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Publications

After Joining Curtin (2015 - present)
* indicates the corresponding author. † indicates equal contribution.

46. Y. Pang, C. Su, G. Jia, L. Xu, Z. Shao, “Emerging two-dimensional nanomaterials for electrochemical nitrogen reduction”, Chem. Soc. Rev. 2021, in press. DOI: 10.1039/D1CS00120E

45. Zhang, L. Wang, X. Zhang, G. Jia*, X. Yang*, “Blue light-emitting diodes based on halide perovskites: Recent advances and strategies”, Mater. Today 2021, just accepted.

44. S. Javaid†, X. Xu†, W. Chen, J. Chen, H.-Y. Hsu, S. Wang, X. Yang, Y. Li*, Z. Shao*, F. Jones*, G. Jia*, “Ni2+/Co2+ doped Au-Fe7S8 nanoplatelets with exceptionally high oxygen evolution reaction activity”, Nano Energy 2021, 89, 106348. DOI: 10.1016/j.nanoen.2021.106348

43. S. Shahbazi, T. Becker, G. Jia, S.W. Lewis, “Luminescent nanostructures for the detection of latent fingermarks: A review”, WIREs Forensic Sci. 2021, e1440. DOI: 10.1002/wfs2.1440

42. D.Chen, H. Zhang, K. Miyazawa, R. Kojima, P. Zhang, L. Yang, Q. Sun, G. Shao, T. Fukuma, Y. Gao, N.-T. Nguyen, C. L. Raston, G. Jia, D. Zhao, P.N. Prasad, S. Wang, Q. Li, “Quasi-solid-state self-assembly of 1D-branched ZnSe/ZnS quantum rods into parallel monorail-like continuous films for solar devices”, Nano Energy 2021, 89, 106348. DOI: 10.1016/j.nanoen.2021.106348

41. Y. Wang, L. Lei*, R. Ye, G. Jia*, Y. Hua, D. Deng, S. Xu*, “Integrating Positive and Negative Thermal Quenching Effect for Ultrasensitive Ratiometric Temperature Sensing and Anti-counterfeiting”, ACS Appl. Mater. Interfaces 2021, 2021, 13, 20, 23951-23959. DOI: 10.1021/acsami.1c05611

40. Y. Liu, X. Li, H. He, S. Yang, G. Jia*, S. Liu*, CoP imbedded g-C3N4 heterojunctions for highly efficient photo, electro and photoelectrochemical water splitting, J. Colloid. Interface Sci. 2021, 599, 23-33. DOI: 10.1016/j.jcis.2021.04.088

39. X. Li, W. Wang, F. Dong, Z. Zhang, L. Han, X. Luo,* J. Huang, Z. Feng , Z. Chen , G. Jia*, T. Zhang,* “Recent Advances in Non-contact External Field Assisted Photocatalysis: from Fundamentals to Applications”, ACS Catalysis 2021 11, 4739-4769. DOI: 10.1021/acscatal.0c05354

38. C. Zhang†, J. Chen†, L. Kong, L. Wang, S. Wang, W. Chen, R. Mao, L. Turyanska, G. Jia*, X. Yang*, “Core/Shell Metal Halide Perovskite Nanocrystals for Optoelectronic Applications”, Adv. Funct. Mater. 2021, 31, 2100438. DOI: 10.1002/adfm.202100438

37. C. H. Mak, X. Han, M. Du, J.J. Kai, K.-F. Tsang, G. Jia*, K.-C. Cheng*, H.-H. Shen, H.-Y. Hsu*, “Heterogenization of Homogeneous Photocatalysts Utilizing Synthetic and Natural Support Materials”, J. Mater. Chem. A 2021, 9, 4454-4504. DOI: 10.1039/D0TA08334H

36.  S. Shahbazi, D. Chen, G. Jia*, S. Lewis*, “Preliminary studies into fluorescent semiconductor nanorods for the detection of latent fingermarks: Size matters, shape matters”, Sci. Justice 2021, 61, 180-186. DOI: 10.1016/j.scijus.2020.09.008

35.  R. Liu, C. H. Mak, X. Han, Y. Tang, G. Jia, K.-C. Cheng, H. Qi, X. Zou, G Zou, H.-Y. Hsu, “Efficient electronic coupling and heterogeneous charge transport of zero-dimensional Cs4PbBr6 perovskite emitters”, J. Mater. Chem. A 2021, 9, 4454-4504. DOI: 10.1039/D0TA08334H

