1.C. F. Hu, Y. W. Bao, and Y. C. Zhou, “The Energy-dissipation Mechanism of Ti₃SiC₂Ceramic Investigated by Indentation,”Chin. J. Mater. Res.,19, 457-63 (2005).

2.Y. W. Bao,C. F. Hu, and Y. C. Zhou,“Damage Tolerance of Nanolayer-grained Ceramic: A Quantitative Estimation,”Mater. Sci. Technol.,22, 227-30 (2006).

3. C. F. Hu, Y. C. Zhou, Y. W. Bao, and D. T. Wan, “Tribological Properties of Polycrystalline Ti₃SiC₂and Al₂O₃-reinforced Ti₃SiC₂Composites,”J. Am. Ceram. Soc.,89, 3456-61 (2006).

4. C. F. Hu, Z. J. Lin, L. F. He, Y. W. Bao, J. Y. Wang, M. S. Li, and Y. C. Zhou, “Physical and Mechanical Properties of Bulk Ta₄AlC₃Ceramic Prepared by anIn SituReaction Synthesis/Hot Pressing Method,”J. Am. Ceram. Soc.,90, 2542-8 (2007).

5.D. T. Wan,C. F. Hu, Y. W. Bao, and Y. C. Zhou, “Effect of SiC Particles on the Friction and Wear Behavior of Ti₃Si(Al)C₂-based Composites,”Wear,262, 826-32 (2007).

6.D. T. Wan, Y. C. Zhou,C. F. Hu, and Y. W. Bao, “Improved Strength-impairing Contact Damage Resistance of Ti₃Si(Al)C₂/SiC Composites,”J. Eur. Ceram. Soc.,27, 2069-76 (2007).

7. C. F. Hu, F. Z. Li, J. Zhang, J. M. Wang, J. Y. Wang, and Y. C. Zhou, “Nb₄AlC₃: A New Compound Belonging to the MAX Phases,”Scripta Mater.,57, 893-6 (2007).

8. C. F. Hu, J. Zhang, Y. W. Bao, J. Y. Wang, M. S. Li, and Y. C. Zhou, “In SituReaction Synthesis and Decomposition of Ta₂AlC,”Inter. J. Mater. Res.,99, 8-13 (2008).

9. C. F. Hu, Y. C. Zhou, and Y. W. Bao, “Material Removal and Surface Damage in EDM of Ti₃SiC₂Ceramic,”Ceram. Inter.,34, 537-41 (2008).

10. C. F. Hu, J. Zhang, J. M. Wang, F. Z. Li, J. Y. Wang, and Y. C. Zhou, “Crystal Structure of V₄AlC₃, a New Layered Ternary Carbide,”J. Am. Ceram. Soc.,91, 636-9 (2008).

11. C. F. Hu, L. F. He, J. Zhang, Y. W. Bao, J. Y. Wang, M. S. Li, and Y. C. Zhou, “Microstructure and Properties of Bulk Ta₂AlC Ceramic Synthesized by anIn SituReaction/Hot Pressing Method,”J. Eur. Ceram. Soc.,28, 1679-85 (2008).

12. C. F. Hu, F. Z. Li, L. F. He, M. Y. Liu, J. Zhang, J. M. Wang, Y. W. Bao, J. Y. Wang, and Y. C. Zhou, “In-situReaction Synthesis, Physical and Mechanical Properties of Nb₄AlC₃,”J. Am. Ceram. Soc.,91, 2258-63 (2008).

13. C. F. Hu, L. F. He, M. Y. Liu, X. H. Wang, J. Y. Wang, M. S. Li, Y. W. Bao, and Y. C. Zhou, “In SituReaction Synthesis and Mechanical Properties of V₂AlC,”J. Am. Ceram. Soc.,91, 4029-35 (2008).

14.J. M. Wang, J. Y. Wang, Y. C. Zhou, andC. F. Hu, “Phase Stability, Electronic Structure and Mechanical Properties of Ternary-layered Carbide Nb₄AlC₃: AnAb InitioStudy,”Acta Mater.,56, 1511-8 (2008).

15.J. Y. Wang, J. M. Wang, Y. C. Zhou, Z. J. Lin, andC. F. Hu, “Ab InitioStudy of Polymorphism in Layered Ternary Carbide M₄AlC₃(M = V, Nb and Ta),”Scripta Mater.,58, 1043-6 (2008).

16. C. F. Hu*, Y. Sakka, H. Tanaka, T. Nishimura, and S. Grasso, “Low Temperature Thermal Expansion, High Temperature Electrical Conductivity, and Mechanical Properties of Nb₄AlC₃Ceramic Synthesized by Spark Plasma Sintering,”J. Alloys Compd.,487, 675-81 (2009).

17.F. Z. Li,C. F. Hu, J. M. Wang, B. Liu, J. Y. Wang, and Y. C. Zhou, “Crystal Structure and Electronic Structure of a Novel Hf₃AlN Ceramic,”J. Am. Ceram. Soc.,92, 476-80 (2009).

18.A. J. Li,C. F. Hu, M. S. Li, and Y. C. Zhou, “Joining of Ti–Al–C Ceramics by Oxidation at Low Oxygen Partial Pressure,”J. Eur. Ceram. Soc.,29, 2619-25 (2009).

19.S. Grasso, Y. Sakka, G. Maizza, andC. F. Hu, “Pressure Effect on the Homogeneity of Spark PlasmaSintered Tungsten Carbide Powder,”J. Am. Ceram. Soc.,92, 2418-21 (2009).

20.W. Zhang, N. Travitzky,C. F. Hu, Y. C. Zhou, and P. Greil, “Reaction Hot Pressing and Properties of Nb₂AlC,”J. Am. Ceram. Soc.,92, 2396-99 (2009).

21.S. Grasso, B. N. Kim,C. F. Hu,G. Maizza, andY. Sakka, “Highly Transparent Pure Alumina Fabricated by High Pressure Spark Plasma Sintering,”J. Am. Ceram. Soc.,93, 2460-62 (2010).

22.C. F. Hu, L. F. He, F. Z. Li, L. Wu, J. Y. Wang, M. S. Li, Y. W. Bao, and Y. C. Zhou, “In-situReaction Synthesis and Mechanical Properties of TaC-TaSi₂Composites,”Int. J. Appl. Ceram. Technol.,7, 697-703 (2010).

23. C. F. Hu*,Y. Sakka, T. Uchikoshi, T. S. Suzuki, B. K. Jang, S. Grasso, and G. Suarez, “Synthesis, Microstructure and Mechanical Properties of ZrB₂Ceramic Prepared by Mechanical Alloying and Spark Plasma Sintering,”Key. Eng. Mater.,434-435, 165-68 (2010).

