Radical and Diradical Formation in Naphthalene Diimides through Simple Chemical Oxidation

Lee, Sangsu; Miao, Fang; Phan, Hoa; Herng, Tun Seng; Ding, Jun; Wu, Jishan; Kim, Dongho

doi:10.1002/cphc.201700015

Cited by 23 publications

(17 citation statements)

References 56 publications

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“…zethrenes, 58 – 60 phenalenyles, 61 , 62 quinodimethanes, 63 – 67 or diindeno fused π-systems. 68 , 69 The bisnitroxide ( 5 ), 70 – 74 bisoxoverdazyl ( 6 ), 75 and bisquinone ( 7 ) 76 – 79 were chosen as examples for heteroatom incorporation and supposedly very high diradical character.…”

Section: Resultsmentioning

confidence: 99%

Carbene derived diradicaloids – building blocks for singlet fission?

et al. 2018

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Section: Resultsmentioning

confidence: 99%

Carbene derived diradicaloids – building blocks for singlet fission?

et al. 2018

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“…Molecules with a large biradical character and a small singlet–triplet energy gap like OS‐2 .. are usually characterized by comparatively short lifetimes. Thus super‐heptazethrenes and phenoxyl substituted rylene bisimides and corannulenes with similar molecular properties (Δ E ST =0.041–0.082 eV, y= 0.64–0.83) readily decompose within hours under ambient conditions in solution and/or weeks in the solid state. Conversely, so far available materials with comparable stabilities like OS‐2 .. ( τ 1/2 =several weeks in solution and infinite in the solid state) exhibit considerably larger singlet–triplet energy gaps, smaller biradical characters or require substantial spin delocalization .…”

Section: Methodsmentioning

confidence: 99%

Stable Organic (Bi)Radicals by Delocalization of Spin Density into the Electron‐Poor Chromophore Core of Isoindigo

Rausch

Schmidt

Bialas

et al. 2018

Chemistry A European J

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The first isoindigo (bi)radicals were obtained by proton coupled oxidation of their 4-hydroxyaryl substituted precursors. Optical and magnetic spectroscopic studies revealed a singlet open-shell biradicaloid electronic ground state for the bisphenoxyl-isoindigo (=1.20) with a small singlet-triplet energy gap of 0.065 eV and a large biradical character of y=0.79 that was corroborated by temperature-dependent EPR spectroscopy and quantum chemical calculations. The concept of kinetic blocking of the radical centers and delocalization of spin density into the electron-withdrawing chromophore core of isoindigo offers an entry into a new class of exceptionally stable open-shell functional materials based on organic colorants.

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“…Recently, there has been a growing interest in the study of organic radical materials with unpaired electrons of open‐shell electronic structures that exhibit electronic cooperative interactions . Molecular radicals are an especially interesting condensed matter associated with the atomic center in a molecule, where the weak unpaired electron interactions can lead to a macroscopically characteristic state in bulk assemblies (high‐temperature molecular magnet, superconductor, etc.).…”

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confidence: 99%

“…The coupling between the magnetic and the electric orders generates novel functionalities, which do not exist in either single state . In recent years, there has been an enormous effort to discover new classes of polycyclic aromatic hydrocarbons (PAHs) with two or more functionalities, for example, magnetism and conductivity, ferroelectricity and optoelectronics, which is partially associated with complex charge transfer and radical interactions. The relationship between magnetic order characteristics and charge order has rarely been studied in PAHs, which is distinctly different from the typical ME effect in inorganic materials, especially the inorganic single solid phase with magnetoelectric effect .…”

mentioning
confidence: 99%

Magnetoelectric Radical Hydrocarbons
Guan
¹
,
Zhong
²
,
Hu
³

et al. 2018
Advanced Materials
4
1
2
0
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macroscopically characteristic state in bulk assemblies (high-temperature molecular magnet, superconductor, etc.). Recent investigations of molecular radicals have mainly concentrated on the exchange interaction involving s and p orbitals. For a pair of correlated electrons in different orbitals, the net spin (S) can be either 0 (antiparallel spins) or 1 (parallel spins), corresponding to the singlet and triplet states, which can attribute to the anti-ferromagnetic (AFM) or ferromagnetic (FM) spin coupling. [4][5][6] If such significant coupling can be maintained in a crystalline extended bulk structure, molecular radical magnets with high Curie or Neel temperature could be achievable. Although considerable progress has been made in the preparation of molecular radical magnets, the design of all-molecular radical magnetoelectric materials (RMEs) has remained elusive. [8][9][10][11][12] The prominent magnetoelectric mechanisms of organics include the spin and charge order-driven ferroelectricity in quantum anti-ferromagnetic compounds. [12][13][14] The RMEs provide an efficient method for the mutual control of radical magnetism and electric dipoles. The coupling between the magnetic and the electric orders generates novel functionalities, which do not exist in either single state. [8,9,[15][16][17] In recent years, there has been an enormous effort to discover new classes of polycyclic aromatic hydrocarbons (PAHs) with two or more functionalities, for example, magnetism [3][4][5] and conductivity, [18] ferroelectricity and optoelectronics, [19,20] which is partially associated with complex charge transfer and radical interactions. The relationship between magnetic order characteristics and charge order has rarely been studied in PAHs, which is distinctly different from the typical ME effect in inorganic materials, [12,15] especially the inorganic single solid phase with magnetoelectric effect. [21,22] Radical magnetic interactions in PAHs rely on the competition between the spins of unpaired electrons and thermal motion, and therefore, diradicals with magnetic exchange interactions are particularly relevant as they are comparable to thermal energy kT within the available temperature range. In addition, utilization of charge transfer and radical PAHs with large visible-light absorption is a promising route toward photoconductance and photovoltaic applications. [23] Here we investigate potassium-doped radical terphenyl (K 1.5 C 18 H 14 ) PAH with bulk anti-ferromagnetic spin coupling and ferroelectric imidazolium perchlorate (ImClO 4 ) compound RME solids, where the K atom is between two C 18 H 14 layers along the a-axis direction for the herringbone structured The molecular radicals, systems with unpaired electrons of open-shell electronic structures, set the stage for a multidisciplinary science frontier relevant to the cooperative magnetic exchange interaction and magnetoelectric effect. Here ferroelectricity together with magnetic spin exchange coupling in molecular radical hydrocarbon solids is reported, repres...

~~show abstract~~

Radical and Diradical Formation in Naphthalene Diimides through Simple Chemical Oxidation

Cited by 23 publications

References 56 publications

Carbene derived diradicaloids – building blocks for singlet fission?

Carbene derived diradicaloids – building blocks for singlet fission?

Stable Organic (Bi)Radicals by Delocalization of Spin Density into the Electron‐Poor Chromophore Core of Isoindigo

Magnetoelectric Radical Hydrocarbons

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