single-crystal diffraction. Complexes 1 – 4 are isomorphous compounds which are trinuclear linear manganese clusters. A detailed analysis of Hirshfeld surface and 2D fingerprint plots revealed that 1 – 4 were supported mainly by H⋯H, H⋯X (X = Cl, Br) and O⋯H intermolecular interactions. Magnetic properties of 1 – 4 have been studied. In additional, complex 3 showed highly intense electrochemicaluminescence (ECL) in DMF solution. [ABSTRACT FROM AUTHOR]

Published

2018

13. Magnetic structure of manganese cluster in photosystem II investigated by electron paramagnetic resonance.

Author

Hiroki Nagashima, Mizue Asada, and Hiroyuki Mino

Subjects

*MAGNETIC structure, *MANGANESE clusters, *PHOTOSYSTEMS, *ELECTRON paramagnetic resonance, *ELECTRON nuclear double resonance

Abstract

The electronic structure of manganese (Mn) cluster in photosystem II was investigated by electron paramagnetic resonance (EPR) spectroscopy. In order to determine the spin density distribution in magnetically coupled Mn in the S2 state Mn cluster, pulsed electron-electron double resonance (PELDOR) measurement was performed. The local environment of the Mn cluster was investigated by electron-nuclear double resonance (ENDOR). Using spin projections determined by PELDOR, ENDOR signals were assigned to the water molecules ligated to the Mn cluster. The location of a high-affinity Mn2+ site in apo-photosystem II, which is the initial site of photoactivation of the Mn cluster, was determined by PELDOR. [ABSTRACT FROM AUTHOR]

Published

2018

14. What the multiline signal (MLS) simulation data with average of weighted computations reveal about the Mn hyperfine interactions and oxidation states of the manganese cluster in OEC?

Author

Baituti, Bernard

Subjects

*MANGANESE clusters, *COMPUTATIONAL chemistry, *OXYGEN evolution reactions, *COMPLEX compounds, *COMPUTER simulation, *OXIDATION

Abstract

Understanding the structure of oxygen evolving complex (OEC) fully still remains a challenge. Lately computational chemistry with the data from more detailed X-ray diffraction (XRD) OEC structure, has been used extensively in exploring the mechanisms of water oxidation in the OEC (Gatt et al., J. Photochem. Photobiol. B 104(1-2), 80-93 2011). Knowledge of the oxidation states is very crucial for understanding the core principles of catalysis by photosystem II (PSII) and catalytic mechanism of OEC. The present study involves simulation studies of the X-band continuous wave electron-magnetic resonance (CW-EPR) generated S state signals, to investigate whether the data is in agreement with the four manganese ions in the OEC, being organised as a '3 + 1' (trimer plus one) model (Gatt et al., Angew. Chem. Int. Ed. 51, 12025-12028 2012; Petrie et al., Chem. A Eur. J. 21, 6780-6792 2015; Terrett et al., Chem. Commun. (Camb.) 50, 8-11 2014) or 'dimer of dimers' model (Terrett et al. 2016). The question that still remains is how much does each Mn ion contribute to the ' g2multiline' signal through its hyperfine interactions in OEC also to differentiate between the 'high oxidation state (HOS)' and 'low oxidation state (LOS)' paradigms? This is revealed in part by the structure of multiline (ML) signal studied in this project. Two possibilities have been proposed for the redox levels of the Mn ions within the catalytic cluster, the so called 'HOS' and 'LOS' paradigms (Gatt et al., J. Photochem. Photobiol. B 104(1-2), 80-93 2011). The method of data analysis involves numerical simulations of the experimental spectra on relevant models of the OEC cluster. The simulations of the X-band CW-EPR multiline spectra, revealed three manganese ions having hyperfine couplings with large anisotropy. These are most likely Mn centres and these clearly support the 'LOS' OEC paradigm model, with a mean oxidation of 3.25 in the S state. This is consistent with the earlier data by Jin et al. (Phys. Chem. Chem. Phys. (PCCP) 16(17), 7799-812 2014), but the present results clearly indicate that heterogeneity in hyperfine couplings exist in samples as typically prepared. [ABSTRACT FROM AUTHOR]

Published

2017

15. Polyoxometalate-based manganese clusters as catalysts for efficient photocatalytic and electrochemical water oxidation.