24. C. F. Hu*, Y. Sakka, H. Tanaka, T. Nishimura, and S. Grasso, “Synthesis, Microstructure and Mechanical Properties of (Zr,Ti)B₂-(Zr,Ti)N Composites Prepared by Spark Plasma Sintering,”J. Alloys Compd.,494, 266-70 (2010).

25.C. F. Hu, Y. Sakka, H. Tanaka, T. Nishimura, S. Q. Guo, and S. Grasso, “Microstructure and Properties of ZrB₂-SiC Composites Prepared by Spark Plasma Sintering Using TaSi₂as Sintering Additive,”J. Eur. Ceram. Soc.,30, 2625-31 (2010).

26. C. F. Hu, Y. Sakka, B. K. Jang, H. Tanaka, T. Nishimura, S. Q. Guo, and S. Grasso, “Microstructure and Properties of ZrB₂-SiC and HfB₂-SiC Composites Fabricated by Spark Plasma Sintering (SPS) Using TaSi₂as Sintering Aid,”J. Ceram. Soc. Jpn.,118, 997-1001 (2010).

27.C. F. Hu, Y. Sakka, H. Tanaka, T. Nishimura, and S. Grasso, “Fabrication of Textured Nb₄AlC₃Ceramic by Slip Casting in a Strong Magnetic Field and Spark Plasma Sintering (SPS),”J. Am. Ceram. Soc.,94, 410-5 (2011).

28. C. F. Hu, Y. Sakka, S. Grasso, T. Suzuki, and H. Tanaka, “Tailoring Ti₃SiC₂Ceramic via a Strong Magnetic Field Alignment (SMFA) Method Followed by Spark Plasma Sintering (SPS),”J. Am. Ceram. Soc.,94, 742-8 (2011).

29. C. F. Hu, Y. Sakka, S. Grasso, T. Nishimura, S. Q. Guo, and H. Tanaka, “Shell-like Nanolayered Nb₄AlC₃Ceramic with High Strength and Toughness,”Scripta Mater.,64, 765-8 (2011).

30.C. F. Hu, Y. Sakka, T. Nishimura, S. Q. Guo, S. Grasso, and H. Tanaka, “Physical and Mechanical Properties of Highly Textured Polycrystalline Nb₄AlC₃Ceramic,”Sci. Technol. Adv. Mater.,12, 044603 (2011).

31.S. Grasso,C. F. Hu,G. Maizza, B. N. Kim, andY. Sakka, “Effects of Pressure Application Method on Transparency of SPSed Alumina,”J. Am. Ceram. Soc.,94, 1405-9 (2011).

32.X. B. Zhou, Q. Huang,C. F. Hu, and Q. Z. Tao, “High Saturation Magnetization Carbon Nanotube-Ni_0.5Zn_0.5Fe₂O₄Composite Fabricated by Microwave Sintering,”J. Kunming Univ. Sci. Tech.,36, 160-163 (2011).

33.S. Grasso,C. F. Hu, O. Vasylkiv, T. Suzuki, S. Q. Guo, T. Nishimura, and Y. Sakka, “High Hardness B₄C Oriented via Strong Magnetic Field Technique,”Scripta Mater.,64, 256-9 (2011).

34.S. Grasso, Y. Sakka, N. Rendtorff,C. F. Hu, G. Maizza, H. Borodianska, and O. Vasylkiv, “Modeling of the Temperature Distribution of Flash Sintered Zirconia,”J. Ceram. Soc. Jpn.,119, 1-3 (2011).

35.S. Q. Guo,C. F. Hu, and Y. Kagawa, “Mechanochemical Processing of Nanocrystalline Zirconium Diboride Powder,”J. Am. Ceram. Soc.,94, 3643-7 (2011).

36.S. Grasso,C. F. Hu, G. Maizza, M. J. Reece, and Y. Sakka, “Spark Plasma Sintering of Diamond Binderless WC Composites,”J. Am. Ceram. Soc.,95, 2423-8 (2012).

37.J. Zou, G. J. Zhang,C. F. Hu, T. Nishimura, Y. Sakka, H. Tanaka, J. Vleugels, and O. V. der Biest, “High-temperature Bending Strength, Internal Friction and Stiffness of ZrB₂-20 vol.%SiC Ceramics,”J. Eur. Ceram. Soc.,32, 2519-27 (2012).

38.C. F. Hu, Y. Sakka, J. H. Gao, H. Tanaka, and S. Grasso, “Microstructure Characterization of ZrB₂-SiC Composite Fabricated by Spark Plasma Sintering with TaSi₂Additive,”J. Eur. Ceram. Soc.,32, 1441-6 (2012).

39. C. F. Hu*, J. Zou, Q. Huang, G. J. Zhang, S. Q. Guo, and Y. Sakka, “Synthesis of Plate-like ZrB₂Grains,”J. Am. Ceram. Soc.,95, 85-8 (2012).

40.C. F. Hu*, Q. Huang, G. J. Zhang, and Y. Sakka, “Tailoring Plate-like Grained ZrB₂Ceramic via a Strong Magnetic Field Alignment Method Followed by Spark Plasma Sintering,”Key Eng. Mater.,512-515, 702-5 (2012).

41.N. M. Rendtorff, S. Grasso,C. F. Hu, G. Suarez, E. F. Aglietti, and Y. Sakka, “Dense Zircon (ZrSiO₄) Ceramics by High Energy Ball Milling and Spark Plasma Sintering,”Ceram. Inter.,38, 1793-9 (2012).

42.N. M. Rendtorff, S. Grasso,C. F. Hu, G. Suarez, E. F. Aglietti, and Y. Sakka, “Zircon-zirconia (ZrSiO₄-ZrO₂) Dense Ceramic Composites by Spark Plasma Sintering,”J. Eur. Ceram. Soc.,32, 787-93 (2012).

43.J. Zou, G. J. Zhang,C. F. Hu, T. Nishimura, Y. Sakka, J. Vleugels, and O. V. der Biest, “Strong ZrB₂-SiC-WC Ceramics at 1600^oC,”J. Am. Ceram. Soc.,95, 874-8 (2012).

44.M. Mishra, Y. Sakka,C. F. Hu*, T. S. Suzuki, T. Uchikoshi, and L. Besra, “Textured Ti₃SiC₂by EPD in a Strong Magnetic Field,”Key Eng. Mater.,507, 15-9 (2012).

45.L. Shen,C. F. Hu, Y. Sakka, and Q. Huang, “Study of Phase Transformation Behaviour of Alumina through Precipitation Method,”J. Phys. D: Appl. Phys.,45, 215302 (2012).

46.M. Mishra, Y. Sakka,C. F. Hu, T. S. Suzuki, T. Uchikoshi, and L. Besra, “Electrophoretic Deposition of Ti₃SiC₂and Texture Development in a Strong Magnetic Field,”J. Am. Ceram. Soc.,95, 2857-62 (2012).