34.  D. Hao,   C. Liu,   X. Xu,   M. Kianinia,   I. Aharonovich,   X. Bai,   X. Liu,   Z. Chen,   W. Wei,   G. Jia*,  B.-J. Ni*, “Surface defect-abundant one-dimensional graphitic carbon nitride nanorods boost photocatalytic nitrogen fixation”, New J. Chem. 2020, 44, 20651-20658. DOI: 10.1039/D0NJ04068A

33.  C. Bhattacharya, S.E. Saji, A. Mohan, Va. Madav, G. Jia*, Zongyou Yin*, “Sustainable nanoplasmon-enhanced photoredox reactions: synthesis, characterization and applications”, Adv. Energy Mater. 2020, 10, 2002402. DOI: 10.1002/aenm.202002402

32. F. Wang, S. Javaid, W. Chen, A. Wang*, M. Buntine, G. Jia*, “Synthesis of atomically thin CdTe nanoplatelets by using polytellurides tellurium precursors”, Aust. J. Chem., 2020, 2020, 74, 179-185. DOI: 10.1071/CH20174

31.  C. Zhang, J. Chen, S. Wang, L. Kong, S. W. Lewis, X. Yang*, A. L. Rogach*, G. Jia*, “Metal Halide Perovskite Nanorods: Shape Matters”, Adv. Mater. 2020, 32, 2002736. DOI: 10.1002/adma.202002736

        This work was selected as the Back Cover in Advanced Materials. https://onlinelibrary.wiley.com/doi/10.1002/adma.202070348

30.  G. Neupane, Z. Lu, Y. Du, D. Qi, Y. Lu, G. Jia, Z. Yin, “Two-Dimensional Materials based on Main Group Element Compounds: Phases, Synthesis, Characterization, and Applications”, Adv. Funct. Mater. 2020, 30, 2001127. DOI: 10.1002/adfm.202001127

29.  A. Wang*, W. Wang, J. Chen, R. Mao, Y. Pang, Y. Li*, W. Chen, D. Chen, D. Hao, B.-J. Ni, M. Saunders, G. Jia*, “Dominant polar surfaces of colloidal semiconductor nanocrystals enabled by cation exchange”, J. Phys. Chem. Lett., 2020, 11, 4990−4997.

DOI: 10.1021/acs.jpclett.0c01372 

28.  F. Wang, M. Zhang, W. Chen, S. Javaid, H. Yang, S. Wang, X. Yang, L.-C. Zhang, M. A. Buntine, C. Li*, G. Jia*,  “Atomically thin cadmium-free ZnTe nanoplatelets formed from magic-size nanoclusters”, Nanoscale Adv., 2020, 2, 3316-3322. DOI: 10.1039/D0NA00409J

27.  S. Shahbazi, R. Boseley, B. Grant, D. Chen, T. Becker, O. Adegoke, N.  N. Daéid, G. Jia*, S. W. Lewis*, “Luminescence Detection of Latent Fingermarks on Non-porous Surfaces with Heavy-Metal-Free Quantum Dots”, Forensic Chem., 2020, 18, 100222. DOI: 10.1016/j.forc.2020.100222

26.  Q. Hao, C. Liu, G. Jia, Y. Wang, H. randiyan, W. Wei, B. Ni, “Catalytic Reduction of Nitrogen to Produce Ammonia by Bismuth-based Catalysts: State of the Art and Future Prospects”, Mater. Hiroz., 2020, 7, 1014-1029. DOI: 10.1039/C9MH01668F

25.  Q. Hao, G. Jia, W. Wei, A. Vinu, Y. Wang, H. Arandiyan, B. Ni, “Graphitic carbon nitride with different dimensionalities for energy and environmental applications”, Nano Res., 2020, 13, 18-37. DOI: 10.1007/s12274-019-2589-z

24.  S. Javaid, W. Chen, G. Jia*, F. Jones*, “Spontaneous formation of hybrid heterotrimer of Fe3O4-Ag2S-ZnS by seeded-growth method”, Aust. J. Chem. 2020, 73, 929–933. DOI: 10.1071/CH19545 

 

23.  W. Chen, X. Li, F. Wang, S. Javaid, Y. Pang, J. Chen, Z. Yin, S. Wang*, Y. Li*, G. Jia*, “Non-epitaxial growth of gold-tipped hybrid ZnSe nanorods for photocatalytic hydrogen production”, Small 2020, 16, 1902231. DOI: 10.1002/smll.201902231

     This work was highlighted by Materials View China (https://www.materialsviewschina.com/2019/12/41602/). It was also selected as the Back Cover.

