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Irradiation of a spin-active nucleus causes an increase or decrease in the signal intensity of neighboring nuclei that are not necessarily chemically bonded or involved in J-coupling. This phenomenon, called the nuclear Overhauser enhancement (NOE), results from through-space interactions between the nuclear spins. The NOE effect decreases with increasing internuclear distance and is generally not observed beyond 4 angstroms. In NOE, dipole-dipole interactions between neighboring spin-active...
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Tetrahedral Complexes
Crystal field theory (CFT) is applicable to molecules in geometries other than octahedral. In octahedral complexes, the lobes of the dx2−y2 and dz2 orbitals point directly at the ligands. For tetrahedral complexes, the d orbitals remain in place, but with only four ligands located between the axes. None of the orbitals points directly at the tetrahedral ligands. However, the dx2−y2 and dz2 orbitals (along the Cartesian axes) overlap with the ligands less than the dxy,...
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Two NMR-active nuclei bonded to a central atom can be involved in geminal or two-bond coupling. Geminal coupling is commonly seen between diastereotopic protons in chiral molecules and unsymmetrical alkenes, among others.
The central atom need not be NMR-active because its electrons are affected by the electron polarization of the spin-active atoms. However, spin information is transmitted less effectively than in one-bond coupling, and 2J values are usually weaker than 1J values. The energy of...
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An applied magnetic field causes loosely bound π-electrons in organic molecules to circulate, producing a local or induced diamagnetic field over a large spatial volume. As the molecules tumble in solution, the field generated by π-electrons in spherical substituents results in a zero net field. However, the net field generated by π-electrons in non-spherical substituents is not zero. The effect of this induced field depends on the orientation of the molecule with respect to B0,...
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Color in Coordination Complexes
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双维 MnO2纳米材料中的双交换效应

Xu Peng1, Yuqiao Guo1, Qin Yin1

  • 1Hefei National Laboratory for Physical Sciences at the Microscale, Collaborative Innovation Center of Chemistry for Energy Materials (iChEM), CAS Center for Excellence in Nanoscience, and CAS Key Laboratory of Mechanical Behavior and Design of Materials, University of Science and Technology of China , Hefei, Anhui 230026, P. R. China.

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概括

研究人员在二维二氧化 (MnO2) 纳米材料中诱导了室温附近的金属绝缘体转换. 这种过渡具有极高的负磁阻,为先进的智能设备铺平了道路.

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科学领域:

  • 材料科学
  • 凝聚物质物理学
  • 纳米技术

背景情况:

  • 电子状态转换,特别是金属绝缘器转换 (MIT),对于能源应用和智能设备至关重要.
  • 很少有简单的金属氧化物在室温附近呈现电子状态转换,这限制了它们的实际使用.

研究的目的:

  • 在二维 (2D) 纳米材料中展示室温附近MIT的化学诱导.
  • 探索二维材料的双重交换效应的潜力,以获得新的电子特性.

主要方法:

  • 化学调节二维二氧化 (MnO2) 纳米板的价值状态.
  • 诱导一个Mn(III) -O-Mn(IV) 结构以促进双交换效应.
  • 通过实验描述电子转换和磁阻 (MR) 的特性.

主要成果:

  • 通过双交换的化学诱导在2D MnO2纳米材料中实现了接近室温的MIT.
  • 观察到超高的负MR值为-11.3% (在0.1T) 在287K,这是2D纳米材料在室温附近报告的最高值.
  • 在270K和290K之间显示出显著的红外响应,传导率变化为7.1%.

结论:

  • 双交换结构在2D MnO2纳米板中的维度限制使其具有显著的磁传输特性.
  • 观察到的超高阴性MR和红外响应表明敏感智能设备应用的潜力.