47. C. F. Hu*, H. B. Zhang, F. Z. Li, Q. Huang, and Y. W. Bao, “Review: New Phases’ Discovery in MAX Family,”Inter. J. Refra. Met. Hard Mater.,36, 300-12 (2013).

48.J. W. Zhang,C. F. Hu*, Y. G. Wang, and Q. Huang, “Interfacial Reactions between Polymer Derived SiC Fiber and Ti₃Si(Al)C₂,”Key Eng. Mater.,544, 238-44 (2013).

49.D. Qu, J. Hu,C. F. Hu*, Y. T. Wang, and L. Su, “Study on Performance of Ru-Ir-Ti/Ti Oxide Coating Anodes Prepared with Method of Surface Nitriding on Titanium,”Key Eng. Mater.,544, 87-91 (2013).

50.Z. Y. Pan, G. Y. Yang, Y. Lou, E. X. Xue, H. Z. Xu, X. G. Miao, J. L. Liu,C. F. Hu, and Q. Huang, “Morphology Control and Self-Setting Modification ofa-Calcium Sulfate Hemihydrate Bone Cement by Addition of Ethanol,”Inter. J. Appl. Ceram. Technol.,10, E219-25 (2013).

51.Q. Wang,C. F. Hu*, S. Cai, Y. Sakka, and Q. Huang, “Synthesis of High Purity Ti₃SiC₂Powder by Microwave Heating Method,”Inter. J. Appl. Ceram. Technol.,11, 911-8 (2014).

52.L. Shen,C. F. Hu, S. H. Zhou, A. Mukherjee, and Q. Huang, “Phase-dependent Photoluminescence Behavior of Cr-doped Alumina Phosphors,”Optical Mater.,35, 1268-72 (2013).

53.C. X. Wang, T. F. Yang, S. Y. Kong, J. R. Xiao, J. M. Xue, Q. Wang,C. F. Hu, Q. Huang, and Y. G. Wang, “Effect of He Irradiation on Ti₃AlC₂: Damage Evolution and Behavior of He Bubbles,”J. Nuclear Mater.,440, 606-11 (2013).

54.Q. Wang, S. Grasso,C. F. Hu*, H. B. Zhang, S. Cai, Y. Sakka, and Q. Huang, “Spark Plasma Sintering of Damage Tolerant and Machinable Y₄Al₂O₉Ceramic,”J. Adv. Ceram.,2, 193-200 (2013).

55.X. B. Zhou, L. Shen, L. Li, S. H. Zhou, T. M. Huang,C. F. Hu, W. M. Pan, X. H. Jing, J. Sun, L. Gao, and Q. Huang, “Microwave Sintering Carbon Nanotube/Ni_0.5Zn_0.5Fe₂O₄Composites and Their Electromagnetic Performance,”J. Eur. Ceram. Soc.,33, 2119-26 (2013).

56.X. B. Zhou, L. Shen, L. Li, T. M. Huang,C. F. Hu, W. M. Pan, X. H. Jin, J. Sun, L. Gao, and Q. Huang, “Preparation of Nanocrystalline-coated Carbon Nanotube/ Ni_0.5Zn_0.5Fe₂O₄Composite with Excellent Electromagnetic Property as Microwave Absorber,”J. Phys. D: Appl. Phys.,46, 145002 (2013).

57.H. Porwal, P. Tatarko, S. Grasso,C. F. Hu, A. R. Boccaccini, I. Dlouhu, and M. Reece, “Toughened and Machinable Glass Matrix Composites Reinforced with Graphene and Graphene-oxide Nano Platelets,”Sci. Technol. Adv. Mater.,14, 055007 (2013).

58.Z. Y. Pan, Y. Lou, G. Y. Yang, X. Ni, M. C. Chen, H. Z. Xu, X. G. Miao, J. L. Liu, andC. F. Hu, “Preparation of Calcium Sulfate Dihydrate and Calcium Sulfate Hemihydrate with Controllable Crystal Morphology by Using Ethanol Additive,”Ceram. Inter.,39, 5495-5502 (2013).

59.B. W. Wei, D. Qu,C. F. Hu*, F. Z. Li, T. L. Zhou, R. J. Xie, and Z. M. Zhou, “Synthesis and Physical Properties of Graphene Reinforced Copper Composites,”Adv. Mater. Res.,833, 310-4 (2014).

60.D. Qu, F. Z. Li, H. B. Zhang, Q. Wang, T. L. Zhou,C. F. Hu*, and R. J. Xie, “Preparation of Graphene Nanosheet/copper Composite by Spark Plasma Sintering,”Adv. Mater. Res.,833, 276-9 (2014).

61.X. Q. Tang, H. B. Zhang, D. M. Du, D. Qu,C. F. Hu*, R. J. Xie, and Y. Feng, “Fabrication of W-Cu Functionally Graded Material (FGM) by Spark Plasma Sintering Method,”Inter. J. Refra. Met. Hard Mater.,42, 193-9 (2014).

62.S. Grasso, P. Tatarko, S. Rizzo, H. Porwal,C. F. Hu, Y. Katoh, M. Salvo, M. J. Reece, and M. Ferraris,“Joining of β-SiC by Spark Plasma Sintering,”J. Eur. Ceram. Soc.,34, 1681-6 (2014).

63.H. Barzegar Bafrooei, E. Taheri Nassaj, T. Ebadzadeh, andC. F. Hu, “Reaction Sintering of Nano-sized ZnO-Nb₂O₅Powder Mixture: Sintering Behavior, Microstructure and Microwave Dielectric Properties,”J. Mater. Sci.,25, 1620-6 (2014).

64.H. B. Bafrooei, E. T. Nassaj, T. Ebadzadeh, andC. F. Hu, “A Comparative Study of ZnNb₂O₆Nanoceramics Synthesized by High Energy Ball Milling and Subsequent Conventional and Microwave Annealing,”J. Mater. Sci.,25, 1770-7 (2014).

65.K. Sato, M. Mishra, H. Hirano,C. F. Hu, and Y. Sakka, “Pressureless Sintering and Reaction Mechanisms of Ti₃SiC₂Ceramic,”J. Am. Ceram. Soc.,97, 1407-12 (2014).

66.Q. Z. Tao,C. F. Hu*, S. Lin, H. B. Zhang, F. Z. Li, D. Qu, M. L. Wu, Y. P. Sun, Y. Sakka, and M. W. Barsoum, “Coexistence of Ferromagnetic and Reentrant Cluster Glass State in the Layered (Cr_1-xMn_x)₂GeC,”Mater. Res. Lett.,2, 192-8 (2014).

