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302 results on '"Zhang, Yuan‐Zhu"'

3. Molecular engineering of hole-selective layer for high band gap perovskites for highly efficient and stable perovskite-silicon tandem solar cells

Author

Wang, Guoliang, Zheng, Jianghui, Duan, Weiyuan, Yang, Jiong, Mahmud, Md Arafat, Lian, Qing, Tang, Shi, Liao, Chwenhaw, Bing, Jueming, Yi, Jianpeng, Leung, Tik Lun, Cui, Xin, Chen, Hongjun, Jiang, Feng, Huang, Yulan, Lambertz, Andreas, Jankovec, Marko, Topič, Marko, Bremner, Stephen, Zhang, Yuan-Zhu, Cheng, Chun, Ding, Kaining, and Ho-Baillie, Anita

Published
2023
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6. Hierarchically Assembled Gigantic Fe/Co Cyanometallate Clusters Exhibiting Electron Transfer Behavior Above Room Temperature.

Author

Chen, Zi‐Yi, Xie, Kai‐Ping, Cheng, Yue, Deng, Yi‐Fei, and Zhang, Yuan‐Zhu

Subjects
CHARGE exchange, COORDINATE covalent bond, ELECTRON spin, LIGANDS (Chemistry), HYDRAZINE
Abstract

The construction of large and complex supramolecular architectures through self‐assembly is at the forefront of contemporary coordination chemistry. Notwithstanding great success in various systems using anionic bridges (e.g., O2− or S2−) or organic ligands (e.g., pyridine or carboxylate ligands), the assembly of large cyanide‐bridged clusters with increasing nuclearity remains a formidable synthetic challenge. In this study, it is achieved in preparing two heterometallic cyanometallate clusters with unprecedented complexity, [Fe20Co20] (1) and [Fe12Co15] (2), by creating the "flexibility" through a versatile ligand of bis((1H‐imidazol‐4‐yl)methylene)hydrazine (H2L) and low‐coordinate cobalt. Complex 1 features a super‐square array of four cyanide‐bridged [Fe4Co4] cube subunits as the corners that are interconnected by four additional [FeCo] units, resulting in a torus‐shaped architecture. Complex 2 contains a lantern‐like core‐shell cluster with a triple‐helix kernel of [Co3L3] enveloped by a [Fe12Co12] shell. The combined structure analysis and mass spectrometry study reveal a hierarchical assembly mechanism, which sheds new light on constructing cyanometallate nanoclusters with atomic precision. Moreover, complex 1 undergoes a thermally induced electron‐transfer‐coupled spin transition (ETCST) between the diamagnetic {FeIILS(µ‐CN)CoIIILS} and paramagnetic {FeIIILS(µ‐CN)CoIIHS} configurations (LS = low spin, HS = high spin) above room temperature, representing the largest molecule displaying electron transfer and spin transition characteristic. [ABSTRACT FROM AUTHOR]

Published
2024
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12. An electron-transfer [Fe2Co2] square complex exhibiting unprecedented wide room-temperature hysteresis.