Author

Yu, Li, Ding, Yong, and Zheng, Min

Subjects

*PHOTOCATALYSTS, *POLYOXOMETALATES, *MANGANESE clusters, *OXIDATION of water, *CATALYTIC activity

Abstract

A manganese containing polyoxometalate (POM) [Mn 3 (H 2 O) 3 (SbW 9 O 33 ) 2 ] 12− ( 1 ) was synthesized and characterized in detail. The photocatalytic activity of 1 is definitely better than other manganese containing POM water oxidation catalysts reported so far according to oxygen yield, whereas the analogues [Mn 3 (H 2 O) 5 (PW 9 O 34 ) 2 ] 9− ( 2 ) and [Mn 3 (H 2 O) 3 (AsW 9 O 33 ) 2 ] 12− ( 3 ) show no to slight photocatalytic O 2 evolution amount. Meanwhile, the electrocatalytic activities of 1 - 3 were investigated in 80 mM pH 9.0 borate buffer, which follows the catalytic activity order of 1 > 2 > 3 . Multiple experiments including UV−vis absorption, catalysts aging experiments, tetra- n -heptylammonium nitrate (THpANO 3 ) toluene extraction, electrochemical experiments and capillary electrophoretic measurements results confirm that catalyst 1 is a homogeneous molecular catalyst. No Mn 2+ (aq.) or manganese oxide under the reaction conditions of photocatalytic and electrochemical water oxidation was detected. [ABSTRACT FROM AUTHOR]

Published

2017

16. Facile adaptation of 1D Mn(ii) chain motifs to form 3D azo-pyridine-based coordination polymers.

Author

Ako, Ayuk M., Twamley, Brendan, Schmitt, Wolfgang, and Hawes, Chris S.

Subjects

*COORDINATION polymers synthesis, *PYRIDINE, *MANGANESE clusters

Abstract

We report the synthesis of a simple 1D Mn-azopyridine-based coordination polymer, poly-[MnII(NO3)2(OH2)2(azopy)2]·2MeCN (1) (azopy = 4,4′-azobis(pyridine)) and its use as a convenient feedstock to afford two 3D coordination polymers, namely: poly-[MnII(azopy)2(CNAgCN)4] (2), and poly-[MnII2(pda)(Hpda)2(azopy)2(OH2)2]·2MeCN (3), (pdaH2 = 1,4-phenylenediacetic acid). The compounds have been characterised by elemental analysis, IR, PXRD, TGA and single crystal X-ray diffraction. Compound 1 is a 1D coordination polymer while 2 represents a 3-dimensional coordination polymer adopting 2-fold interpenetrated rutile (rtl) topology and 3 is a 5-connected 3-dimensional coordination polymer with boron nitride (bnn) topology. [ABSTRACT FROM AUTHOR]

Published

2017

17. Oxime-Bridged Mn6 Clusters Inserted in One-Dimensional Coordination Polymer.

Author

Zaltariov, Mirela-Fernanda, Cazacu, Maria, Sacarescu, Liviu, Vlad, Angelica, Novitchi, Ghenadie, Train, Cyrille, Shova, Sergiu, and Arion, Vladimir B.

Subjects

*MANGANESE clusters, *OXIMES, *COORDINATION polymers, *SODIUM salts, *MOLECULAR self-assembly

Abstract

The reaction of MnCl2·4H2O with salicylaldoxime (H2salox) and the sodium salt of 1,3-bis(carboxypropyl)tetramethyldisiloxane (H2L) in a 1:1:1 molar ratio led to the self-assembly of {[Mn6O2(salox)6(H2salox)(H2O)3(μ-L)]H2salox·1.2H2O}n, a 1D coordination polymer consisting of hexamanganese(III) salicylaldoximate cluster as secondary building unit (SBU) and tetramethyldisiloxane-based dicarboxylate linker, namely, 1,3-bis(carboxypropyl)tetramethyldisiloxane. The structure of the compound was established by single crystal X-ray diffraction. The Mn(III) clusters consist of two staggered μ3-oxo-bridged Mn3 triangles held together by the oxygen atoms of the oxime groups. Because of Jahn-Teller distortion, the Mn-O distances reach 2.5 Å for the oxygen atoms located above and below the triangles mean planes. The compound showed a glass transition peak at around 14 °C in the differential scanning calorimetry (DSC) curve. The magnetic susceptibility data were fitted with a set of three intracluster antiferromagnetic exchange interaction coupling constants: J1 = −0.65 cm-1, J2 = −1.5 cm-1, and J3 = −0.9 cm-1. The ac magnetic susceptibility measurements in the 2-5 K temperature range reveal a frequency-dependent behavior indicative of a slow relaxation of magnetization at low temperature. The coexistence of the lypophilic 1,3-bis(propyl)tetramethyldisiloxane moieties and hydrophilic polar SBUs confers to the structure an amphiphilic character. Dynamic light scattering (DLS), small-angle X-ray scattering (SAXS), and transmission (TEM) and scanning (SEM) electron microscopies demonstrate that in dimethylformamide (DMF) the coordination polymer organizes as micelles, whereas in chloroform it tends to form inverse micelles and vesicles. [ABSTRACT FROM AUTHOR]