67.H. B. Zhang,C. F. Hu*, J. J. Lv, S. Grasso, M. Mishra, Y. Yamauchi, B. N. Kim, and Y. Sakka, “Microstructure and Adsorption Property of Nano Carbide-derived Carbon Synthesized at Ambient Temperature,”Mater. Lett.,130, 188-91 (2014).

68.B. Zhang, J. Yang, L. Yu, L. M. Pan, T. Qiu, andC. F. Hu, “Study on Mechanical Properties of NbC Reinforced Nb₄AlC₃Composites Prepared by In Situ Hot-pressing Sintering,”J. Syn. Cryst.,5, 1144-8 (2014).

69.F. Z. Li, H. B. Zhang, Q. Wang, D. Qu, T. L. Zhou, B. N. Kim, Y. Sakka,C. F. Hu, and Q. Huang, “Microwave Sintering of Ti₃Si(Al)C₂Ceramic,”J. Am. Ceram. Soc.,97, 2731-5 (2014).

70.H. B. Bafrooei, E. T. Nassaj, T. Ebadzadeh, andC. F. Hu,“Sintering Behavior and Microwave Dielectric Properties of Nano Zinc Niobate Powder,”Ceram. Inter.,40, 14463-70 (2014).

71.E. T. Nassaj, H. B. Bafrooei,C. F. Hu, and T. Ebadzadeh, “Microwave Sintering of Nanopowder ZnNb₂O₆: Densification, Microstructure and Microwave Dielectric Properties,”Phys. B,454, 35-41 (2014).

72.H. B. Zhang,C. F. Hu*, K. Sato, S. Grasso, M. Estili, S. Q. Guo, K. Morita, H. Yoshida, T. Nishimura, T. S. Suzuki, B. N. Kim, and Y. Sakka, “Tailoring Ti₃AlC₂Ceramic with High Anisotropic Physical and Mechanical Properties,”J. Eur. Ceram. Soc.,35, 393-7 (2014).

73.B. N. Kim, K. Hiraga, A. Jeong,C. F. Hu, T. S. Suzuki, J. D. Yun, and Y. Sakka, “Transparent ZnAl₂O₄Ceramics Fabricated by Spark Plasma Sintering,”J. Ceram. Soc. Jpn.,122, 784-7 (2014).

74.B. R. Bian, J. H. He, J. Du, W. X. Xia, J. Zhang, J. P. Liu, W. Li,C. F. Hu, and A. R. Yan, “Growth Mechanism and Magnetic Properties of Monodisperse L10-Co(Fe)Pt@C Core–shell Nanoparticles by One-step Solid-phase Synthesis,”Nanoscale,7, 975-80 (2015).

75.S. Q. Guo,C. F. Hu, H. Gao, Y. Tanaka, and Y. Kagawa, “SiC(SCS-6) Fiber-reinforced Ti₃AlC₂Matrix Composites: Interfacial Characterization and Mechanical Behavior,”J. Eur. Ceram. Soc.,35, 1375-84 (2015).

76.T. B. Wang, C. C. Jin, J. Yang,C. F. Hu, and T. Qiu, “Physical and Mechanical Properties of Boron Nitride Ceramic Fabricated by Pressureless Sintering without Additive,”Adv. Appl. Ceram., 114, 273-6 (2015).

77.C. F. Hu*, B. N. Kim, Y. J. Park, M. Estili, S. Grasso, K. Morita, H. Yoshida, T. Nishimura, S. Q. Guo, and Y. Sakka, “Nano ZrO₂-TiN Composites with High Strength and Conductivity,”J. Ceram. Soc. Jpn.,123, 86-9 (2015).

78. C. F. Hu*, B. N. Kim, Y. J. Park, K. Morita, H. Yoshida, S. Grasso, H. B. Zhang, S. Q. Guo, and Y. Sakka, “Microstructure and Mechanical Properties of Nano ZrO₂-10 vol.% TiN Composite Fabricated by Spark Plasma Sintering,”J. Ceram. Proc. Res.,16, 1-6 (2015).

79.C. F. Hu, C. C. Lai, Q. Z. Tao, J. Lu, J. Halim, L. C. Sun, J. Zhang, J. Yang, B. Anasori, J. Y. Wang, Y. Sakka, L. Hultman, P. Eklund, J. Rosén, and M. W. Barsoum, “Mo₂Ga₂C: A New Ternary Nanolaminated Carbide,”Chem. Commun.,51, 6560-3 (2015).

80.H. Porwal, M. Estili, A. Grünewald, S. Grasso, R. Detsch,C. F. Hu, Y. Sakka, A. R. Boccaccini, and M. J. Reece, “45S5 Bioglass®-MWCNT Composite: Processing and Bioactivity,”J. Mater. Sci.-Mater. M.,26, 199 (2015).

81. C. F. Hu*, C. Li, J. Halim, S. Kota, D. Tallman, and M. W. Barsoum, “On the Rapid Synthesis of the Ternary Mo₂GaC,”J. Am. Ceram. Soc.,98, 2713-5 (2015).

82.H. P. Ning, G. D. Mastrorillo, S. Grasso, B. L. Du, K. Simpson, T. Mori,C. F. Hu, Y. Xu, J. Tunbridge, G. Maizza, and M. J. Reece, “Enhanced Thermoelectric Performance of Porous Antimony Doped Magnesium Tin Silicide by Spark Plasma Sintering,”J. Mater. Chem. A.,3, 17426 (2015).

83.C. C. Jin, T. B. Wang,C. F. Hu, T. Liang, J. Yang, and T. Qiu, “Fabrication and Properties of AlN/BN Composite Ceramics by Hot-pressing Sintering,”J. Syn. Cryst.,44, 1591-6 (2015).

84.C. C. Jin, T. B. Wang, L. M. Pan, J. Yang,C. F. Hu, and T. Qiu, “Preparation and

Properties of Sintering Additive-free AlN-BN Composite Ceramics by Hot-pressing Sintering,”J. Mater. Sci: Mater. Electron,27, 2014-21 (2016).

85.H. B. Bafrooei, E. T. Nassaj, T. Ebadzadeh,C. F. Hu, A. Sayyadi-Shahraki, and T. Kolodiazhnyi, “Sintering Behavior and Microwave Dielectric Characteristics of ZnTiNb₂O₈Ceramics Achieved by Reaction Sintering of ZnO-TiO₂-Nb₂O₅Nanosized Powders,”Ceram. Inter.,42, 3296-3303 (2016).

86.J. Gu, L. M. Pan, L. Yu, H. B. Zhang, W. J. Zou, C. H. Xu,C. F. Hu, and T. Qiu, “Mechanical Properties and Oxidation Behavior of Ti-doped Nb₄AlC₃,”J. Eur. Ceram. Soc.,36, 1001-8 (2016).

