成果及论文 - 追光逐梦课题组

1. Jing, Q*（通讯作者）; Hu, M; Wang, J; Jiang, Y; Duan, H; Chen, Z; Cs2Pb (CO3) 2: a novel mixed-metal carbonate with rare Pb-CO one-dimensional chain. Journal of Materials Science,2024,1-11.

2. Leng, X; Hu, M; Jing, Q*（通讯作者）; Duan, H*; Chen, H; Chen, Z; The electronic structures and optical properties induced by spin-orbit-coupling in LiPbPO₄ compound, Journal of Physics D-applied Physics, 2024,57(32), 325303.

3. Abudoureheman, M; Lv, J; Zhu, M; Chen, H; Wei, B; Jin, L; Jing, Q*（通讯作者）; Chen, Z*; Structural characterisation and optical properties of new alkaline earth phosphate CaMg(P₄O₁₂) and alkaline alumophosphate Cs₃Al₄(PO₄)₅, Dalton Transactions, 2024, 53(30), 12560-12566.

4. Tuerhong, N.; Chen, H.; Hu, M.; Cui, X.; Duan, H.; Jing, Q*（通讯作者）; Chen, Z.; The enhanced bandgap and birefringence of rare-earth phosphates XPO 4 (X= Sc, Y, La, and Lu): a first-principles investigation. Physical Chemistry Chemical Physics, 2024,26(21), 15751-15757.

5. Feng, Q.; Wang, J.; Liu, C.; Jing, Q*（通讯作者）; Dong, X.; NaVSeO5: synergistic combinations to synthesize excellent birefringent materials, Inorg. Chem. Front., https://doi.org/10.1039/D4QI00513A

6. Leng, X.; Hu, M.; Jing, Q*（通讯作者）; Duan, H.; Chen, H.; Cui, X.; The Spin–Orbit Effect on the Electronic Structures, Refractive Indices, and Birefringence of X2PO4I (X = Pb, Sn, Ba and Sr): A First-Principles Investigation, Nanomaterials 2024, 14, 617.

7. Hu, M.; Wang, J.; Nuerbiye Tuerhong, Zhang, Z.; Jing, Q*（通讯作者）; Chen, Z.; Yang, Y.; Lee, M.; Novel antimony phosphates with enlarged birefringence induced by lone pair cations, Dalton Transactions, 2024, 53, 3377 - 3385

8. Jing, Q*（通讯作者）; Zhu, M.; Li, L.; Ji, X.; Duan, H.; Chen, H.; Lee, M.; Two noncentrosymmetric alkali metal phosphates MZnPO4 (M = Rb, Cs) with honeycomb-like structures, Optical Materials 147 (2024) 114620

9. Wang, X.; Leng, X.; Kuk, Y.; Lee, J.; Jing, Q*（通讯作者）；OK, K.; Deep-Ultraviolet Transparent Mixed Metal Sulfamates with Enhanced Nonlinear Optical Properties and Birefringence, Angew. Chem. Int. Ed. 2023, e202315434

10. Feng, Q.; Gao, Z.; Hou, K.; Wang, J.; Du, H.; Jing, Q*（通讯作者）；Synthesis, structures and properties of two new selenite optical materials: K2Zn3Se4O12 and K4Zn3V4Se2O19, Dalton Trans., 2023, 52, 16920

11. Hu, M.; Tuerhong, N.; Chen, Z.; Jing, Q*（通讯作者）； Lee, M.; Li3B8O13X (X= ClandBr):Two New Noncentrosymmetric Crystals with Large Birefringence Induced by BO3 Units, Inorg. Chem., 2023, 3609

12. Wu, L.; Zhang, R.; Jing, Q*（通讯作者）；Huang, H.; He, X.; Wang, Z.; Chen, Z.; Modulating optical performance by phase transition in a nonlinear optical material β-Li2RbBi (PO4)2, Inorg. Chem. Front., 2023, 10, 4496

13. Zhang, R.; Cui, X.; Duan, H.; Jing, Q*（通讯作者）； Chen, Z.; Lee M.-H.; Cao, H.; The induced polarization enhanced birefringence in AlPS4 family: A first-principles investigation；Chem. Phys. Lett. 2023, 140496

14. He, X.; Qi, L.; Zhang, W.; Zhang, R.; Dong, X.; Ma, J.; Maierhaba Abudoureheman; Jing, Q*（通讯作者）； Chen, Z.; Controlling the Nonlinear Optical Behavior and Structural Transformation with A-Site Cation in α-AZnPO4 (A = Li, K); Small 2023, 2206991

15. Xie, Q.; Pan, M.; Wang, Z.; Si, W.; Zhang, R.; Shu, Y.; Sun, G.; Jing, Q*（通讯作者）；Shen, Y.; Hiroshi Uyama; Enhancing the oxygen reduction activity by constructing nanocluster-scaled Fe2O3/Cu interfaces; Nanoscale 2023 DOI: 10.1039/d2nr06941e