Published

2016

18. Three-dimensional metal-organic framework based on pentanuclear manganese clusters as building blocks.

Author

Li, Xin-Xiong, Wei, Kun-Yu, Zhuang, Ting-Ting, Xia, Wei, Chen, Jing-Yu, Zhang, Rong-Tao, and Zheng, Shou-Tian

Subjects

*METAL-organic frameworks, *MANGANESE clusters, *SINGLE crystals, *X-ray diffraction, *GAS absorption & adsorption

Abstract

A rare 3-D Mn–organic framework, [(CH3)2NH2]3[Mn5(btc)4(Ac)(H2O)4]·5H2O (1), based on pentanuclear manganese clusters as building blocks has been prepared and structurally characterized by EA, IR, TGA, PXRD, and single-crystal X-ray diffraction. Structural analysis indicates the pentanuclear manganese cluster in1has a bow-like configuration, which is the first found to act as secondary building unit in the field of metal–organic framework. Gas adsorption measurements reveal that1can absorb a considerable amount of N2and CO2. [ABSTRACT FROM AUTHOR]

Published

2016

19. Assembly of Mn-Containing Unprecedented Selenotungstate Clusters with Photocatalytic H2 Evolution Activity.

Author

Wei-Chao Chen, Chao Qin, Xin-Long Wang, Kui-Zhan Shao, Zhong-Min Su, and En-Bo Wang

Subjects

*HYDROGEN evolution reactions, *PHOTOCATALYSTS, *MANGANESE clusters, *TUNGSTATES, *DIMERS, *CRYSTAL structure, *THERMOGRAVIMETRY

Abstract

The reaction of Na2WO4 and Na2SeO3 in the presence of MnCl2 under moderately acidic conditions yielded two unprecedented tungstoselenites: dimeric K2Na10[K2⊂{MnSe4W23O85(H2O)6}]·29H2O (1) and trimeric wheel-shaped K2Na10[K2⊂{Mn3Se7W39O131(OH)20(H2O)2}]·60H2O (2). The assemblies of 1 and 2 are based upon the structure directing effects of SeIV heteroatoms for generating diverse well-defined vacancy selenotungstate precursors during the formation. The polyoxoanion of 1 contains two novel Wells-Dawson-type-like {Se2W11} fragments, which are constructed from novel {SeW4} and {SeW7} species derived from Wells-Dawson-type {α-Se2W14} fragments and one disorder of Mn/W center. The polyoxoanion of 2 exhibits a crown-type structure composed of a [Se6W38O120(OH)18(H2O)2]6- "host" (abbreviated as {Se6W38}) encapsulating SeO32--modified Mn/W and two K+ "guests". Remarkably, the crown {Se6W38} shell remains a new type of {Se2W12}-based trimeric aggregate in the polyoxometalates chemistry. The two compounds were characterized by single-crystal X-ray structure analysis, IR spectroscopy, thermogravimetric, UV/vis spectroscopy, and ESI-MS. Moreover, their photocatalytic H2 evolution activity was also investigated. [ABSTRACT FROM AUTHOR]

Published

2016

20. Configurations and magnetic properties of Mn–B binary clusters.

Author

Cui-Ju, FENG and Bin-Zhou, MI

Subjects

*MANGANESE clusters, *MAGNETIC properties, *BORON, *COUPLING reactions (Chemistry), *DOPING agents (Chemistry), *DENSITY functional theory

