Sodium chloride revisited

Everybody knows that the formula of sodium chloride is NaCl. Right? Right. But recently, the team of Artem Oganov at Stony Brook University have shown that there are other stable types of crystalline sodium chloride. They have predicted several thermodynamically stable compounds: Na₃Cl, Na₂Cl, Na₃Cl₂, NaCl₃, and NaCl₇. Moreover, by utilising high-pressure techniques, they synthesised cubic and orthorhombic NaCl₃ and two-dimensional tetragonal Na₃Cl [1, 2].

NaCl3 (space group Pm3n)

Na3Cl (space group P4/mmm)

“One of these materials — Na₃Cl — has a fascinating structure”, says Oganov. “It is comprised of layers of NaCl and layers of pure sodium. The NaCl layers act as insulators; the pure sodium layers conduct electricity” [3].

1. Zhang, W., Oganov, A.R., Goncharov, A.F., Zhu, Q., Boulfelfel, S.E., Lyakhov, A.O., Stavrou, E., Somayazulu, M., Prakapenka, V.B. and Konôpková, Z. (2013) Unexpected stable stoichiometries of sodium chlorides. Science 342, 1502—1505; arXiv:1310.7674v1
2. Ibáñez Insa, J. (2013) Reformulating table salt under pressure. Science 342, 1459—1460.
3. SBU team discovers new compounds that challenge the foundation of chemistry. Stony Brook University Newsroom, December 19, 2013.

The discovery of the quantum dot

Louis Brus talks about his discovery of colloidal quantum dots in 1980s.

One of the truisms of science is that the basic research scientists who invent something are not the best judges of where it’s useful.

Icosahedrite

In 1982, Dan Shechtman observed unusual diffraction pattern in aluminium—manganese alloy [1, 2]. Almost 30 years later, he was awarded The Nobel Prize in Chemistry 2011 “for the discovery of quasicrystals”.

Earlier this year, the first naturally occurring quasicrystal was described. Icosahedrite Al₆₃Cu₂₄Fe₁₃ is a new mineral found in southeastern Chukhotka, Russia. It is named “for the icosahedral symmetry of its internal atomic structure, as observed in its diffraction pattern” [3].

1. Shechtman, D., Blech, I., Gratias, D. and Cahn, J. (1984) Metallic phase with long-range orientational order and no translational symmetry. Physical Review Letters 53, 1951—1953.
2. Fernholm, A. (2011) Crystals of golden proportions. Nobelprize.org.
3. Bindi, L., Steinhardt, P.J., Yao, N. and Lu, P.J. (2011) Icosahedrite, Al₆₃Cu₂₄Fe₁₃, the first natural quasicrystal. American Mineralogist 96, 928—931.

Magnetic monopoles in spin ice

Although the magnetic monopoles were postulated by Paul Dirac in 1931, the existence of these particles remains an open problem. This article surveys the recent breakthrough discoveries concerning magnetic monopoles within spin ice materials, dysprosium titanate (Dy₂Ti₂O₇) and holmium titanate (Ho₂Ti₂O₇).