22. N. Uddin, H. Zhang, Y. Du, G. Jia, S. Wang, Z. Yin, “Structural-Phase Catalytic Redox Reactions in Energy and Environmental Applications”, Adv. Mater.  2020, 32, 1905739. DOI: 10.1002/adma.201905739.

   

21. Y. Pang, N. Uddin, W. Chen, S. Javaid, E. Barker, Y. Li*, A. Suvorova, M. Saunders, Z. Yin*, G. Jia*, “Colloidal Single-layer Photocatalysts for Methanol-Storable Solar H2 Fuel”, Adv. Mater.  2019, 31, 1905540. DOI: 10.1002/adma.201905540. This paper has been selected as the Inside Back Cover.

    This work was highlighted by Materials View China (https://www.materialsviewschina.com/2019/11/41384/) and Curtin Media (https://news.curtin.edu.au/media-releases/hydrogen-research-fuels-new-solar-ideas-for-green-energy/)

20. S. Javaid, X. Li, F. Wang, W. Chen, S. Wang, G. Jia,* F. Jones,* “Synthesis of magnetically separable Fe3O4-Au-CdS kinked heterotrimers incorporating plasmonic and semiconducting functionalities”, J. Mater. Chem. C 2019, 7, 14517-14524. DOI: 10.1039/C9TC03538A. This paper has been selected as the Inside Front Cover.

 

19. S. Wang†, J. Yu†, M. Zhang†, D. Chen, C. Li, R. Chen,* G. Jia,* A. L. Rogach,* X. Yang*, “Stable, strongly emitting, high mode gain caesium lead bromide perovskite nanorods enabled by an intermediate monomer reservoir synthetic strategy”, Nano Lett.  2019, 19, 6315-6322. DOI: 10.1021/acs.nanolett.9b02436

18. D. Chen, A. Wang*, M. Buntine, G. Jia*, “Recent advances on zinc-based colloidal semiconductor nanocrystals for photoelectronic energy  convention”, ChemElectroMatt  2019, 6, 4709-4724. DOI: 10.1002/celc.201900838.

 

17. R. Cai, Y. Du, D. Yang, G. Jia, B. Zhu, B. Chen, Y. Lyu, K. Chen, D. Chen, W. Chen, L. Yang, Y. Zhao, Z. Chen, W. Tan, “Free-standing 2D nanorafts by assembly of 1D nanorods for biomolecule sensing”, Nanoscale 2019, 11, 12169-12176. DOI: 10.1039/C9NR02636C

 

16. D. Chen, A. Wang, A. Sitt, L. A. Galán, C. Su, Z. Yin, M. Massi, A. Suvorova, M. Saunders, J. Li, G. Jia,* “Colloidal quasi-one-dimensional dual semiconductor core/shell nanorod couple heterostructures with blue fluorescence”, Nanoscale 2019, 11, 10190-10197. DOI:  10.1039/C9NR02443C

 

15.  Y. Pang, M. Zhang, D. Chen, W. Chen, S. Anwar, M. Saunders, M. R. Rowles, A. Sitt,* C. Li,* G. Jia,* “Why Do Colloidal Wurtzite Semiconductor Nanoplatelets Have an Atomically Uniform Thickness of Eight Monolayers?”, J. Phys. Chem. Lett. 2019, 12, 3465-3471. DOI:  10.1021/acs.jpclett.9b01195

 

14. W. Chen, A. Karton, T. Hussian, S. J. Anwar, F. Wang, Y. Pang, G. Jia,* “Spontaneous shape and phase control of colloidal ZnSe nanocrystal by tailoring Se precursor reactivity”, CrystEngComm. 2019, 21, 2955-2961. DOI: 10.1039/C9CE00078J

 

13. S.X. Liang, W.C. Zhang, W.M. Wang, G. Jia, W.M. Yang, L.C. Zhang,* “Insight into the Role of surface of FeNiPC metallic glass towards highly enhanced catalytic behavior”, J. Solid State Chem. 2019, 132, 89-98. DOI: 10.1016/j.jpcs.2019.04.022