Abstract

We investigate the structures and magnetic properties of boron-doped manganese clusters using first-principle density functional theory. We arrive at the lowest energy structures for clusters by simultaneously optimizing the cluster geometries, total spins, and relative orientations of individual atomic moments. For Mn n B ( n =2–12) clusters, the theoretical results indicate that the B atom prefers the surface site for all the lowest-energy structures except Mn 10 B cluster. The doped B atom enhances the stability of pure Mn n cluster. We also have studied the magnetic behavior of Mn–B clusters in the size range. Based on the analysis of the different magnetic behavior of boron-doped manganese clusters, we have further studied Mn 9 B 2 and Mn 8 B 3 clusters and it indicates that the doping of non-magnetism B element can induce all the Mn atoms align ferromagnetic coupling. Furthermore, a stable pearl necklace nanowire ([Mn 8 B 3 ] n → ∞ ) which retains the ferromagnetic ordering of all the manganese atoms has been predicted. [ABSTRACT FROM AUTHOR]

Published

2016

21. Cyanate groups in higher oxidation state metal cluster chemistry: Mixed-valence (II/III) Mn16 and Mn18 clusters.

Author

Alexandropoulos, Dimitris I., Moushi, Eleni E., Papatriantafyllopoulou, Constantina, Beavers, Christine M., Teat, Simon J., Tasiopoulos, Anastasios J., Christou, George, and Stamatatos, Theocharis C.

Subjects

*CYANATES, *OXIDATION states, *MANGANESE clusters, *VALENCE (Chemistry), *CARBOXYLATES, *MANGANESE compounds, *CHEMICAL synthesis, *MAGNETOCHEMISTRY

Abstract

The employment of cyanato (OCN − ) group in high oxidation state manganese cluster chemistry, in conjunction with carboxylate ions and the organic chelating/bridging ligand 2-(hydroxymethyl)pyridine (hmpH), is reported. The syntheses, crystal structures, and magnetochemical characterization are described for [Mn 16 O 8 (OR) 4 (OCN) 4 (O 2 CMe) 12 (hmp) 6 (ROH) 2 ] (R = Me ( 1 ), Et ( 2 )) and [Mn 18 O 14 (O 2 CR) 18 (hmp) 4 (hmpH) 2 (H 2 O) 2 ] (R = Me ( 3 ), Et ( 4 )). The 2:1:1:1 reactions of Mn(O 2 CMe) 2 ·4H 2 O, hmpH, NaOCN and NEt 3 in solvent MeOH or EtOH afford the isostructural complexes [Mn 16 O 8 (OR) 4 (OCN) 4 (O 2 CMe) 12 (hmp) 6 (ROH) 2 ] (R = Me ( 1 ), Et ( 2 )). The [Mn 16 (μ 4 -O) 4 (μ 3 -O) 4 (μ-OMe) 4 (μ 3 -OR) 6 (μ-OR) 6 ] 10+ core of representative complex 1 comprises a Mn II 4 Mn III 4 double-cubane subunit attached on either side to two symmetry-related Mn II Mn III 3 defective dicubanes. A similar reaction of Mn(O 2 CR) 2 ·4H 2 O, hmpH, NaOCN and NEt 3 , but in solvent MeCN, led instead to the formation of [Mn 18 O 14 (O 2 CR) 18 (hmp) 4 (hmpH) 2 (H 2 O) 2 ] (R = Me ( 3 ), Et ( 4 )). Compounds 3 and 4 are very similar to each other and can be described as a central [Mn III 4 (μ-O) 6 ] rodlike subunit attached on either side to two symmetry-related [Mn 7 O 9 ] subunits. Variable-temperature, solid-state dc and ac magnetic susceptibility studies revealed the presence of predominant antiferromagnetic exchange interactions in all compounds, and possible S = 2 or 1 (for 1 and 2 ) and S = 0 (for 3 and 4 ) ground state spin values. The combined results demonstrate the ability of cyanato groups to facilitate the formation of new polynuclear Mn II/III complexes with structures different than these obtained from the use of the related azides. [ABSTRACT FROM AUTHOR]

Published

2016

22. Manganese-Salicyloximate Clusters Starting from [MnII(hfacac)2]: From Mn4 to Mn12.

Author

Escuer, Albert, Cordero, Beatriz, Font‐Bardia, Mercè, Teat, Simon J., and Roubeau, Olivier

Subjects

*MANGANESE clusters, *SINGLE molecule magnets, *MAGNETIC hysteresis, *BENZOATES, *ANIONS

