T. Yagi scite author profile

The fullerene C(60) can be converted into two different structures by high pressure and temperature. They are metastable and revert to pristine C(60) on reheating to 300 degrees C at ambient pressure. For synthesis temperatures between 300 degrees and 400 degrees C and pressures of 5 gigapascals, a nominal face-centered-cubic structure is produced with a lattice parameter a(o) = 13.6 angstroms. When treated at 500 degrees to 800 degrees C at the same pressure, C(60) transforms into a rhombohedral structure with hexagonal lattice parameters of a(o) = 9.22 angstroms and c(o) = 24.6 angstroms. The intermolecular distance is small enough that a chemical bond can form, in accord with the reduced solubility of the pressure-induced phases. Infrared, Raman, and nuclear magnetic resonance studies show a drastic reduction of icosahedral symmetry, as might occur if the C(60) molecules are linked.

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Superconductivity in compressed lithium at 20 K

Shimizu

Ishikawa

Takao

et al. 2002

Nature

338

258

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Superconductivity at high temperatures is expected in elements with low atomic numbers, based in part on conventional BCS (Bardeen-Cooper-Schrieffer) theory. For example, it has been predicted that when hydrogen is compressed to its dense metallic phase (at pressures exceeding 400 GPa), it will become superconducting with a transition temperature above room temperature. Such pressures are difficult to produce in a laboratory setting, so the predictions are not easily confirmed. Under normal conditions lithium is the lightest metal of all the elements, and may become superconducting at lower pressures; a tentative observation of a superconducting transition in Li has been previously reported. Here we show that Li becomes superconducting at pressures greater than 30 GPa, with a pressure-dependent transition temperature (T(c)) of 20 K at 48 GPa. This is the highest observed T(c) of any element; it confirms the expectation that elements with low atomic numbers will have high transition temperatures, and suggests that metallic hydrogen will have a very high T(c). Our results confirm that the earlier tentative claim of superconductivity in Li was correct.

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Metal-Insulator Transition inPrRu4P12with Skutterudite Structure

et al. 1997

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High-pressurein situx-ray-diffraction study of the phase transformation from graphite to hexagonal diamond at room temperature

et al. 1992

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Wengen, a Member of the Drosophila Tumor Necrosis Factor Receptor Superfamily, Is Required for Eiger Signaling

Kanda¹,

Igaki²,

Kanuka³

et al. 2002

Journal of Biological Chemistry

177

155

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We identified Wengen, the first member of the Drosophila tumor necrosis factor receptor (TNFR) superfamily. Wengen is a type III membrane protein with conserved cysteine-rich residues (TNFR homology domain) in the extracellular domain, a hallmark of the TNFR superfamily. wengen mRNA is expressed at all stages of Drosophila development. The small-eye phenotype caused by an eye-specific overexpression of a Drosophila TNF superfamily ligand, Eiger, was dramatically suppressed by down-regulation of Wengen using RNA interference. In addition, Wengen and Eiger physically interacted with each other through their TNFR homology domain and TNF homology domain, respectively. These results suggest that Wengen can act as a component of a functional receptor for Eiger. Our identification of Wengen and further genetic analysis should provide increased understanding of the evolutionarily conserved roles of TNF/TNFR superfamily proteins in normal development, as well as in some pathophysiological conditions.

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T. Yagi

New Phases of C ₆₀ Synthesized at High Pressure

Superconductivity in compressed lithium at 20 K

Metal-Insulator Transition inPrRu4P12with Skutterudite Structure

High-pressurein situx-ray-diffraction study of the phase transformation from graphite to hexagonal diamond at room temperature

Wengen, a Member of the Drosophila Tumor Necrosis Factor Receptor Superfamily, Is Required for Eiger Signaling

Contact Info

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Resources

About

T. Yagi

New Phases of C 60 Synthesized at High Pressure

Superconductivity in compressed lithium at 20 K

Metal-Insulator Transition inPrRu4P12with Skutterudite Structure

High-pressurein situx-ray-diffraction study of the phase transformation from graphite to hexagonal diamond at room temperature

Wengen, a Member of the Drosophila Tumor Necrosis Factor Receptor Superfamily, Is Required for Eiger Signaling

Contact Info

Product

Resources

About

New Phases of C ₆₀ Synthesized at High Pressure