 

12. J. Zhang, F. Rogers, N. Darwish, V. R. Gonçales, Y. B. Vogel, F. Wang, J. J. Gooding, M. C. Peiris, G. Jia, J.-P. Veder, M. L. Coote, S. Ciampi, “Electrochemistry on tribocharged polymers is governed by the stability of surface charges rather than charging magnitude”, J. Am. Chem. Soc. 2019, 141, 5863-5870. DOI: 10.1021/jacs.9b00297

 

11. S. Javaid, Y. Li, D. Chen, X. Xu Y. Pang, W. Chen, F. Wang, Z. Shao, M. Saunders, J.-P. Veder, G. Jia,* F. Jones,* “Spontaneous Formation of Heterodimer Au-Fe7S8 Nanoplatelets by a Seeded Growth Approach”, J. Phys. Chem. C 2019, 123, 10604-10613.      DOI:  10.1021/acs.jpcc.8b11701

 

10. G. Jia,* Y. Pang, J. Ning,* U. Banin,* B. Ji,* “Heavy-Metal Free Colloidal Semiconductor Nanorods: Recent Advances and Future Perspectives”, Adv. Mater. 2019, 31, 1900781.   DOI: 10.1002/adma.201900781

 

9.   A. Wang,* X. Hu, F. Wang, W. Chen, Y. Pang, S. Javaid, D. Chen, X. Li, L. Staaden, G. Jia,* “Large lateral sized two-dimensional Cu2-xS nanoplates formed by Ostwald ripening”, Mater. Lett. 2019, 237, 88-91. DOI: 10.1016/j.matlet.2018.11.087

 

8.   T. Qiu, Y. Hu, F. Xu, Z. Yan, F. Bai, G. Jia, S. Zhang, “Recent advances in one-dimensional halide perovskites for optoelectronic applications”, Nanoscale 2018,10, 20963-20989. DOI: 10.1039/C8NR05862H

 

7.   Z. Liu, Z. Lu, M. Bosman, N. Li, T. J. F, G. Jia, A. Tricoli, Y. Liu, Y. Du, Z. Yin, “Photoactivity and Stability Co‐Enhancement: When Localized plasmons Meet Oxygen Vacancies in MgO”, Small 2018, 14, 180323.  DOI: 10.1002/smll.201803233

6.   D. Chen†, H. Zhang†, Y. Li†, Z. Yin, H. Sun, L.C. Zhang, S. Wang, M. Saunders, E. Barker, G. Jia,* “Spontaneous formation of noble- and heavy-metal-free alloyed semiconductor quantum rods for efficient photocatalysis”, Adv. Mater. 2018, 30, 1803351. DOI: 10.1002/adma.201803351 (selected as the back cover of the journal).

        This work has been selected as one of the key outcomes to hydrogen and energy futures in Australian University Science  by the Australian Council of Deans of Science. https://sciencemeetsbusiness.com.au/future-hydrogen-economy-scaffolded-by-universities/

        Also see news release: Xinhua Net (China)MaterialsViewsChinaBrunei DirectNamibia Press Agency  (Africa)Mirage News; Renew EconomyPhilippine News AgencyBrisbane TimesWA TodayThe Age; Fuel Cell Works; Sydney Morning Herald; GreenCareer; Business News WA, etc.

5. C. Zhang, S. Zhang,* X. Miao, Y. Hu, L. Staaden, G. Jia,* “Rigid amino acid as linker to enhance the crystallinity of CH3NH3PbI3 particles”, Part. Part. Syst. Charact. 2017, 34, 1600298. DOI: 10.1002/ppsc.201600298

 

4. X. Zheng, X. Zhu, Y. Lu, J. Zhao, W. Feng, G. Jia, F. Wang, F. Li,  D. Jin, “High-contrast visualization of upconversion luminescence in mice using time-gating approach”, Anal. Chem. 2016, 88, 3449-3454. DOI: 10.1021/acs.analchem.5b04626

 

3. J.F. Ren, G.H. Jia,* Y.Y. Guo, A.X. Wang, S.Q. Xu,* "Unraveling Morphology and Phase Control of NaLnF4 Upconverting Nanocrystals", J. Phys.    Chem. C 2016, 120, 1342-1351. DOI: 10.1021/acs.jpcc.5b11048