Abstract

The systematic exploration of the reactivity of [Mn(hfacac)2] with R-salicyloximes (R-saloxH2: R = H, Me, Et) yielded a family of clusters with nuclearities ranging from Mn4 to Mn12. The compounds with formula [Mn6(O)2(salox)6(CF3COO)2(EtOH)4] ( 1) and [Mn12(salox)12(O)4(N3)4(H2O)2(MeOH)6] ( 4) show two or four linked {Mn(µ3-O)(salox)3}+ triangular subunits. Magnetic measurements revealed spin ground states of S = 4 for 1 and S = 8 for 4, as well as single-molecule magnet responses and magnetic hysteresis above 2 K. The cubic [Mn4(Mesalox)4(MesaloxH)4] ( 2), the hexanuclear [Mn6(Etsalox)6(O)2(MeO)4(MeOH)2] ( 3) and the octanuclear [Mn8(Mesalox)6(O)2(N3)6(MeOH)8] ( 5) are polymorphs of previously reported systems. Small structural changes allows an S = 11 ground state for 3. [ABSTRACT FROM AUTHOR]

Published

2016

23. Manganese-Salicyloximate Clusters Starting from [MnII(hfacac)2]: From Mn4 to Mn12.

Author

Escuer, Albert, Cordero, Beatriz, Font‐Bardia, Mercè, Teat, Simon J., and Roubeau, Olivier

Subjects

MANGANESE clusters, SINGLE molecule magnets, MAGNETIC hysteresis, BENZOATES, ANIONS

Abstract

The systematic exploration of the reactivity of [Mn(hfacac)2] with R-salicyloximes (R-saloxH2: R = H, Me, Et) yielded a family of clusters with nuclearities ranging from Mn4 to Mn12. The compounds with formula [Mn6(O)2(salox)6(CF3COO)2(EtOH)4] ( 1) and [Mn12(salox)12(O)4(N3)4(H2O)2(MeOH)6] ( 4) show two or four linked {Mn(µ3-O)(salox)3}+ triangular subunits. Magnetic measurements revealed spin ground states of S = 4 for 1 and S = 8 for 4, as well as single-molecule magnet responses and magnetic hysteresis above 2 K. The cubic [Mn4(Mesalox)4(MesaloxH)4] ( 2), the hexanuclear [Mn6(Etsalox)6(O)2(MeO)4(MeOH)2] ( 3) and the octanuclear [Mn8(Mesalox)6(O)2(N3)6(MeOH)8] ( 5) are polymorphs of previously reported systems. Small structural changes allows an S = 11 ground state for 3. [ABSTRACT FROM AUTHOR]

Published

2016

24. Proton Matrix ENDOR Studies on Ca2+-depleted and Sr2+-substituted Manganese Cluster in Photosystem II.

Author

Hiroki Nagashima, Yoshiki Nakajima, Jian-Ren Shen, and Hiroyuki Mino

Subjects

*PHOTOSYSTEMS, *MANGANESE clusters, *CYANOBACTERIA, *CRYSTAL structure research, *PROTONS

Abstract

Proton matrix ENDOR spectra were measured for Ca2+-depleted and Sr2+-substituted photosystem II (PSII) membrane samples from spinach and core complexes from Thermosynechococcus vulcanus in the S2 state. The ENDOR spectra obtained were similar for untreated PSII from T. vulcanus and spinach, as well as for Ca2+-containing and Sr2+-substituted PSII, indicating that the proton arrangements around the manganese cluster in cyanobacterial and higher plant PSII and Ca2+-containing and Sr2+-substituted PSII are similar in the S2 state, in agreement with the similarity of the crystal structure of both Ca2+-containing and Sr2+-substituted PSII in the S1 state. Nevertheless, slightly different hyperfine separations were found between Ca2+-containing and Sr2+-substituted PSII because of modifications of the water protons ligating to the Sr2+ ion. Importantly, Ca2+ depletion caused the loss of ENDOR signals with a 1.36-MHz separation because of the loss of the water proton W4 connecting Ca2+ and YZ directly. With respect to the crystal structure and the functions of Ca2+ in oxygen evolution, it was concluded that the roles of Ca2+ and Sr2+ involve the maintenance of the hydrogen bond network near the Ca2+ site and electron transfer pathway to the manganese cluster. [ABSTRACT FROM AUTHOR]

Published

2015

25. Stable Stoichiometry of Gas-Phase Manganese OxideCluster Ions Revealed by Temperature-Programmed Desorption.

Author

Kohei Koyama, Satoshi Kudoh, Ken Miyajima, and Fumitaka Mafuné

Subjects

*MANGANESE oxides, *STOICHIOMETRY, *CHEMICAL stability, *MANGANESE clusters, *METAL ions, *METAL absorption & adsorption, *EFFECT of temperature on metals

