Yuan‐Zhu Zhang scite author profile

The magnetic properties of many magnetic materials can be controlled by external stimuli. The principal focus here is on the thermal, photochemical, electrochemical, and chemical control of phase transitions that involve changes in magnetization. The molecular compounds described herein range from metal complexes, through pure organic compounds to composite materials. Most of the Review is devoted to the properties of valence-tautomeric compounds, molecular magnets, and spin-crossover complexes, which could find future application in memory devices or optical switches.

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Trifluoromethylation Enables a 3D Interpenetrated Low-Band-Gap Acceptor for Efficient Organic Solar Cells

Lai

Zhao

Chen

et al. 2020

Joule

235

192

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Herein, trifluoromethylation has proven to be an effective strategy for ultra-narrow band-gap NFAs. A PCE of 15.59% is achieved from BTIC-CF 3 -g-based devices, which is the highest value in reported ultra-narrow band-gap acceptors. A ternary device with 16.50% efficiency is also obtained, resulting from its red-shifted absorption. Meanwhile, the single-crystal structure of BTIC-CF 3 -g has been successfully presented, which gives a deep understanding of the solid-state molecular packings in these highly efficient acceptors.

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A solution-processed n-type conducting polymer with ultrahigh conductivity

Tang

Liang

Liu

et al. 2022

Nature

237

162

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Thermochromic and Photoresponsive Cyanometalate Fe/Co Squares: Toward Control of the Electron Transfer Temperature

Zhang¹,

Ferko²,

et al. 2014

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Two structurally related and photoresponsive cyanide-bridged Fe/Co square complexes, {Fe2Co2}, are reported: {[(Tp(Me))Fe(CN)3]2[Co(bpy)2]2[(Tp(Me))Fe(CN)3]2}·12H2O (2) and {[(Tp(Me))Fe(CN)3]2[Co(bpy)2]2[BPh4]2}·6MeCN (3), where Tp(Me) and bpy are hydridotris(3-methylpyrazol-1-yl)borate and 2,2'-bipyridine, respectively. Through electrochemical and spectroscopic studies, the Tp(Me) ligand appears to be a moderate σ donor in comparison to others in the [NEt4][(Tp(R))Fe(III)(CN)3] series [where Tp(R) = Tp, hydridotris(pyrazol-1-yl)borate; Tp(Me) = hydridotris(3-methylpyrazol-1-yl)borate; pzTp = tetrakis(pyrazol-1-yl)borate; Tp* = hydridotris(3,5-dimethylpyrazol-1-yl)borate; Tp*(Me) = hydridotris(3,4,5-trimethylpyrazol-1-yl)borate]. The spectroscopic, structural, and magnetic data of the {Fe2Co2} squares indicate that thermally-induced intramolecular electron transfer reversibly converts {Fe(II)LS(μ-CN)Co(III)LS} pairs into {Fe(III)LS(μ-CN)Co(II)HS} units near ca. 230 and 244 K (T1/2) for 2 and 3, respectively (LS: low spin; HS: high spin). These experimental results show that 2 and 3 display light-induced {Fe(III)LS(μ-CN)Co(II)HS} metastable states that relax to thermodynamic {Fe(II)LS(μ-CN)Co(III)LS} ones at ca. 90 K. Ancillary Tp(R) ligand donor strength appears to be the dominant factor for tuning electron transfer properties in these {Fe2Co2} complexes.

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An Azide-Bridged Homospin Single-Chain Magnet: [Co(2,2‘-bithiazoline)(N₃)₂]_n

et al. 2003

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Yuan‐Zhu Zhang

Control of Magnetic Properties through External Stimuli

Trifluoromethylation Enables a 3D Interpenetrated Low-Band-Gap Acceptor for Efficient Organic Solar Cells

A solution-processed n-type conducting polymer with ultrahigh conductivity

Thermochromic and Photoresponsive Cyanometalate Fe/Co Squares: Toward Control of the Electron Transfer Temperature

An Azide-Bridged Homospin Single-Chain Magnet: [Co(2,2‘-bithiazoline)(N₃)₂]_n

Contact Info

Product

Resources

About

Yuan‐Zhu Zhang

Control of Magnetic Properties through External Stimuli

Trifluoromethylation Enables a 3D Interpenetrated Low-Band-Gap Acceptor for Efficient Organic Solar Cells

A solution-processed n-type conducting polymer with ultrahigh conductivity

Thermochromic and Photoresponsive Cyanometalate Fe/Co Squares: Toward Control of the Electron Transfer Temperature

An Azide-Bridged Homospin Single-Chain Magnet: [Co(2,2‘-bithiazoline)(N3)2]n

Contact Info

Product

Resources

About

An Azide-Bridged Homospin Single-Chain Magnet: [Co(2,2‘-bithiazoline)(N₃)₂]_n