2. G.H. Jia,* S.Q. Xu,* A.X. Wang,* “Emerging strategies for the synthesis of monodisperse colloidal semiconductor quantum rods”, J. Mater. Chem. C 2015, 3, 8284-8293. DOI: 10.1039/C5TC01234A

1.  W.X. Chai, M.W. Hong, S. Li, G. Jia, H.S. Shi, J.Y. Guo, K.Y. Shu, B. Guo, Y.C. Zhang, W.W. Zhang, X.Y. Chen, “Three reversible polymorphic copper(I) complexes triggered by ligand conformation: Insights into polymorphic crystal habit and luminescent properties”, Inorg. Chem. 2015, 54, 4200-4207. DOI: 10.1021/ic502709b

Before Jioning Curtin

Jounral Papers (Selected Publications)

 

  • G.H. Jia, A. Sitt, G.B. Hitin, I. Hadar, Y. Bekenstein, Y. Amit, I. Popov, U. Banin, “Couples of colloidal semiconductor nanorods              formed by self-limited assembly”, Nature Mater. 2014, 13, 301-307. DOI: 10.1038/NMAT3867

  •   G.H. Jia, U. Banin, “A general strategy for synthesizing colloidal semiconductor zinc chalcogenides quantum rods”, J. Am. Chem.          Soc. 2014, 136, 11121-11127. DOI: 10.1021/ja505541q

  •  H.L. Wen, C.-K. Duan, G.H. Jia, P.A. Tanner, M.G. Brik, “Glass composition and excitation wavelength dependence of the                        luminescence of Eu3+ doped lead borate glass”, J. Appl. Phys. 2011, 110, 033536 (1-8). DOI: 10.1063/1.3620985

  •  C.–K. Duan, C.–C. Ko, G.H. Jia, X.Y. Chen, P.A. Tanner, “5D3 - 5D4 cross-relaxation of Tb3+ in a cubic host lattice”, Chem. Phys.               Lett. 2011, 506, 179-182. DOI: 10.1016/j.cplett.2011.03.002

  •   Z.F. Pan, G. H. Jia, C.K. Duan, R.W.Y. Wong, W.T. Wong, P.A. Tanner, “Crystal structure, spectroscopy and crystal field analysis of           substituted 1,10-phenanthroline europium complexes”, Euro. J. Inorg. Chem. 2011, 637-646. DOI: 10.1002/ejic.201000908

  •   H.L. Wen, G.H. Jia, C.-K. Duan, P.A. Tanner, “Understanding Eu3+ emission spectra in glass”, Phys. Chem. Chem. Phys. 2010, 12,           9933-9937. DOI: 10.1039/c0cp00206b

  •   G.H. Jia, J. Dexpert-Ghys, C.-K. Duan, P.A. Tanner, “Eu3+ spectroscopy: a structural probe in yttrium orthoborate phosphors” J.           Phys.        Chem. C 2010, 114, 2769-2775. DOI: 10.1021/jp910329k

  •    J. Dexpert-Ghys, R. Mauricot, B. Caillier, P. Guillot, T. Beaudette, G.H. Jia, P.A. Tanner, B.-M. Cheng, “VUV excitation of YBO3 and          (Y,Gd)BO3 phosphors doped with Eu3+ or Tb3+: comparison of efficiencies and effect of site-selectivity” J. Phys. Chem. C 2010,          114,        6681-6689. DOI:10.1021/jp909197t

  •    S. Jiang, Z. Y. Liu, G.H. Jia,* C.-K. Duan, * “Dependence of luminescent properties on the composition of lead borate glasses”, J.            Rare        Earths, 2009, 27, 915-918. DOI:  10.1016/S1002-0721(08)60362-2

  •    G.H. Jia, P.A. Tanner, B.-M. Cheng, “Contrasting emission behaviors of YAG:V5+ co-doped with Pr3+ or Eu3+”, Chem. Phys.                    Lett. 2009, 474, 97-100. DOI: 10.1016/j.cplett.2009.04.037

  •    G.H. Jia, C.-K. Duan, X.-L. Li, P. A. Tanner, “Luminescence and crystal field fitting of two optical isomeric complexes of europium”, J.    Lumin. 2009, 129, 514-520. DOI: 10.1016/j.jlumin.2008.12.002

  •    G.H. Jia P.A. Tanner, “Energy transfer between UO22+ and Eu3+ in β-NaYF4”, J. Alloy. Compd. 2009, 471, 557-560.                                         DOI:10.1016/j.jallcom.2008.04.015