Abstract

Temperature-programmeddesorption (TPD) experiments were performedon gas-phase manganese oxide cluster ions, namely, MnnOm+(n= 3–20) and MnnOm–(n=3–18). These cluster ions were prepared by laser ablation ofa manganese rod in the presence of oxygen gas, and their compositionwas investigated using mass spectrometry. The composition of MnnOm±distribution lies above the m= (4/3)nline. When the cluster ions were heated to 1000 K, MnnOm+(m= (4/3)n+ δ, with δ = −1,0) and MnnOm–(m= (4/3)n+ δ, with δ = 0, 1) was found to be the predominantspecies, formed by thermal dissociation. These experimental findingsindicate that the nascent manganese oxide clusters comprise robustMnnOm±(m/n≈ 4/3)and weakly bound excess oxygen atoms. On the basis of the TPD experiments,the oxygen-molecule release was identified as the main dissociationchannel. The temperature dependence of O2desorption wasfound to be similar among the clusters with the same oxygen excessor deficiency regardless of the number of Mn atoms. The thresholdenergy of O2desorption was estimated for Mn4Om+(m=6–11) and compared with bond dissociation energies calculatedby density functional theory. [ABSTRACT FROM AUTHOR]

Published

2015

26. A Mn6 Cluster inside a Mn10 Wheel: Characterization of a Mn16-Oximate Complex Resulting from a Tetrazole-2-pyridylketoneoximate Ligand.

Author

Alcazar, Laura, Font‐Bardia, Mercè, and Escuer, Albert

Subjects

*MANGANESE clusters, *METAL clusters, *TETRAZOLES, *AZOLES, *ORGANONITROGEN compounds

Abstract

A new Mn16 topology consisting of one hexanuclear {MnII2MnIII4} unit coordinated inside a decametallic {MnII6MnIII2MnIV2} wheel was synthesized from 2-pyridylcyanoxime and azido ligands. A new tetrazole-2-pyridylketoneoximate ligand was obtained in situ by cyclization of the cyano group and azide mediated by manganese cations. [ABSTRACT FROM AUTHOR]

Published

2015

27. Graphical Abstract: Eur. J. Inorg. Chem. 8/2015.

Subjects

*MANGANESE clusters, *POROUS silicon

Abstract

The article presents abstracts on inorganic chemistry topics which include manganese clusters, photoactive porous silicon, and rare-earth imido complexes.

Published

2015

28. Molecular dynamics studies of pathways of water movement in cyanobacterial photosystem II.

Author

Gabdulkhakov, A., Kljashtorny, V., and Dontsova, M.

Subjects

*MOLECULAR dynamics, *CYANOBACTERIA, *PHOTOSYSTEMS, *X-ray diffraction, *AQUAPORINS, *MANGANESE clusters

Abstract

Photosystem II (PSII) catalyzes the light-induced generation of oxygen from water. The oxygen-evolving complex is buried deep in the protein on the lumenal side of PSII, and water molecules need to pass through protein subunits to reach the active site-the manganese cluster. Previous studies on the elucidation of water channels in PSII were based on an analysis of the cavities in the static PSII structure determined by X-ray diffraction. In the present study, we perform molecular dynamics simulations of the water movement in the transport system of PSII. [ABSTRACT FROM AUTHOR]

Published

2015

29. Silicon Functionality with Nanoclusters of Manganese Atoms

Author

Bakhadirkhanov, M. K., Isamov, S. B., Zikrillaev, N. F., Iliyev, Kh. M., Mavlonov, G. Kh., Koveshnikov, S. V., and Ibodullaev, Sh. N.

Subjects

Condensed Matter::Materials Science, manganese clusters, silicon, magnetoresistance, thermomagnetic, Condensed Matter::Strongly Correlated Electrons, photomagnetic, sensors

Abstract

The paper reports that silicon with nanoclusters of manganese atoms has unique electrical, photoelectric, magnetic, and photomagnetic properties absent in ordinary doped semiconductor materials. The samples revealed an anomalously high impurity photosensitivity in the region of l = 1–3 μm, a large negative magnetoresistance at room temperature, as well as new thermomagnetic and photomagnetic effects, which were observed in the same sample. Optimal electrophysical parameters of the samples were found. A unique set of observable physical effects allows to create fundamentally new multifunctional sensors of physical quantities based on such materials.