87.P. Tatarko, V. Casalegno,C. F. Hu, M. Salvo, M. Ferraris, andM. J. Reece, “Joining of CVD-SiC Coated and Uncoated Fiber Reinforced Ceramic Matrix Composites with Pre-sintered Ti₃SiC₂MAX Phase Using Spark Plasma Sintering,”J. Eur. Ceram. Soc.,36, 3957-67 (2016).

88.J. M. Zhou, D. G. Zhu, L. T. Tang, X. S. Jiang, S. Chen, X. Peng, andC. F. Hu, “Microstructure and Properties of Powder Metallurgy Cu-1%Cr-0.65%Zr Alloy Prepared by Hot Pressing,”Vacuum,131, 156-63 (2016).

89.C. Li, S. Kota,C. F. Hu, and M. W. Barsoum, “On the Synthesis of Low Cost, Ti-based MXenes,”J. Ceram. Sci. Technol.,7, 301-6 (2016).

90.C. F. Hu*, F. Shen, D. G. Zhu, H. B. Zhang, J. M. Xue, and X. G. Han, “Characteristics of Ti₃C₂X/Chitosan Films with Enhanced Mechanical Properties,”Frontiers in Energy Research,4, 1-5 (2017).

91.O. Chaix-Pluchery, A. Thore, S. Kota, J. Halim,C. F. Hu, J. Rosen, T. Ouisse, and M. W. Barsoum, “First-order Raman Scattering in Three Layered Mo-based Ternaries: MoAlB, Mo₂Ga₂C and Mo₂GaC,”J. Raman Spectro.,48, 631-8 (2017).

92.Y. L. Liu, D. G. Zhu, andC. F. Hu*, “Review of MAX Phases and Its Coating Fabricated by Spraying,”Adv. Ceram.,38, 21-8 (2017).

93.P. C. Guo, D. G. Zhu, Y. Gao, M. J. Li, andC. F. Hu,“Microstructure and Properties of CuCr Alloys Prepared by Hot Isostatic Pressing,”Electri. Eng. Mater.,4, 6-11 (2017).

94.L. D. Xu, D. G. Zhu,S. Grasso, T. S. Suzuki, A. Kasahara, M. Tosa, B. N. Kim, Y. Sakka,M. H. Zhu, andC. F. Hu*, “Effect of Texture Microstructure on Tribological Properties of Tailored Ti₃AlC₂Ceramic,”J. Adv. Ceram.,6, 120-8 (2017).

95.Z. Lv, D. G. Zhu, H. Qian, L. D. Xu, andC. F. Hu, “Microstructure and Mechanical Properties of SiC-TiC Composites Fabricated by Hot Isostatic Pressing,”Powder Metall. Technol.,35, 163-70 (2017).

96.Y. H. Liu, B. R. Bian,C. F. Hu, P. P. Yi, J. Du, W. X. Xia, J. Zhang, A. R. Yan, Y. Li, and P. Liu, “Air Stable Fe Nanostructures with High Magnetization Prepared by Reductive Annealing,”J. Mater. Sci. Technol.,33, 1334-8 (2017).

97.J. M. Zhou, D. G. Zhu, H. W. Zhang, I. Bogomol, S. Grasso, andC. F. Hu*, “Microstructure and Indentation Damage Resistance of ZrB₂-20vol.%SiC Ipo-eutectic Composites,”Inter. J. Appl. Ceram. Technol.,15, 619-24 (2018).

98.L. T. Tang, D. G. Zhu, Z. Sun, X. S. Jiang, T. F. Song, andC. F. Hu, “Microstructure and Mechanical Properties of Al-Ti-Zr Intermetallic Compounds Prepared by Vacuum Hot Pressing,”Vacuum,150, 166-72 (2018).

99.L. D. Xu, D. G. Zhu, Y. L. Liu, T. S. Suzuki, B. N. Kim, Y. Sakka, S. Grasso, andC. F. Hu*, “Effect of Texture on Oxidation Resistance of Ti₃AlC₂,”J. Eur. Ceram. Soc.,38, 3417-23 (2018).

100. H. Qian, D. G. Zhu, C. F. Hu, and X. S. Jiang, “Effects of Zr Additive on Microstructure, Mechanical Properties, and Fractography of Al-Si Alloy,”Metals, 8, 124 (2018).

101. L. D. Xu, O. L. Shi, C. Y. Liu, D. G. Zhu, S. Grasso, and C. F. Hu*, “Synthesis, Microstructure and Properties of MoAlB Ceramics,”Ceram. Inter., 44, 13396-401 (2018).

102. H. W. Zhang, D. G. Zhu, S. Grasso, and C. F. Hu*, “Tunable Morphology of Aluminum Oxide Whiskers Grown by Hydrothermal Method,”Ceram. Inter., 44, 14967-73 (2018).

103. Y. L. Liu, D. G. Zhu, S. Grasso, and C. F. Hu*, “Microstructure and Mechanical Properties of Gel Casted Ti₃AlC₂,”Ceram. Inter., 44, 23254-8 (2018).

104. J. J. Niu, H. B. Zhang, Y. Wu, C. F. Hu, and X. Wu, “Pressure-induced Reversible Phase Transition on Mo₂Ga₂C and Its Transformation Mechanism,”J. Appl. Phys., 124, 085903 (2018).

105.O. L. Shi, L. D. Xu, A. N. Jiang, Q. Xu, Y. T. Xiao, D. G. Zhu, S. Grasso, and C. F. Hu*, “Synthesis and Oxidation Resistance of MoAlB Single Crystals,”Ceram. Inter., 45, 2446-50 (2019).

106. M. Biesuz, J. Dong, S. Fu, Y. L. Liu, H. W. Zhang, D. G. Zhu, C. F. Hu*, and S. Grasso, “Thermally-insulated Flash Sintering,”Scripta Mater., 162, 99-102 (2019).

107.Z. Sun, W. Li, Y. L. Liu, H. W. Zhang, D. G. Zhu, H. L. Sun,C. F. Hu, and S. Chen, “Design and Preparation of A Novel Degradable Low-temperature Co-fired Ceramic (LTCC) Composites,”Ceram. Inter.,45, 7001-10 (2019).

108.M. Biesuz, R. Sedlák, T. Saunders, A. Kovalčíková, J. Dusza, M. Reece, D. G. Zhu,C. F. Hu*, and S. Grasso, “Flash Spark Plasma Sintering of 3YSZ,”J. Eur. Ceram. Soc.,39, 1932-7 (2019).

109.Z. Zhang, S. Fu, F. Aversano, H. W. Zhang,C. F. Hu*, and S. Grasso, “Arc Melting: A Novel Method to Prepare Homogeneous Solid Solutions of Transition Metal Carbides (Zr, Ta, Hf),”Ceram. Inter.,45, 9316-9 (2019).

