164 results on '"Li, Bing‐Xuan"'
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2. LnLiSiS4 (Ln = La and Ce): Promising infrared nonlinear optical materials designed by aliovalent substitution from SrCdSiS4
3. AMoO3(IO3) (A = Na and K): Two promising optical materials via properly assembling the Λ-shaped basic building units
4. Halide-driven polarity tuning and optimized SHG-bandgap balance in (C4H11N2)ZnX3 (X = Cl, Br, I).
5. Hg3Se(SeO3)(SO4): A Mixed-Valent Selenium Compound with Mid-Infrared Transmittance Obtained by In Situ Reaction
6. Hg3AsS4X (X = Cl and Br): Two Hg-based chalcogenides as long-wave infrared nonlinear optical crystals with superior comprehensive performances
7. Performance assessment in the commercial off-the-shelf receiver radio occultation mission on VELOX-CI satellite
8. Breaking Through the Trade‐Off Between Wide Band Gap and Large SHG Coefficient in Mercury‐Based Chalcogenides for IR Nonlinear Optical Application
9. A retrospective study of poisoning deaths from forensic autopsy cases in northeast China (Liaoning)
10. Hg3Se(SeO3)(SO4): A Mixed-Valent Selenium Compound with Mid-Infrared Transmittance Obtained by In Situ Reaction.
11. Breaking Through the Trade‐Off Between Wide Band Gap and Large SHG Coefficient in Mercury‐Based Chalcogenides for IR Nonlinear Optical Application.
12. α- and β-(C4H5N2O)(IO3)·HIO3: Two SHG Materials Based on Organic–Inorganic Hybrid Iodates
13. From CdPb8(SeO3)4Br10 to Pb3(TeO3)Br4: the first tellurite bromide exhibiting an SHG response and mid-IR transparency.
14. (NH4)2(I5O12)(IO3) and K1.03(NH4)0.97(I5O12)(IO3): Mixed‐Valent Polyiodates with Unprecedented I5O12− Unit Exhibiting Strong Second‐Harmonic Generation Responses and Giant Birefringence
15. CsHfF4(IO3): A Hafnium Iodate Exhibiting a Strong Second-Harmonic-Generation Effect and a Wide Band Gap Achieved by Mixed-Ligand Acentric Coordination
16. Rational Design of a Rare‐Earth Oxychalcogenide Nd3[Ga3O3S3][Ge2O7] with Superior Infrared Nonlinear Optical Performance
17. Growth and Optical Properties of Large-Sized NaVO2(IO3)2(H2O) Crystals for Second-Harmonic Generation Applications
18. From CdPb8(SeO3)4Br10 to Pb3(TeO3)Br4: The first tellurite bromide exhibiting SHG response and mid-IR transparency
19. Honeycomb Layered Topology Construction for Exceptional Long-wave Infrared Nonlinear Optical Crystals
20. [M(OH)2]3(IO3)(SeO4)·H2O (M = Ga, In): metal iodate-selenate nonlinear optical materials with hexagonal tungsten oxide-type topology
21. Ce(IO3)3F and Ce(IO3)2(NO3): Two Mixed-Anion Cerium Iodates with Good Nonlinear Optical and Birefringent Properties.
22. α- and β‑(C4H5N2O)(IO3)·HIO3: Two SHG Materials Based on Organic–Inorganic Hybrid Iodates.
23. Achieving Large Second Harmonic Generation Effects via Optimal Planar Alignment of Triangular Units
24. [M(OH)2]3(IO3)(SeO4)·H2O (M = Ga and In): metal iodate–selenate nonlinear optical materials with a hexagonal tungsten oxide-type topology.
25. Rational Design of a Rare‐Earth Oxychalcogenide Nd3[Ga3O3S3][Ge2O7] with Superior Infrared Nonlinear Optical Performance.
26. Ce(IO3)3F and Ce(IO3)2(NO3): Two Mixed-Anion Cerium Iodates with Good Nonlinear Optical and Birefringent Properties
27. Corrigendum: Explorations of New SHG Materials in Mercury Iodate Sulfate System**
28. Reconfigurable Hardware Architecture of Area-Efficient Multimode Successive Cancellation (SC) Decoder
29. CsHfF4(IO3): A Hafnium Iodate Exhibiting a Strong Second-Harmonic-Generation Effect and a Wide Band Gap Achieved by Mixed-Ligand Acentric Coordination.
30. Growth and Optical Properties of Large-Sized NaVO2(IO3)2(H2O) Crystals for Second-Harmonic Generation Applications.
31. Achieving Large Second Harmonic Generation Effects via Optimal Planar Alignment of Triangular Units.
32. Explorations of New SHG Materials in Mercury Iodate Sulfate System**
33. Na3Ti3O3(SeO3)4F: A Phase-Matchable Nonlinear-Optical Crystal with Enlarged Second-Harmonic-Generation Intensity and Band Gap
34. LaBS3 revisited: a promising mid-infrared nonlinear optical material
35. CaCe(IO3)3(IO3F)F: a promising nonlinear optical material containing both IO3− and IO3F2− anions
36. Phase matching achieved by isomorphous substitution in IR nonlinear optical material Ba2SnSSi2O7 with an undiscovered [SnO4S] functional motif
37. Cd2(IO3)(PO4) and Cd1.62Mg0.38(IO3)(PO4): metal iodate-phosphates with large SHG responses and wide band gaps
38. Ba4Ag5(IO3)6(I3O8)3(I4O11)2: a nonlinear optical crystal containing two types of polyiodate anions
39. Cd4REO(BO3)3 (RE = Sm, Eu, Tb): three new cadmium–rare earth oxyborates with both good NLO and luminescence properties
40. [Untitled]
41. Ba4Ag5(IO3)6(I3O8)3(I4O11)2: a nonlinear optical crystal containing two types of polyiodate anions.
42. CaCe(IO3)3(IO3F)F: a promising nonlinear optical material containing both IO3− and IO3F2− anions.
43. LaBS3 revisited: a promising mid-infrared nonlinear optical material.
44. Cd2(IO3)(PO4) and Cd1.62Mg0.38(IO3)(PO4): metal iodate-phosphates with large SHG responses and wide band gaps.
45. [ o ‐C 5 H 4 NHOH] 2 [I 7 O 18 (OH)]⋅3 H 2 O: An Organic–Inorganic Hybrid SHG Material Featuring an [I 7 O 18 (OH)] Branched Polyiodate Chain
46. Cd4REO(BO3)3 (RE = Sm, Eu, Tb): three new cadmium–rare earth oxyborates with both good NLO and luminescence properties.
47. M2As2Q5 (M = Ba, Pb; Q = S, Se): a source of infrared nonlinear optical materials with excellent overall performance activated by multiple discrete arsenate anions
48. [GaF(H2O)][IO3F]: a promising NLO material obtained by anisotropic polycation substitution
49. CsVO 2 F(IO 3 ): An Excellent SHG Material Featuring an Unprecedented 3D [VO 2 F(IO 3 )] − Anionic Framework
50. Cover Picture: Li[LiCs 2 Cl][Ga 3 S 6 ]: A Nanoporous Framework of GaS 4 Tetrahedra with Excellent Nonlinear Optical Performance (Angew. Chem. Int. Ed. 12/2020)
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