Hua‐Jun Zhao scite author profile

A new chiral sulfide family, Ln(4)InSbS(9) (Ln = La, Pr, Nd), with its own structure type in space group P4(1)2(1)2 or its enantiomorph P4(3)2(1)2 has been synthesized by solid-state reaction. Remarkably, the La member shows the strongest Kleinman-forbidden second harmonic generation to date, with an intensity 1.5 times that of commercial AgGaS(2) at a laser wavelength of 2.05 μm, and exhibits type-I phase-matchable behavior. Density functional theory calculations and ab initio molecular dynamics simulations suggest that lattice vibrations may be responsible for the origin and magnitude of the strong SHG effect.

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Strong Infrared NLO Tellurides with Multifunction: CsX^II₄In₅Te₁₂ (X^II = Mn, Zn, Cd)

Lin

Liu

Zhou

et al. 2016

Inorg. Chem.

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Chalcogenides are the most promising mid- and far-infrared materials for nonlinear optical (NLO) applications. Yet, most of them are sulfides and selenides, and tellurides are still rare. Herein, we report three new KCd4Ga5S12-structure type NLO-active tellurides, CsX(II)4In5Te12 (X(II) = Mn, Zn, Cd), synthesized by solid-state reactions. The structure features a 3D diamond-like framework constructed by vertex-sharing asymmetric MTe4 tetrahedra that are stacked along the c-axis. CsCd4In5Te12 exhibits the strongest powder second-harmonic generation (SHG) intensity at 2050 nm (0.61 eV) among tellurides to date, 9 × benchmark AgGaS2 in the range of 46-74 μm particle size. The primary studies reveal the 1.42 eV direct band gap and high absorption coefficient in the visible spectral region for CsCd4In5Te12, suggesting it is a new potential solar cell absorber material. In addition, CsMn4In5Te12 also displays a spin-canted antiferromagnetic property below 50 K.

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Syntheses, Crystal and Electronic Structures, and Physical Properties of Two Quaternary Chalcogenides: La₄FeSb₂Q₁₀(Q = S, Se)

Zhao

et al. 2009

Inorg. Chem.

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Two new quaternary chalcogenides, La(4)FeSb(2)S(10) and La(4)FeSb(2)Se(10), have been synthesized from the stoichiometric mixture of elements by solid-state reactions at 1100 degrees C. The compounds crystallize in the orthorhombic space group Pbcm with a = 15.066(4) A, b = 7.590(2) A, c = 13.341(4) A, and Z = 4 and a = 15.596(5) A, b = 7.869(2) A, c = 13.960(4) A, and Z = 4, respectively. These structures represent an unique three-dimensional network, in which SbQ(3) trigonal pyramids (Sb-S < 2.60 A, Sb-Se < 2.80 A) are connected via a relatively weak Sb-Q bond (Sb-S approximately 2.90 A, Sb-Se approximately 3.00 A) in a novel teeter-totter (SbQ(4))(n) chain motif. The theoretical studies confirm the Sb-Q bonding interactions within such teeter-totter chains. Their optical band gaps are measured to be 1.00 and 0.85 eV. At room temperature, their electrical conductivities are about 10(-4) S/cm. Both compounds display antiferromagnetic interactions between Fe centers, and their effective magnetic moments are 5.25 and 6.17 micro(B), respectively.

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Hua‐Jun Zhao

Strong Kleinman-Forbidden Second Harmonic Generation in Chiral Sulfide: La₄InSbS₉

Strong Infrared NLO Tellurides with Multifunction: CsX^II₄In₅Te₁₂ (X^II = Mn, Zn, Cd)

Syntheses, Crystal and Electronic Structures, and Physical Properties of Two Quaternary Chalcogenides: La₄FeSb₂Q₁₀(Q = S, Se)

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Hua‐Jun Zhao

Strong Kleinman-Forbidden Second Harmonic Generation in Chiral Sulfide: La4InSbS9

Strong Infrared NLO Tellurides with Multifunction: CsXII4In5Te12 (XII = Mn, Zn, Cd)

Syntheses, Crystal and Electronic Structures, and Physical Properties of Two Quaternary Chalcogenides: La4FeSb2Q10(Q = S, Se)

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Product

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Strong Kleinman-Forbidden Second Harmonic Generation in Chiral Sulfide: La₄InSbS₉

Strong Infrared NLO Tellurides with Multifunction: CsX^II₄In₅Te₁₂ (X^II = Mn, Zn, Cd)

Syntheses, Crystal and Electronic Structures, and Physical Properties of Two Quaternary Chalcogenides: La₄FeSb₂Q₁₀(Q = S, Se)