Author

Zhao, Xin-Hua, Deng, Yi-Fei, Chen, Jia-Tao, Yang, Jiong, and Zhang, Yuan-Zhu

Abstract

Switchable molecules with magnetic bistability that can function at standard conditions are highly desirable from the perspective of practical applications. Over the last decade, significant progress has been made in modulating thermally induced electron-transfer-coupled spin transition (ETCST) events between diamagnetic {FeIILS(μ-CN)CoIIILS} and paramagnetic {FeLS(μ-CN)-CoIIHS} electron configurations (named LS and HS, respectively, for short) within the Fe/Co mixed-valence cyanometallate complexes. Herein, we prepared a novel [Fe2Co2] square complex [(pzTp)Fe(CN)3Co(bnbpen)]2[NO3]2·4CH3OH·2.5H2O (1·Solv) and its desolvated phase [(pzTp)Fe(CN)3Co(bnbpen)]2[NO3]2 (1), obtained via single-crystal-to-single-crystal (SCSC) transformation. Complex 1·Solv remaining in the diamagnetic state below room temperature exhibits an irreversible ETCST behavior accompanied by desolvation upon heating. Notably, complex 1 displays an unprecedented rate-dependent ETCST behaviour involving with two diamagnetic LS states (a dynamically favoured LS1 state and a thermodynamically favoured LS2 state), between which a net one-way transition from LS1 to LS2 is accessible likely via a structural phase transition (SPT) above 255 K. Consequently, two well separated transition channels (HS ↔ LS1 at around 255 K and HS ↔ LS2 in the temperature range of 317–350 K) are achieved according to either fast (> 20 K/min) or slow rate (< 1 K/min), respectively. At a moderate rate of 3 K/min, complex 1 shows a wide hysteresis of 66 K centered at 328 K, the largest yet reported for discrete Fe/Co cyanometallate complexes. Complex 1 represents the first ETCST example coupled with dynamic SPT, providing a new strategy for manipulating bistability within this fascinating cyanometallate family. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Exploring a prototype for cooperative structural phase transition in cobalt(II) spin crossover compounds.

Author

Deng, Yi-Fei, Wang, Yi-Nuo, Zhao, Xin-Hua, and Zhang, Yuan-Zhu

Subjects
PHASE transitions, SPIN crossover, MAGNETIC transitions, MATERIALS science, PROTOTYPES, ATOMS, COBALT
Abstract

The creation of magnetically switchable materials that concurrently incorporate spin crossover (SCO) and a structural phase transition (SPT) presents a significant challenge in materials science. In this study, we prepared four structurally related cobalt(II)-based SCO compounds: two one-dimensional (1D) chains of {[(enbzp)Co(μ-L)](ClO4)2·sol}n (L = bpee, sol = 2MeOH·H2O, 1; L = bpea, sol = none, 2; enbzp = N,N′-(ethane-1,2-diyl)bis(1-phenyl-1-(pyridin-2-yl)methanimine); bpee = 1,2-bis(4-pyridyl)ethylene; and bpea = 1,2-bis(4-pyridyl)ethane) and their discrete segments, [{(enbzp)Co}2(μ-L)](ClO4)4·2MeOH (L = bpee, 3; L = bpea, 4). In all of these complexes, each Co(II) center is equatorially chelated by the planar tetradentate ligand enbzp and connected to a chain or dinuclear structure through bpee or bpea ligands along its axial direction. All of the complexes, including their desolvated phases, displayed overall incomplete and gradual SCO properties. Interestingly, the desolvated phase of 1 exhibited an additional non-spin magnetic transition characterized by wide room-temperature hysteresis (>40 K), which was reversible and rate-dependent, showcasing the synergy between SCO and SPT manifested through slow kinetics. We discuss the possible reasons for the distinct features and our findings demonstrate that the combination of a rigid polymeric framework with flexible substituents holds promise for achieving synergy between SCO and SPT. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Anthryl-functionalized cyanide-bridged Fe/Co cubes.

Author

Liu, Qi, Cheng, Yue, Liu, Shihao, Chen, Zi-Yi, and Zhang, Yuan-Zhu

Subjects
LUMINESCENCE measurement, STACKING interactions, MAGNETIC measurements, CYANIDES, CUBES, DILUTION
Abstract