110.H. W. Zhang, D. D. Jayaseelan, I. Bogomol, M. J. Reece,C. F. Hu*, S. Grasso, and W. E. Lee, “A Novel Microstructural Design to Improve the Oxidation Resistance of ZrB₂-SiC Ultra-high Temperature Ceramics (UHTCs),”J. Alloys Compd.,785, 958-64 (2019).

111.A. N. Jiang, L. D. Xu, D. Y. Ke, Q. Xu, J. Li, J. B. Wei,C. F. Hu*, and S. Grasso, “Cold Hydrostatic Sintering: From Shaping to 3D Printing,”J. Materio.,5, 496-501 (2019).

112.M. Biesuz, S. Fu, J. Dong, A. N. Jiang, D. Y. Ke, Q. Xu, D. G. Zhu, M. Bortolotti, M. Reece,C. F. Hu*, and S. Grasso, “High Entropy Sr((Zr_0.94Y_0.06)_0.2Sn_0.2Ti_0.2Hf_0.2Mn_0.2)O_3-xPerovskite by Reactive Spark Plasma Sintering,”J. Asian Ceram. Soc., 7, 127-32 (2019).

113.D. Y. Ke, A. N. Jiang, M. Biesuz, M. Bortolotti, G. Taveri, X. Y. Wang, M. Xu, J. Li, Y. G. Feng,C. F. Hu, and S. Grasso, “Ultra-low Energy Joining: An Invisible Strong Bond at Room Temperature,”J. Eur. Ceram. Soc.,39, 5358-63 (2019).

114.S. Fu, Y. L. Liu, H. W. Zhang, S. Grasso, andC. F. Hu*, “Synthesis and Characterization of High Purity Mo₂Ti₂AlC₃Ceramic,”J. Alloys Compd.,815, 152485 (2020).

115.J. Dong, Z. A. Wang, X. Zhao, M. Biesuz, T. Saunders, Z. Q. Zhang,C. F. Hu, and S. Grasso, “Contactless Flash Sintering Based on Cold Plasma,”Scripta Mater., 175, 20-3 (2020).

116.M. Biesuz, G. Taveri, A.I. Duff, E. Olevsky, D. G. Zhu,C. F. Hu, and S. Grasso, “A Theoretical Analysis of Cold Sintering,”Adv. Appl. Ceram.,119, 75-89 (2020).

117.J. Mei, G. A. Ayoko,C. F. Hu*, J. M. Bell, and Z. Q. Sun, “Two-dimensional Fluoride-free Mesoporous Mo₂C MXene via UV-induced Selective Etching of Mo₂Ga₂C for Energy Storage,”Sustain. Mater. Technol.,25, e00156 (2020).

118.N. Liao, L. D. Xu, Y. X. Jin, Y. T. Xiao, S. Grasso, andC. F. Hu*, “Synthesis, Microstructure and Mechanical Properties of TiC-SiC-Ti₃SiC₂Composites Prepared byIn SituReactive Hot Pressing,”Inter. Appl. Ceram. Technol.,17, 1601-7 (2020).

119.X. J. Su, J. Dong, L. S. Chu, H. L. Sun, S. Grasso, andC. F. Hu*,“Synthesis, Microstructure and Properties of MoAlB Ceramics Prepared byIn SituReactive Spark Plasma Sintering”,Ceram. Inter.,46, 15214-21 (2020).

120.S. Fu, D. G. Zhu, S. Grasso, andC. F. Hu*, “Research Progress of Magnetic MAX Phases Ceramics:A Review,”Adv. Ceram.,41, 217-30 (2020).

121.J. Mei, G. A. Ayoko,C. F. Hu*, and Z. Q. Sun, “Thermal Reduction of Sulfur-containing MAX Phase for MXene Production,”Chem. Eng. J.,395, 125111 (2020).

122.D. M. Sun, X. S. Jiang, L. L. Su, H. L. Sun,C. F. Hu, T. F. Song, and Z. P. Luo, “Fabrication and Mechanical Properties of Al₂O₃-TiC Ceramic Composites Synergistically Reinforced with Multi-walled Carbon Nanotubes and Graphene Nanoplates,”Ceram. Inter.,46, 20068-80 (2020).

123.Q. Xu, Y. C. Zhou, H. M. Zhang, A. N. Jiang, Q. Z. Tao, J. Lu, J. Rosén, Y. H. Niu, S. Grasso, andC. F. Hu*, “Theoretical Prediction, Synthesis and Crystal Structure Determination of New MAX Phase Compound V₂SnC,”J. Adv. Ceram.,9, 481-92 (2020).

124.X. H. Liu,C. F. Hu, and L. S. Chu, “Microstructure, Compressive Strength and Sound Insulation Property of Fly Ash-based Geopolymeric Foams with Silica Fume as Foaming Agent,”Mater.,13, 3215 (2020).

125.Y. H. Niu, S. Fu, K. B. Zhang, B. Dai, H. B. Zhang, S. Grasso, andC. F. Hu*, “Synthesis, Microstructure and Properties of High Purity Mo₂TiAlC₂Ceramics Fabricated by Spark Plasma Sintering,”J. Adv. Ceram.,9, 759-68 (2020).

126.X. X. Lv, Z. Y. Zhao, H. L. Sun, X. S. Jiang,C. F. Hu, T. F. Song, and Z. P. Luo, “Influence of Y₂O₃Contents on Sintering and Mechanical Properties of B₄C-Al₂O₃Multiphase Ceramic Composites,”J. Mater. Res. Technol.,9, 11687-701 (2020).

127.H. J. Deng, J. Dong, F. Boi, T. Saunders,C. F. Hu, and S. Grasso, “Magnetic Field Generated during Electric Current Assisted Sintering: From Health and Safety Issues to Lorentz Force Effects,”Metals,10, 1653 (2020).

128.M. Kermani, M. Biesuz, J. Dong, H. J. Deng, M. Bortolotti, A. Chiappini, M. J. Reece, V. M. Sglavo,C. F. Hu, and S. Grasso, “Flash Cold Sintering: Combining Water and Electricity,”J. Eur. Ceram. Soc.,40, 6266-71 (2020).

129.N. Luo, Y. Lin, M. Chamas,C. F. Hu, and S. Grasso, “Cold Isostatic Sintering to Enhance the Ionic Conductivity of LiFePO₄,”Ceram. Inter.,47, 9296-9302 (2021).

130.M. Biesuz, T. Saunders, D. Y. Ke, M. Reece,C. F. Hu, and S. Grasso, “A Review of Electromagnetic Processing of Materials (EPM): Heating, Sintering, Joining and Forming,”J. Mater. Sci. Technol.,69, 239-72 (2021).