16. Fan, C.; Wan, Z.; Pan, M.; Hou, J.; Shi, Y.; Guo, W.; Wang, G.; Peng, S.; Jing, Q*（通讯作者）; Chen, L.; Photoassisted Electrochemical Hydrogen Evolution Reaction of MFe2O4@Ultrathin Black Phosphorus Amorphous–Crystalline Interface. ACS Appl. Mater. Interfaces 2022, 14, 49, 54748–54757

17. Wang, X.; Qi, L.; Wu, L.; Zhang, R.; Abudoureheman, M.*; Lv, J.; Wang, P.; Dong, X.; Jing, Q.*（通讯作者）; Chen, Z.*; Synergistic effect of ²[V₂P₂O₁₄]_∞ layers and hydrogen bonds inducing large birefringence in M(VO)₂(PO₄)₂·4H₂O (M = Ca, Sr, Ba) systems. CrystEngComm, 2022,24, 6492-6497

18. Lv, J.; Qian, Y.; Jing, Q.*（通讯作者）; Wang, X.; Lee, M.-H.; Chen, Z.*; Two Metal Phosphate Nonlinear Optical Materials Simultaneously Exhibiting Ultraviolet Transparence and a Large Birefringence. Chem. Mater. 2022, 34, 13, 5919-5927

19. Li, Lu.; Qian, Y.; Leng, X.; Cui, X.; Duan, H.; Lee, M.-H.; Cao, H.; Jing, Q.*（通讯作者）; First-Principles Investigation About Different Sequence of Stereochemical Activity and Birefringence in Antimony Halides. Phys. Status Solidi B, 2022, 2100576

20. Qian, Y.; Jing, Q.*（通讯作者）; Duan, H.; Lee, M.-H.; Cao, H., First-Principles Study of the Influence of Lone Pair Electrons and Molecular Groups on the Birefringence of Phosphate and Fluorophosphate. Physica B: Condensed Matter 2022, 630，413676

21. Lv, J.; Qian, Y.; Zhu, Y.; Jing, Q.*（通讯作者）; Wang, X.; Chen, Z., AAl₃P₆O₂₀ (A = Rb, Cs): Two Deep-Ultraviolet Transparent Nonlinear Optical Materials Designed by Aliovalent Substitution. J. Alloys Compd. 2022, 902, 162608

22. Shi, X.; Jing, Q.*(通讯作者); Lee, M.-H.; Cao, H.; Long, M.; A first-principle investigate about the different response of birefringence and SHG from AB3O6 (A = Bi, Sb) compounds. Chem. Phys. Lett. 2022, 786 ,139188

23. Yan, Y.; Chen, Y.; Jiang, B.; Jing, Q.*(通讯作者); Zhang, J.; Li₅Cs(SO₄)₃: a potential zero-order wave plate material with short deep-ultraviolet cutoff edge. New J. Chem., 2021, 45, 19883

24. Wang, K.; Jing, Q.*（通讯作者）; Wan, Z.; Lee, M.-H.; Duan, H.; Cao, H.; Zhang, J.; Different mechanism of stereochemical activity and birefringence in post-transition metal halides: A first-principles investigation. J. Solid State Chem. 2021, 297, 122038

25. Qi, L.; Chen, Z.; Shi, X.; Zhang, X.; Jing, Q.* （通讯作者）; Li, N.; Jiang, Z.; Zhang, B.; Lee, M.-H., A₃BBi(P₂O₇)₂ (A = Rb, Cs; B = Pb, Ba): Isovalent Cation Substitution to Sustain Large Second-Harmonic Generation Responses. Chem. Mater. 2020, 32 (19), 8713-8723.

26. Shi, X.; Jing, Q.* （通讯作者）; Chen, Z.; Lee, M.-H.; Duan, H.; Ding, H., Different mechanism of response of asymmetric lone pair electrons around ns2 cations to birefringence and second harmonic generation. J. Appl. Phys. 2020, 128 (11)，113104

27. Lu, X.; Chen, Z.; Shi, X.; Jing, Q.* （通讯作者）; Lee, M.-H., Two Pyrophosphates with Large Birefringences and Second‐Harmonic Responses as Ultraviolet Nonlinear Optical Materials. Angew Chem Int Ed 2020, 59 (40), 17648-17656.

28. Chen, W.; Zhang, W.; Lee, M.-H.; Jing, Q.* （通讯作者）; Lu, X.; Chen, Z., BaV₂O₆·H₂O: A Nonlinear Optical Crystal with a Large Bandgap. Opt. Mater. 2019, 88, 642-647.

29. Zhang, Q.; Mushahali, H.; Duan, H.; Lee, M.-H.; Jing, Q.* （通讯作者）, The Linear and Nonlinear Optical Response of CsGeX₃ (X=Cl, Br, and I): The Finite Field and First-Principles Investigation. Optik 2019，179 ， 89–98

30. Zhang, Z.; Dong, X.; Chen, Z.; Shi, Y.; Jing, Q.* （通讯作者）, Pb₁₀V₆O₂₅: A new lead vanadate with apatite structure. J. Mol. Struct. 2018, 1151, 223-229.