Two anthryl-functionalized cyanide-bridged [Fe4Co4] cube complexes, [(pzTp)Fe(CN)3Co(TpEtOAn)]4[OTf]4·8MeCN·7Et2O (1) and [NEt4]3[(pzTp)Fe(CN)3Co(TpEtOAn)]4[OTf]7·5MeCN·2Et2O (2) (pzTp = tetrapyrazolylborate, TpEtOAn = 2,2,2-tris-(pyrazol-1-yl)ethoxy(9-methyl-anthracene)), were synthesized and characterized. The crystallographic study revealed that the [Fe4Co4] cubes are arranged into a linear supramolecular chain through significant anthryl–anthryl π–π stacking interactions in complex 1, whereas a zigzag supramolecular 1D assembly is observed in 2. The magnetic measurements showed that both compounds exhibited incomplete transitions from the paramagnetic {Fe IIILS (μ-CN)Co IIHS } state to the diamagnetic {Fe IILS (μ-CN)Co IIILS } state at about 200 K. The luminescence measurement of 1 in solution revealed an enhancement of the emission upon dilution or addition of perfluoronaphthalene (PFN) molecules, which could be attributed to the suppression of the aggregation-caused quenching (ACQ) effect, suggesting possible aggregation of the cube units in the solution. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Exploring the Significance of Packing Modes and 3D Framework Sizes Utilizing Three Chlorine-mediated Acceptors and the "Like Dissolves Like" Approach for Achieving an Efficiency Over 19%

Author

Lai, Hanjian, primary, Chen, Hui, additional, Chen, Zi-Yi, additional, Lang, Yongwen, additional, Zhu, Yulin, additional, Zhang, Shitong, additional, Lai, Xue, additional, Tan, Pu, additional, Zhang, Yuan-Zhu, additional, Yang, Bing, additional, Li, Gang, additional, and He, Feng, additional

Published
2023
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24. Manipulating Electron‐Transfer Events in [Fe4Co4] Cubes via a Mixed‐Ligand Approach: The Impact of Elastic Frustration.

Author

Chen, Zi‐Yi, Liu, Qi, Cheng, Yue, Deng, Yi‐Fei, Liu, Shihao, Wang, Xin‐Yi, and Zhang, Yuan‐Zhu

Subjects
FRUSTRATION, CHARGE exchange, METASTABLE states, INTERMOLECULAR interactions, CUBES
Abstract

The engineering of intermolecular interaction is challenging but critical for magnetically switchable molecules. Here, we prepared two cyanide‐bridged [Fe4Co4] cube complexes via the alkynyl‐ and alcohol‐functionalized trispyrazoyl capping ligands. The alkynyl‐functionalized complex 1 exhibited a thermally‐induced incomplete metal‐to‐metal electron transfer (MMET) behaviour at around 220 K, while the mixed alkynyl/alcohol‐functionalized cube of 2 showed a complete and abrupt MMET behaviour at 232 K. Remarkably, both compounds showed a long‐lived photo‐induced metastable state up to 200 K. The crystallographic study demonstrated that the incomplete transition of 1 was likely due to the possible elastic frustration originating from the competition between the anion‐propagated elastic interactions and inter‐cluster alkynyl‐alkynyl & CH‐alkynyl interactions, whereas the latter are eliminated in 2 as a result of the partial substitution by the alcohol‐functionalized ligand. Additionally, the introduction of chemically distinguishable cobalt centers within the cube unit of 2 did not lead to a two‐step but a one‐step transition, possibly because of the strong ferroelastic intramolecular interaction through the cyanide bridges. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Cyanide-Bridged Rope-like Chains Based on Trigonal-Bipyramidal [Fe2Cu3] Subunits

Author

Yang, Jiong, You, Mao-Lin, Liu, Shihao, Deng, Yi-Fei, Chang, Xiao-Yong, Holmes, Stephen M, and Zhang, Yuan-Zhu

Abstract

Extending a selected cyanometalate block into a higher dimensional framework continues to present intriguing challenges in the fields of chemistry and material science. Here, we prepared two rope-like chain compounds of {[(Tp*Me)Fe(CN)3]2Cu2X2(L)}·sol (1, X = Cl, L = (MeCN)0.5(H2O/MeOH)0.5, sol = 2MeCN·1.5H2O; 2, X = Br, L = MeOH, sol = 2MeCN·0.75H2O; Tp*Me= tris(3, 4, 5-trimethylpyrazole)borate) in which the cyanide-bridged trigonal-bipyramidal [Fe2Cu3] subunits were linked with the adjacent ones via two vertex Cu(II) centers, providing a new cyanometallate chain archetype. Direct current magnetic study revealed the presence of ferromagnetic couplings between Fe(III) and Cu(II) ions and uniaxial anisotropy due to a favorable alignment of the anisotropic tricyanoiron(III) units. Moreover, compound 1exhibits single-chain magnet behavior with an appreciable energy barrier of 72 K, while 2behaves as a metamagnet, likely caused by the subtle changes in the interchain interactions.

