Shedding Light on the Structure and Characterization of K₂ZnGe₂O₆: A Phase-Matchable Nonlinear Optical Crystal

Abstract: Nonlinear optical (NLO) materials have recently aroused great interest owing to their capability of frequency conversion in solid-state lasers. Herein, we report an acentric zinc germanate K2ZnGe2O6 obtained successfully through spontaneous crystallization methods. It affords a novel three-dimensional (3D) framework comprised of [GeO4] and [ZnO4] motifs with K atoms located in the tunnels. K2ZnGe2O6 displays a moderate second-harmonic-generation (SHG) intensity (0.73 × KDP) with phase-matchable behavior. Optic… Show more

“…Metal-centered polyhedra also have impacts on the structure and optical properties of crystals. Similar to stereochemically active lone pair (SCALP) cations or d 0 metal cations, they can positively affect the birefringence, 45,46 such as the SCALP Sn 2+ atom in Sn 2 PO 4 I (0.664 at 532nm), 47 the [WO 5 F] 5À octahedron in KWO 3 F (0.088 at 1064nm), 48 etc. However, these metal cations play a negative role in the transmission of UV light.…”

An effective pathway to design and synthesize UV birefringent crystalsviarational assembly of π-conjugated [CO₃]²⁻and [NO₃]⁻triangles

“…Metal-centered polyhedra also have impacts on the structure and optical properties of crystals. Similar to stereochemically active lone pair (SCALP) cations or d 0 metal cations, they can positively affect the birefringence, 45,46 such as the SCALP Sn 2+ atom in Sn 2 PO 4 I (0.664 at 532nm), 47 the [WO 5 F] 5À octahedron in KWO 3 F (0.088 at 1064nm), 48 etc. However, these metal cations play a negative role in the transmission of UV light.…”

An effective pathway to design and synthesize UV birefringent crystalsviarational assembly of π-conjugated [CO₃]²⁻and [NO₃]⁻triangles

“…The SHG intensity of Yb- R -1 is also much larger than a multifunctional Zn II –Yb III enantiomer (0.2 × KDP), a 2D Ag­(I) enantiomer (0.36 × KDP), and a pair of chiral Cu­(I) coordination polymers (0.36 × KDP) and is slightly larger than an eight-coordinated Dy III enantiomeric pair (0.7 × KDP) . It is even larger than some SHG-active inorganic materials, such as K 2 [Te 3 O 8 (OH) 4 ] (0.6 × KDP), CsKB 8 O 12 F 2 ·CsI (0.6 × KDP), and K 2 ZnGe 2 O 6 (0.73 × KDP) . According to eq and χ R (2) = 0.39 pm V –1 for KDP, the second-order NLO susceptibilities ( χ S (2) ) of Yb- R -1 and Yb- R -2 are calculated to be 0.35 and 0.12 pm V –1 , respectively. The precursor Yb­(tta) 3 (H 2 O) 2 only presents a strong THG response at λ = 517 nm (Figure S12) because it crystallizes in a centrosymmetric P 1̅ space group of the triclinic system .…”

“…48 It is even larger than some SHG-active inorganic materials, such as K 2 [Te 3 O 8 (OH) 4 ] (0.6 × KDP), 87 CsKB 8 O 12 F 2 •CsI (0.6 × KDP), 88 and K 2 ZnGe 2 O 6 (0.73 × KDP). 89 According to eq 1 and χ R…”

Two Chiral Yb^III Enantiomeric Pairs with Distinct Enantiomerically Pure N-Donor Ligands Presenting Significant Differences in Photoluminescence, Circularly Polarized Luminescence, and Second-Harmonic Generation

“…Nonlinear optical (NLO) materials capable of generating coherent and tunable lasers through frequency conversion capability, particularly those with the mid-infrared (IR) region covering the crucial atmospheric window (3-5 μm), have garnered significant interest in science and technology. [1][2][3][4][5] In recent years, significant strides have been made in the realm of design, synthesis, property characterization, and structureproperty elucidation of mid-IR NLO compounds. Prominent examples include commercially available chalcogenide-and pnictide-based crystals, AgGaQ 2 (Q = Se, S) and ZnGeP 2 .…”

LiVTeO₅: a mid-infrared nonlinear optical vanadium tellurate crystal exhibiting enhanced second harmonic generation activities and notable birefringence