131.D. Y. Ke, P. Tatarko, N. Luo,C. F. Hu, and S. Grasso, “Cold Joining of Fused Silica: Boning Pressure and Surface Roughness Effects,”Mater. Lett.,282, 128836 (2021).

132.X. J. Su, Y. W. Bao, D. T. Wan, H. B. Zhang, L. D. Xu, S. Grasso, andC. F. Hu*, “Thermal Shock Resistance of Ti₃SiC₂Ceramic under Extremely Rapid Thermal Cycling,”J. Alloys Compd.,866, 158985 (2021).

133.Y. Lin, N. Luo, M. Chamas,C. F. Hu, and S. Grasso, “Sustainable High Entropy Ceramics for Reversible Energy Storage: A Short Review,”Inter. Appl. Ceram. Technol.,18, 1560-9 (2021).

134.J. Dong, M. Biesuz, V. M. Sglavo, M. Kermani, X. J. Su, T. Saunders,C. F. Hu, and S. Grasso, “Athermal Field Effects in Flash Sintered Zirconia,”Adv. Appl. Ceram.,120, 193-201 (2021).

135.X. J. Su, B. T. Hu, Y. Quan, Y. R. Qin, Q. G. Feng, andC. F. Hu*, “Ablation Behavior and Mechanism of Bulk MoAlB Ceramic at ~1670-2550^oC in Air Plasma Flame,”J. Eur. Ceram. Soc.,41, 5474-83 (2021).

136.Y. Lin, N. Luo, E. Quattrocchi, F. Ciucci, J. H. Wu, M. Kermani, J. Dong,C. F. Hu, and S. Grasso, “Ultrafast High-temperature Sintering (UHS) of Li_1.3Al_0.3Ti_1.7(PO₄)₃,”Ceram. Inter., 47, 21982-7 (2021).

137.J. Dong, M.Kermani,C. F. Hu, andS. Grasso,“Flash Cold Sintering of Nb₂O₅: Polarity and Electrolyte Effects,”J. Asian Ceram. Soc.,9, 934-9 (2021).

138.Y. R. Qin, Y. C. Zhou, L. F. Fan, Q. G. Feng, S. Grasso, andC. F. Hu*, “Synthesis and Characterization of Ternary Layered Nb₂SB Ceramics Fabricated by Spark Plasma Sintering,”J. Alloys Compd.,878, 160344 (2021).

139.M. Kermani, J. Dong, M. Biesuz, Y. Lin, H. J. Deng, V. M. Sglavo, M. J. Reece,C. F. Hu, and S. Grasso, “Ultrafast High-temperature Sintering (UHS) of Fine Grained α-Al₂O₃,”J. Eur. Ceram. Soc., 41, 6626-33 (2021).

140.N. Luo, Y. Lin, J. Guo, E. Quattrocchi, H. J. Deng, J. Dong,C. F. Hu, and S. Grasso,“Spark Plasma Sintering of LiFePO₄: AC Field Suppressing Lithium Migration,”Mater.,14, 2826 (2021).

141.B. T. Hu, Y. W. Bao, X. J. Su, D. T. Wan, Q. G. Feng, S. Grasso, andC. F. Hu*, “Comparative Investigation of Ultra Fast Thermal Shock of Ti₃AlC₂Ceramic in Water and Air,”Inter. Appl. Ceram. Technol.,18, 1863-71 (2021).

142.N. Liao, X. J. Su, H. W. Zhang, Q. G. Feng, S. Grasso, andC. F. Hu*, “Synthesis of θ-Al₂O₃Whiskers with Twins,”Metals,11, 895 (2021).

143.R. X. Luo, M. Kermani, Z. L. Guo, J. Dong,C. F. Hu, F. Zuo, S. Grasso, Z. Q. Yan, Q. Wang, G. L. Nie, and H. T. Lin, “Ultrafast High-temperature Sintering of Silicon Nitride: A Comparison with the State-of-the-Art Technique,”J. Eur. Ceram. Soc.,41, 6338-45 (2021).

144.J. Dong, V. Pouchly, M. Biesuz, V. Tyrpekl, M. Vilémová, M. Kermani, M. Reece,C. F. Hu, and S. Grasso, “Thermally-insulated Ultra-fast High Temperature Sintering (UHS) of Zirconia: A Master Sintering Curve Analysis,”Scripta Mater.,203, 114076 (2021).

145.L. M. Fang, M. Ekholm, C. F. Hu, and Q. G. Feng, “Field Controllable Electronic Properties of MnPSe₃/WS₂Heterojunction for Photocatalysis,”J. Cent. South Univ., 28, 3728 (2021).

146. J. J. Dai, Q. D. Hu, W. W. Sun, C. F. Hu, P. M. Oppeneer, and Q. G. Feng, “Behavior of Intrinsic Defects in BaF2under Uniaxial Compressions: An Ab Initio Investigation,”Mater. Today Comm., 28, 102730 (2021).

147. Y. Quan, B. T. Hu, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, and C. F. Hu*, “Fabrication, Microstructure and Properties ofIn SituV₂C Reinforced Copper Composites,”Metals, 11, 1829 (2021).

148.H. J. Deng, M. Biesuz, M. Vilémová, M. Kermania, J. Veverkab, V. Tyrpeklc,C. F. Hu, and S. Grasso, “Ultrahigh Temperature Flash Sintering of Binder-less Tungsten Carbide within 6 s,”Mater.,14, 7655 (2021).

149.M. Kermani, V. Pouchly, Y. Lin, C. F. Hu, and S. Grasso, “Water-assisted Cold Isostatic Pressing to Enhance Sinterability of Alumina Ceramics,”Inter. Appl. Ceram. Technol.,19, 1249-54 (2022).

150.J. T. Wu, H. Y. Chen, X. Luo, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Design, Fabrication, Microstructure and Properties of Highly Porous Alumina Whisker Foam Ceramic,”Ceram. Inter.,48, 2776-81 (2022).

151.J. H. Wu, Y. Lin, M. Kermani,C. F. Hu, and S. Grasso, “Ultra-fast High Temperature Sintering (UHS) ofLi_1.5Al_0.5Ge_1.5P₃O₁₂Electrolyte: A Rationalization of the Heating Schedule,”Ceram. Inter.,48, 6356-62 (2022).

152. M. Kermani, D. Y. Zhu, J. Li, J. H. Wu, Y. Lin, Z. Q. Dai, C. F. Hu, and S. Grasso, “Ultra-fast High Temperature Sintering (UHS) of Ultra-fine-grained Translucent Alumina Ceramics,”Open Ceram., 9, 100202 (2022).

153.G. X. Liu, B. Dai, Y. Ren, K. B. Zhang, D. J. Ye,C. F. Hu, W. T. Zhang, and S. Fu, “Microstructure and Magnetic Properties of Nickel-Zinc Ferrite Ceramics Fabricated by Spark Plasma Sintering,”Ceram. Inter.,48, 10412-9 (2022).