Published
2023
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32. Polyoxometalate steric hindrance driven chirality-selective separation of subnanometer carbon nanotubes

Author

Yang, Xusheng, Zhu, Chao, Zeng, Lianduan, Xue, Weiyang, Zhang, Luyao, Zhang, Lei, Zhao, Kaitong, Lyu, Min, Wang, Lei, Zhang, Yuan-Zhu, Wang, Xiao, Li, Yan, Yang, Feng, Yang, Xusheng, Zhu, Chao, Zeng, Lianduan, Xue, Weiyang, Zhang, Luyao, Zhang, Lei, Zhao, Kaitong, Lyu, Min, Wang, Lei, Zhang, Yuan-Zhu, Wang, Xiao, Li, Yan, and Yang, Feng

Abstract

Subnanometer single-chirality single-walled carbon nanotubes (SWCNTs) are of particular interest in multiple applications. Inspired by the interdisciplinary combination of redox active polyoxometalates and SWCNTs, here we report a cluster steric hindrance strategy by assembling polyoxometalates on the outer surface of subnanometer SWCNTs via electron transfer and demonstrate the selective separation of monochiral (6,5) SWCNTs with a diameter of 0.75 nm by a commercially available conjugated polymer. The combined use of DFT calculations, TEM, and XPS unveils the mechanism that selective separation is associated with tube diameter-dependent interactions between the tube and clusters. Sonication drives the preferential detachment of polyoxometalate clusters from small-diameter (6,5) SWCNTs, attributable to weak tube-cluster interactions, which enables the polymer wrapping and separation of the released SWCNTs, while strong binding clusters with large-diameter SWCNTs provide steric hindrance and block the polymer wrapping. The polyoxometalate-assisted modulation, which can be rationally customized, provides a universal and robust pathway for the separation of SWCNTs.

Published
2022

33. Thermo- and photo-induced electron transfer in a series of [Fe2Co2] capsules.

Author

Meng, Lingyi, Deng, Yi-Fei, Holmes, Stephen M., and Zhang, Yuan-Zhu

Subjects
CHARGE exchange, MOLECULAR capsules, ELECTRON spin, SPIN crossover, COLLOIDS
Abstract

Recently, a family of [Fe2Co2] molecular capsules that display tunable electron transfer-coupled spin transition (ETCST) behavior were reported via a smart approach through Schiff-base condensation of aldehyde-functionalized 2,2-bipyridines (bpyCHO) and 1,7-heptanediamine (H2N(CH2)7NH2). Here, three more capsule complexes {[(TpR)Fe(CN)3]2[Co(bpyC=N(CH2)nN=Cbpy)]2[ClO4]2}·n(solvent) (1, TpR = Tp*, n = 5, sol = 8DMF; 2, TpR = TpMe, n = 9, sol = 5MeCN; and 3, TpR = Tp*, n = 11, sol = 5MeCN), where Tp* = hydridotris(3,5-dimethylpyrazol-1-yl)borate and TpMe = hydridotris(3-methylpyrazol-1-yl)borate are reported, demonstrating a successful extension of such an approach with other alkyldiamines of different lengths. Combined X-ray crystallographic, infrared spectroscopic and magnetic studies reveal incomplete electron transfer with either changing temperature or upon light exposure. [ABSTRACT FROM AUTHOR]

Published
2023
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42. Tuning the electron transfer events in a series of cyanide-bridged [Fe2Co2] squares according to different electron donors.