  •    L. Fan, Y.X. Fan, Y.H. Duan, Q. Wang, H.T. Wang, G.H. Jia, C.Y. Tu, "Continuous-wave intracavity Raman laser at 1179.5 nm with            SrWO4 Raman crystal in diode-end-pumped Nd:YVO4 laser", Appl. Phys. B: Laser. Opt. 2009, 94, 553-557.                                                DOI: 10.1007/s00340-009-3396-0

  •    G.H. Jia, P.A. Tanner, C.Y. Tu, J.F. Li, M.-Y. Lin, B.-M. Cheng, “Ultraviolet spectra of KPb2Cl5:Er3+”, App. Phys. Lett. 2008, 92, 1001115     (1-3). DOI: 10.1063/1.2896297

  •    G.H. Jia, G.–L. Law, K.–L. Wong, P.A. Tanner, W.-T. Wong, “Synthesis, crystal structures and luminescence of organic-lanthanide            complexes with nicotinate and isonicotinate ligands”, Inorg. Chem. 2008, 47, 9431-9438. DOI: 10.1021/ic8010103

  •    G. Jia, H. Wang, X. Lu, Z. You, J. Li, Z. Zhu, C. Tu, “Optical properties of Pr3+-doped SrWO4 crystal”, Appl. Phys. B: Lasers Opt. 2008,      90, 497-502. DOI: 10.1007/s00340-007-2827-z

  •    X.H. Chen, X.Y. Zhang, Q.P. Wang, P. Li, S.T. Li, Z.H. Cong, G.H. Jia, C. Y. Tu, "Highly efficient diode-pumped actively Q-switched            Nd:YAG-SrWO4 intracavity Raman laser", Opt. Lett. 2008, 33, 705-707. DOI:10.1364/OL.33.000705

  •    Errandonea, C.Y. Tu, G.H. Jia, I.R. Martin, U.R. Rodriguez-Mendoza, F. Lahoz, M.E. Torres, V. Lavin, "Effect of pressure on the                luminescence properties of Nd3+ doped SrWO4 laser crystal", J. Alloy. Compd. 2008, 451, 212-214.                                                            DOI: 10.1016/j.jallcom.2007.04.180

  •    G.H. Jia, J.F. Li, Z.J. Zhu, Z.Y. You, Y. Wang, B.C. Wu, C.Y. Tu, “Optical spectroscopy of Yb3+ doped SrWO4 scheelite crystal”, J. Alloy.      Compd. 2007, 436, 341-344. DOI: 10.1016/j.jallcom.2006.07.037

  •    G.L. Law, K.L. Wong, Y.Y. Yang, Q.Y. Yi, G. Jia, W.T. Wong, P.A. Tanner, "Structural characterization of shielded isomeric europium        complexes with metal-metal contact", Inorg. Chem. 2007, 46, 9754-9759. DOI: 10.1021/ic701162j

  •    G.H. Jia, J.F. Li, Z.J. Zhu, Z.Y. You, Y. Wang, B.C. Wu, C.Y. Tu, “Crystal structure, Judd-Ofelt analysis, and spectroscopic assessment of    a TmAl3(BO3)4 crystal as a new potential diode-pumped laser near 1.9 μm”, Inorg. Chem. 2006, 45, 9326-9331.                                      DOI: 10.1021/ic061025n

  •    G.H. Jia, C.Y. Tu, Z.Y. You, J.F. Li, X.A. Lu, Z.Z. Zhu, Y. Wang, B.C. Wu, “Spectroscopic assessment of Tm3+:GdAl3(BO3)4 crystal as a        potential diode pumped laser near 1.9 µm”, J. Appl. Phys. 2006, 99, 083502 (1-3). DOI: 10.1063/1.2188079

  •    C.Y. Tu, F.G. Yang, J.F. Li, G.H. Jia, Z.Y. You, H.Y. Wang, Y.P. Wei, Y. Wang, Z.J. Zhu, “Co-transition absorption property of                          K2ZnCl4:Co2+ crystal”, Opt. Lett. 2006, 31, 2299-2231. DOI: 10.1364/OL.31.002299