31. Zhang, Q.; Jing, Q.* （通讯作者）; Duan, H.; Cao, H., The relationship between covalent bonds and the optical response in a nonpolar family ATeMoO₆ (A=Mg, Zn, Cd): A Berry-phase investigation. J. Solid State Chem. 2018, 264, 22-28.

32. Mushahali, H.; Mu, B.; Wang, Q.; Mamat, M.; Cao, H.; Yang, G.; Jing, Q.* （通讯作者）, A strategy for optical properties investigation in ABe₂BO₃F₂ (A=K, Rb, Cs) using finite field methods. Physica B: Condensed Matter 2018, 541, 111-115.

33. Jing, Q.; Yang, G.; Chen, Z.; Dong, X.; Shi, Y., A Joint Strategy To Evaluate the Microscopic Origin of the Second-Harmonic-Generation Response in Nonpolar ABCO₃F Compounds. Inorg. Chem. 2018, 57 (3), 1251-1258.

34. Chen, Z.; Fang, Y.; Zhang, W.; Chen, W.; Lu, X.; Jing, Q.* （通讯作者）; Lee, M. H., ALiZnP₂O₇ (A = Rb, Cs): Two Mixed Alkali Zinc Pyrophosphates Featuring a [Li₂Zn₂P₄O₂₀]^14- Anionic Skeleton. Inorg. Chem. 2018. 57, 10568−10575

35. Chen, Z.; Zhang, Z.; Wu, R.; Dong, X.; Shi, Y.; Jing, Q.* （通讯作者）, Theoretical study on Pb₂VO₂F₅: large birefringence derived from optical anisotropies of VO₂F₄ groups. J. Mater. Sci. 2017, 53 (5), 3483-3492.

36. Chen, Z.; Zhang, Z.; Dong, X.; Shi, Y.; Liu, Y.; Jing, Q.* （通讯作者）, Li₃VO₄: A Promising Mid-Infrared Nonlinear Optical Material with Large Laser Damage Threshold. Cryst. Growth Des. 2017, 17 (5), 2792-2800.

37. Jing, Q.; Yang, G.; Hou, J.; Sun, M.; Cao, H., Positive and Negative Contribution to Birefringence in a Family of Carbonates: A Born Effective Charges Analysis. J. Solid State Chem. 2016, 244, 69-74.

38. Jing, Q.; Yang, Z.; Pan, S.; Xue, D., Contribution of Lone-Pairs to Birefringence Affected by the Pb(II) Coordination Environment: A Dft Investigation. Phys. Chem. Chem. Phys. 2015, 17, 21968-73.

39. Dong, X.; Jing, Q.(共同一作); Shi, Y.; Yang, Z.; Pan, S.; Poeppelmeier, K. R.; Young, J.; Rondinelli, J. M., Pb₂Ba₃(BO₃)₃Cl: A Material with Large Shg Enhancement Activated by Pb-Chelated BO3 Groups. J. Am. Chem. Soc. 2015, 137, 9417-22.

40. Jing, Q.; Dong, X.; Yang, Z.; Pan, S., Synthesis and Optical Properties of the First Lead Borate Bromide with Isolated BO3 Groups: Pb₂Ba₃(BO₃)₃Br. Dalton Trans. 2015, 44, 16818-23.

41. Jing, Q.; Dong, X.; Chen, X.; Yang, Z.; Pan, S.; Lei, C., The Lone-Pairs Enhanced Birefringence and Shg Response: A Dft Investigation on M2B5O9Cl (M=Sr, Ba, and Pb). Chem. Phys. 2015, 453-454, 42-46.

42. Jing, Q.; Dong, X.; Yang, Z.; Pan, S.; Zhang, B.; Huang, X.; Chen, M., The Interaction between Cations and Anionic Groups Inducing SHG Enhancement in a Series of Apatite-Like Crystals: A First-Principles Study. J. Solid State Chem. 2014, 219, 138-142.

43. Jing, Q.; Cao, H. B.; Ge, G. X.; Wang, Y. X.; Yan, H. X.; Zhang, Z. Y.; Liu, Y. H., Giant Magnetic Moment of the Core-Shell Co₁₃@Mn₂₀ Clusters: First-Principles Calculations. J. Comput. Chem. 2011, 32, 2474-8.

44. Jing, Q.; Ge, G. X.; Cao, H. B.; Huang, X. C.; Liu, X. Y.; Yan, H. X., Structural, Electronic and Magnetic Properties of the Ge_nEu (N=1-13) Clusters. Acta Physico-Chimica Sinica 2010, 26, 2510-2514.

45. Jing, Q.; Tian, F. Y.; Wang, Y. X., No Quenching of Magnetic Moment for the Ge_nCo (N=1-13) Clusters: First-Principles Calculations. J. Chem. Phys. 2008, 128, 124319.