Author

Meng, Lingyi, Deng, Yi-Fei, Liu, Jianxun, Liu, Yan Jun, and Zhang, Yuan-Zhu

Subjects
CHARGE exchange, CYANIDES, LIGAND field theory, MAGNETIC materials, X-ray crystallography, SPIN crossover, ELECTRON donors, ELECTRON spin states
Abstract

It has been recognized that both the ligand fields and intermolecular interactions may greatly impact the electron-transfer-coupled spin transition (ETCST) events in switchable magnetic materials; however, the engineering of these factors within a given system is still challenging. In this article, we chose the 4,4′-substituent 2,2′-bipyridine derivatives as chelating ligands according to their increasing electron-donating strength and incremental potential for forming hydrogen bonds (bpyCHO,CH3(L1) < bpyCH2OH,CH3 (L2) < bpyCH2OH,CH2OH (L3)), and prepared three new [Fe2Co2] complexes, {[(Tp*)Fe(CN)3Co(L)2]2[ClO4]2}·Sol (1, L = L1, Sol = 4MeCN·2H2O; 2, L = L2, Sol = 3MeCN; 3, L = L3, Sol = 4MeOH; Tp* = hydrotris(3,5-dimethylpyrazol-1-yl)borate). X-ray crystallography studies revealed that all the complexes share similar cyanide-bridged [Fe2Co2] square compositions except for the different substituted groups of L ligands, which led to the clearly evidenced intercluster hydrogen bonds between the neighbouring hydroxyl groups in 2 and 3. As a result, 1 remained in the paramagnetic [Fe III,LS2 Co II,HS2 ] state over the whole temperature range, while 2 and 3 showed complete ETCST behaviour with the transition temperatures (T1/2) being 221 and 294 K, respectively. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Host–Guest Molecular Interaction Enabled Separation of Large-Diameter Semiconducting Single-Walled Carbon Nanotubes

Author

Yang, Xusheng, primary, Liu, Tianhui, additional, Li, Ruoming, additional, Yang, Xiaoxin, additional, Lyu, Min, additional, Fang, Li, additional, Zhang, Lei, additional, Wang, Kun, additional, Zhu, Anquan, additional, Zhang, Luyao, additional, Qiu, Chenguang, additional, Zhang, Yuan-Zhu, additional, Wang, Xiao, additional, Peng, Lian-Mao, additional, Yang, Feng, additional, and Li, Yan, additional

Published
2021
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46. Host−guest molecular interaction enabled separation of large-diameter semiconducting single-walled carbon nanotubes

Author

Yang, Xusheng, Liu, Tianhui, Li, Ruoming, Yang, Xiaoxin, Lyu, Min, Fang, Li, Zhang, Lei, Wang, Kun, Zhu, Anquan, Zhang, Luyao, Qiu, Chenguang, Zhang, Yuan-Zhu, Wang, Xiao, Peng, Lian-Mao, Yang, Feng, Li, Yan, Yang, Xusheng, Liu, Tianhui, Li, Ruoming, Yang, Xiaoxin, Lyu, Min, Fang, Li, Zhang, Lei, Wang, Kun, Zhu, Anquan, Zhang, Luyao, Qiu, Chenguang, Zhang, Yuan-Zhu, Wang, Xiao, Peng, Lian-Mao, Yang, Feng, and Li, Yan

Abstract

Semiconducting single-walled carbon nanotubes (s-SWCNTs) with a diameter of around 1.0−1.5 nm, which present bandgaps comparable to silicon, are highly desired for electronic applications. Therefore, the preparation of s-SWCNTs of such diameters has been attracting great attention. The inner surface of SWCNTs has a suitable curvature and large contacting area, which is attractive in host−guest chemistry triggered by electron transfer. Here we reported a strategy of host−guest molecular interaction between SWCNTs and inner clusters with designed size, thus selectively separating s-SWCNTs of expected diameters. When polyoxometalate clusters of ∼1 nm in size were filled in the inner cavities of SWCNTs, s-SWCNTs with diameters concentrated at ∼1.3−1.4 nm were selectively extracted with the purity of ∼98% by a commercially available polyfluorene derivative. The field-effect transistors built from the sorted s-SWCNTs showed a typical behavior of semiconductors. The sorting mechanisms associated with size-dependent electron transfer from nanotubes to inner polyoxometalate were revealed by the spectroscopic and in situ electron microscopic evidence as well as the theoretical calculation. The polyoxometalates with designable size and redox property enable the flexible regulation of interaction between the nanotubes and the clusters, thus tuning the diameter of sorted s-SWCNTs. The present sorting strategy is simple and should be generally feasible in other SWCNT sorting techniques, bringing both great easiness in dispersant design and improved selectivity. © 2021 American Chemical Society. All rights reserved.