  •    H.Y. Wang, G.H. Jia, F.G. Yang, Y.P. Wei, C.Y. Tu, Z.Y. You, Y. Wang, Z.J. Zhu, J.F. Li, "Spectroscopic properties of Pr3+ ions in                    NaGd(WO4)2 crystal", J. Appl. Phys. 2006, 100, 113117. DOI: 10.1063/1.2399887

  •    H. Wang, G. Jia, F. Yang, Y. Wei, Z. You, Y. Wang, J. Li, Z. Zhu, X. Lu, and C. Tu, "Growth and spectral properties of Tm3+-doped              NaGd(WO4)2 crystal", Appl. Phys. B: Laser. Opt. 2006, 83,  579-585. DOI: 10.1007/s00340-006-2209-y

  •    G.H. Jia, C.Y. Tu, J.F. Li, Z.J. Zhu, Z.Y. You, Y. Wang, B.C. Wu, “Growth, thermal and spectral properties of a new nonlinear optical          crystal TmAl3(BO3)4”, Cryst. Growth & Des. 2005, 5, 949-952. DOI: 10.1021/cg049677e

  •    G.H. Jia, C.Y. Tu, Z.Y. You, J.F. Li, Z.J. Zhu, Y. Wang, B.C. Wu “Spectroscopic properties of Er3+ transitions in SrWO4 crystal”, J. Appl.      Phys. 2005, 98, 093525 (1-7). DOI: 10.1063/1.2130537

  •    G. Jia, C. Tu, A. Brenier, Z. You, J. Li, Z. Zhu, Y. Wang, B. Wu, “Thermal and optical properties of Nd3+:SrWO4: a potential candidate      for eye-safe 1.517 µm Raman lasers”, Appl. Phys. B: Lasers Opt. 2005, 81, 627-633. DOI: 10.1007/s00340-005-1946-7

  •    G.H. Jia, C.Y. Tu, Z.Y. You, J.F. Li, Z.J. Zhu, Y. Wang, B.C. Wu “Thermal properties and polarized spectral analysis of Tm3+:SrWO4            crystal”, Solid State Commu. 2005, 134, 583-588. DOI: 10.1016/j.ssc.2005.03.015

  •    G.H. Jia, C.Y. Tu, J.F. Li, Z.J. Zhu, Z.Y. You, Y. Wang, B.C. Wu, “Spectroscopy of GdAl3(BO3)4: Tm3+ crystal”, J. Appl. Phys. 2004, 96,          6262-6266. DOI: 10.1063/1.2130537

  •    G.H. Jia, C.Y. Tu, Z.Y. You, J.F. Li, Z.J. Zhu, Y. Wang, B. C. Wu, “Czochralski technique growth of pure and rare earth doped SrWO4          crystals”, J. Cryst. Growth 2004, 273, 220-225. DOI: 10.1016/j.jcrysgro.2004.07.095

  •    G.H. Jia, C.Y. Tu, J.F. Li, Z.J. Zhu, Z.Y. You, Y. Wang, B.C. Wu, “Spectroscopic properties of Nd3+ doped LaB3O6 crystal”, Opt.                    Commun. 2004, 242, 79-85. DOI: 10.1016/j.optcom.2004.08.023

  •    G.H. Jia, C.Y. Tu, Z.Y. You, J.F. Li, B.C. Wu, “Crystal growth and spectra properties of LaB3O6:Nd3+ crystal”, J. Cryst. Growth 2004,          266, 492-495. DOI: 10.1016/j.jcrysgro.2004.02.113

  •    G.H. Jia, C.Y. Tu, J. F. Li, Z. J. Zhu, B. C. Wu, “Crystal growth and spectrum characteristics of GdAl3(BO3)4:Tm3+ crystal”, J. Cryst.            Growth 2004, 264, 346-350. DOI: 10.1016/j.jcrysgro.2004.01.014

  •    A. Brenier, G.H. Jia, C.Y. Tu, "Raman lasers at 1.171 and 1.517 um with self-frequency conversion in SrWO4:Nd3+ crystal", J. Phys:      Cond. Matt. 2004, 16, 9103-9108. DOI: 10.1088/0953-8984/16/49/025

 

Patent

 

  •    U. Banin, G. Jia, “Colloidal semiconductor metal chalcogenide nanostructures”, United States Patent, US10160648B2, granted in December 2018.

  • G. Jia, Y. Pang, F. Wang, “Heavy-metal-free metal chalcogenide nanoplatelets”, WO/2019/109143, PCT/AU2018/051304, 2018.

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