Published

2020

30. A heterometallic [Mn9Ni2] cluster consisting of the [M4(μ3-O)3(μ3-Cl)]n+ cubane and [MnIII3(μ3-O)4]+ "V-shaped" sub-units appearing in the giant [Mn84] and [Mn70] compounds and its [Mn9CoIII2] analogue.

Author

Moushi, Eleni E., Charalambous, Maria, Papatriantafyllopoulou, Constantina, Christou, George, and Tasiopoulos, Anastasios J.

Subjects

*SINGLE molecule magnets, *MAGNETISM, *MAGNETIZATION, *CARBON dioxide, *MAGNETIC properties

Abstract

Two analogous heterometallic [MnIV 2 MnIII 7 NiII 2 ] and [MnIV 2 MnIII 7 CoIII 2 ] carboxylate clusters are reported based on cubane and [MnIII 3 (μ 3 -Ο) 4 ]+ V-shaped sub-units that have appeared in the giant [Mn 84 ] and [Mn 70 ] torus clusters. Magnetism studies of the [MnIV 2 MnIII 7 NiII 2 ] analogue revealed the presence of out-of-phase ac signals possibly due to slow relaxation of the magnetization and a U eff value ≈ 15 K. [Display omitted] Two new heterometallic clusters exhibiting related cores, [Mn 9 Ni 2 (μ 3 -Ο) 10 (μ 3 -Cl) 2 (O 2 CMe) 11 (py) 4 (H 2 O) 4 ]·2H 2 O (1 ·2H 2 O) (py = pyridine) and [Mn 9 Co 2 (μ 3 -Ο) 10 (μ 3 -ΟΗ) 2 (O 2 CEt) 10 (EtOH) 3 (H 2 O)(py) 5 ](ClO 4) 2 Cl (2) are reported. Compounds 1 ·2H 2 O/ 2 were prepared from reactions of [Mn 3 O(O 2 CMe) 6 (py) 3 ]·py/[Mn 3 O(O 2 CEt) 6 (py) 3 ](ClO 4) with MCl 2 ·6H 2 O (M = Ni2+, Co2+) and (Bu n 4 N)MnO 4 in a 1:3:0.1/1:1:0.1 molar ratio in MeCN (15 ml)/MeOH-EtOH (15–0.5 ml) in ∼ 28 %/< 2 % yields, respectively. Their cores consist of two [MnIVMnIII 2 M n+(μ 3 -Ο) 3 (μ 3 -X)]m+ cubanes (M n+ = Ni2+, X = Cl−, m = 5+, 1 ·2H 2 O; M n+ = Co3+, X = OH−, m = 6+, 2) at the terminal positions linked through a central [MnIII 3 (μ 3 -Ο) 4 ]+ slightly V-shaped sub-unit. Interestingly, this core has appeared as a fragment in the giant [Mn 84 ] and [Mn 70 ] torus–like single–molecule magnets (SMMs). Magnetism studies of 1 ·2H 2 O revealed the presence of competing ferromagnetic and antiferromagnetic exchange interactions leading to a fairly low spin ground state value of S T ≈ 4 or 3 and fully visible out-of-phase ac signals (above 1.8 K) indicative of slow relaxation of the magnetization and SMM behavior. [ABSTRACT FROM AUTHOR]

Published

2022

31. Crystal Structure Analysis of Extrinsic PsbP Protein of Photosystem II Reveals a Manganese-Induced Conformational Change.

Author

Cao, Peng, Xie, Yuan, Li, Mei, Pan, Xiaowei, Zhang, Hongmei, Zhao, Xuelin, Su, Xiaodong, Cheng, Tao, and Chang, Wenrui

Subjects

*MANGANESE clusters, *PHOTOSYSTEMS, *CHLOROPHYLL-binding proteins, *THYLAKOIDS, *CHLOROPLASTS

Abstract

The article focuses on the importance of the manganese (Mn) cluster (Mn4CaO5) on the thylakoid luminal side of photosystem II (PSII) which catalyzes the photosynthetic oxygen-evolving reaction. It states that the Mn cluster is surrounded by the membrane-extrinsic proteins PsbO (33 kDa), PsbP (23 kDa), and PsbQ (17 kDa) in higher plants and green algae. The indispensable role of PsbP in PSII function and its significance to maintain normal thylakoid architecture is also cited.