Published
2021

47. Slow magnetic relaxation in a Dy3 triangle and a bistriangular Dy6 cluster.

Author

Wang, Wen, Shang, Tao, Wang, Juan, Yao, Bin-Ling, Li, Li-Cun, Ma, Yue, Wang, Qing-Lun, Zhang, Yuan-Zhu, Zhang, Yi-Quan, and Zhao, Bin

Subjects
MAGNETIC relaxation, SINGLE molecule magnets, AB-initio calculations, MAGNETIC properties, ACTIVATION energy
Abstract

Two lanthanide single-molecule magnets (SMMs) [Dy33-OH)(HL-1)3(H2O)3](NO3)2·3H3O (1, H3L-1 = (E)-3-(((8-hydroxyquinolin-2-yl)methylene)amino)propane-1,2-diol) and [Dy63-OH)4(H2L-2)4(HL-2)2(L-2)2] (2, H3L-2 = (E)-2-hydroxy-N′-(2-hydroxy-3-methoxybenzylidene)benzohydrazide) were synthesized and characterized structurally and magnetically. Complex 1 contains a triangular Dy3 core in which the three Dy3+ ions share a μ3-OH anion and the deprotonated ligands of (HL-1)2− serve both capping and bridging functions, while 2 displays a centrosymmetric hexanuclear DyIII structure with two similar Dy3 triangular cores ligated by two fully deprotonated (L-2)3− ligands, each of which shares two μ3-OH anions. All the DyIII ions are eight-coordinated with quasi D2d or C2v symmetry. Magnetic studies reveal that 1 exhibited two-step magnetic relaxation under an applied dc field of 800 Oe, with effective energy barriers of 40.1 and 31.0 K for the slow relaxation (SR) and fast relaxation regimes (FR), respectively. Meanwhile, 2 only showed a tail of slow magnetic relaxation at above 2 K. Ab initio calculations have been carried out to show the nature of their different magnetic properties. [ABSTRACT FROM AUTHOR]

Published
2022
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50. Enforcing Ising-like magnetic anisotropy via trigonal distortion in the design of a W(v)–Co(ii) cyanide single-chain magnet† †This project was granted financial support from the Department of Energy (DE-FG02-02ER45999). Funds for the SQUID magnetometer were obtained from the National Science Foundation. ‡ ‡Electronic supplementary information (ESI) available. CCDC 1508991. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c7sc02925j

Author

Zhang, Yuan-Zhu, Dolinar, Brian S., Liu, Shihao, Brown, Andrew J., Zhang, Xuan, Wang, Zhao-Xi, and Dunbar, Kim R.

Subjects
Chemistry
Abstract

A new octacyanotungstate(v) singe chain magnet with an effective energy barrier of 39.7(3) cm–1 is achieved by enforcing Ising-like magnetic anisotropy via introduction of trigonal distortion with a fac-tridentate capping ligand., A new octacyanotungstate(v) based single chain magnet {[(Tpm)Co(DMF)W(CN)8]2[Co(DMF)4]·2DMF}n (1, Tpm = 1,1,1-trispyrazoylmethane), with an effective barrier of 39.7(3) cm–1 is reported. The Ising-like magnetic anisotropy of the chain originates from the nearly parallel local orientations of the Co(ii) ions with the source of the uniaxial magnetic anisotropy being a trigonal distortion of the octahedral environment with the fac-tridentate capping Tpm ligand.

Published
2017

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