Published

2015

32. [Mn12O12(O2CMe)12(NO3)4(H2O)4]: facile synthesis of a new type of Mn12 complex.

Author

Thuijs, Annaliese E., Christou, George, and Abboud, Khalil A.

Subjects

*SINGLE molecule magnets, *MANGANESE clusters, *LIGAND crystallography, *NITROMETHANE, *INTERMOLECULAR interactions

Abstract

The title dodecanuclear Mn complex, namely dodeca-μ2-acetato-κ24 O: O′-tetraaquatetra-μ2-nitrato-κ8 O: O′-tetra-μ4-oxido-octa-μ3-oxido-tetramanganese(IV)octamanganese(III) nitromethane tetrasolvate, [Mn12(CH3COO)12(NO3)4O12(H2O)4]·4CH3NO2, was synthesized by the reaction of Mn2+ and Ce4+ sources in nitromethane with an excess of acetic acid. This compound is distinct from the previously known single-molecule magnet [Mn12O12(O2CMe)16(H2O)4], synthesized by Lis [ Acta Cryst. (1980), B 36, 2042-2044]. It is the first Mn12-type molecule containing nitrate ligands to be directly synthesized without the use of a preformed cluster. Additionally, this molecule is distinct from all other known Mn12 complexes due to intermolecular hydrogen bonds between the nitrate and water ligands, which give rise to a three-dimensional network. The complex is compared to other known Mn12 molecules in terms of its structural parameters and symmetry. [ABSTRACT FROM AUTHOR]

Published

2015

33. Correction: New tetranuclear manganese clusters with [MnII3MnIII] and [MnII2MnIII2] metallic cores exhibiting low and high spin ground state.

Author

Sobocińska, M., Antkowiak, M., Wojciechowski, M., Kamieniarz, G., Utko, J., and Lis, T.

Subjects

*MANGANESE clusters, *METALLIC crystals

Abstract

Correction for ‘New tetranuclear manganese clusters with [MnII3MnIII] and [MnII2MnIII2] metallic cores exhibiting low and high spin ground state’ by M. Sobocińska et al., Dalton Trans., 2016, 45, 7303–7311. [ABSTRACT FROM AUTHOR]

Published

2017

34. ChemInform Abstract: A {Nb6P2W12}-Based Hexameric Manganese Cluster with Single-Molecule Magnet Properties.

Author

Zhang, Dongdi, Cao, Fan, Ma, Pengtao, Zhang, Chao, Song, You, Liang, Zhijie, Hu, Xiaojing, Wang, Jingping, and Niu, Jingyang

Subjects

*MANGANESE clusters, *NIOBIUM oxide, *PHOSPHIDES, *SINGLE molecule magnets, *TUNGSTEN oxides, *POTASSIUM compounds

Abstract

Equimolar amounts of K7[HNb6O19]·13H2O and K12 [H2P2W12O48] ·24H2O are reacted in aq. [ABSTRACT FROM AUTHOR]

Published

2016

35. [Mn12O12(O2CMe)12(NO3)4(H2O)4]: facile synthesis of a new type of Mn12 complex.

Author

Thuijs AE, Christou G, and Abboud KA

Abstract

The title dodecanuclear Mn complex, namely dodeca-μ(2)-acetato-κ(24)O:O'-tetraaquatetra-μ(2)-nitrato-κ(8)O:O'-tetra-μ(4)-oxido-octa-μ(3)-oxido-tetramanganese(IV)octamanganese(III) nitromethane tetrasolvate, [Mn(12)(CH(3)COO)(12)(NO(3))(4)O(12)(H(2)O)(4)]·4CH(3)NO(2), was synthesized by the reaction of Mn(2+) and Ce(4+) sources in nitromethane with an excess of acetic acid. This compound is distinct from the previously known single-molecule magnet [Mn(12)O(12)(O(2)CMe)(16)(H(2)O)(4)], synthesized by Lis [Acta Cryst. (1980), B36, 2042-2044]. It is the first Mn(12)-type molecule containing nitrate ligands to be directly synthesized without the use of a preformed cluster. Additionally, this molecule is distinct from all other known Mn(12) complexes due to intermolecular hydrogen bonds between the nitrate and water ligands, which give rise to a three-dimensional network. The complex is compared to other known Mn(12) molecules in terms of its structural parameters and symmetry.

Published

2015