154.J. H. Wu, M. Kermani, D. Y. Zhu, J. Li, Y. Lin,C. F. Hu, and S. Grasso, “Carbon Free Ultra-fast High Temperature Sintering of Translucent Zirconia,”Scripta Mater.,210, 114476 (2022).

155.Y. Zeng, Q. Hu, M. Pan, K. Zhang, S. Grasso,C. F. Hu, and Q. G. Feng, “Investigation of Double Perovskites Sr₂SmNbO₆and X₂CoNbO₆(X = Sr,Ba) with SCAN Functional and Plus U Correction,”Adv. Powder Mater.,1, 100019 (2022).

156.Q. Q. Zhang, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Synthesis and Property Characterization of Ternary Laminar Zr₂SB Ceramic,”J. Adv. Ceram.,11, 825-33 (2022).

157.X. J. Su, G. X. Liu, B. Dai, B. T. Hu, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Ablation Mechanisms of Ti₃SiC₂Ceramic in Nitrogen Plasma Flame,”Ceram. Inter.,48, 14004-13 (2022).

158.Q. Q. Zhang, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*,“Rapidly Synthesizing Hf₂SB Ceramics by Thermal Explosion,”J. Eur. Ceram. Soc.,42, 3780-6 (2022).

159.M. U. Khan, L. J. Du, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Preparations and Applications of MXene-Metal Composites: A Review,”Coatings,12, 516 (2022).

160.Z. K. Zhang, H. Gu, D. D. Sun, Y. L. Bai, andC. F. Hu, “Control of Multiphase Evolution and Al-deficiency in Reactive-sinteredMoAlB Ceramics with Excessive Al,”J. Eur. Ceram. Soc.,42, 5505-14 (2022).

161.J. Mei, J. Shang, C. Zhang, D. C. Qi, L. Z. Kou, B. Wijerathne,C. F. Hu, T. Liao, J. MacLeod, and Z. Q. Sun, “MAX‐phase Derived Tin Diselenide for 2D/2D Heterostructures with Ultralow Surface/Interface Transport Barriers toward Li‐/Na‐ions Storage,”Small Methods,6, 2200658 (2022).

162.Y. Lin, M. Biesuz, M. Bortolotti, L. Y. Shen, J. H. Wu, P. Y. Baptiste, J. Yu, F. Ciucci, V. M. Sglavo,C. F. Hu, and S. Grasso, “Impact of Reducing Conditions on the Stabilization of Mg_0.2Co_0.2Ni_0.2Cu_0.2Zn_0.2O High Entropy Oxide,”Ceram. Inter.,48, 30184-90 (2022).

163.Q. H. Jiang, X. W. Zeng, andC. F. Hu*, “A Promising Layered Thermoelectric Metallic Ceramic with Ultra-high Temperature Stability: Mo₂Ti₂AlC₃,”J. Alloys Compd.,922, 166212 (2022).

164.Z. Q. Dai, L. L. Cong, F. Zuo, M. Biesuz, K. Chen, M. Bortolotti, M. Kermani, Y. Lin, V. Tyrpekl,C. F. Hu, F. Boi, H. T. Lin, M. Reece, and S. Grasso, “Ultra-low Energy Processing of Graphite: A Fast-track Journey towards Carbon Neutrality,”Appl. Mater. Today,29, 101594 (2022).

165.J. J. Chen, Z. Y. Huang, J. Q. Qi, M. Deng, Y. Shi,C. F. Hu, and H. M. Wang, “Preparation, Mechanical Properties and Oxidation Behavior of (Ti_0.25Zr_0.25Nb_0.25Ta_0.25)C High-entropy Ceramics,”Bull. Chin. Ceram. Soc.,41, 2117-25 (2022).

166.Q. Q. Zhang, Y. C. Zhou, X. Y. San, W. B. Li, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Zr₂SeB and Hf₂SeB:Two New MAB Phase Compounds with the Cr₂AlC-type MAX Phase (211 phase) Structure,”J. Adv. Ceram.,11, 1764-6 (2022).

167.S. J. Zhou, M. U. Khan, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Enhanced Properties of Tailored MoAlB Ceramics by Hot Forging,”J. Eur. Ceram. Soc.,42, 6918-24 (2022).

168.Y. Quan, Q. Q. Zhang, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, and

C. F. Hu*, “β-Ta₄AlC₃Is Not Formed by Transformation fromα-Ta₄AlC₃,”J. Eur. Ceram. Soc.,42, 7377-80 (2022).

169.Z. Q. Dai, V. Tyrpekl, F. Boi, J. X. Song,C. F. Hu, and S. Grasso, “Cold Sintering of Van Der Waals Layered Compounds,”Open Ceram.,12, 100304 (2022).

170.K. Chen, X. R. Chang,C. F. Hu, and Q. G. Feng, “Novel Phase Transition for XSnN₂(X = Mg, Zn) under Uniaxial Compression,”Mater. Today Comm.,33, 104753 (2022).

171.W. Ding, B. T. Hu, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Ultra-fast Thermal Shock Evaluation of Ti₂AlC Ceramic,”Materials,15, 6877 (2022).

172.K. Chen, X. R. Chang, Y. Zeng,C. F. Hu, and Q. G. Feng, “Phase Transition and Properties of Ternary MgGeN₂under Pressure: A First Principles Investigation,”Phys. Scr.,97, 125826 (2022).

173.M. Kermani,C. F. Hu, and S. Grasso, “From Pit Fire to Ultrafast High-temperature Sintering (UHS): A Review on Ultrarapid Consolidation,”Ceram. Inter.,49, 4017-9 (2023).

174.Q. Q. Zhang, B. Wen, J. Luo, Y. C. Zhou, X. Y. San, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*,“Synthesis of New Rare Earth Containing Ternary Laminar Sc₂PbC Ceramic,”J. Eur. Ceram. Soc.,43, 1735-9 (2023).

175.Q. Q. Zhang, Y. C. Zhou, X. Y. San, W. B. Li, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*, “Thermal Explosion Synthesis of First Te-containing Ternary Layered Hf₂TeB Ceramic,”J. Eur. Ceram. Soc.,43, 173-6 (2023).

176.L. J. Du, Q. Q. Zhang, L. Cao, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, S. Grasso, andC. F. Hu*,“Synthesis, Microstructure and Property Characterization of Mo₄Y₂Al₃B₆Ceramic Fabricated by Spark Plasma Sintering,”J. Eur. Ceram. Soc.,43, 1880-6 (2023).

177.X. Y. Qian, H. Yang,C. F. Hu, Y. Zeng, Y. D. Huang, X. Shang, Y. J. Wan, B. Jiang, and Q. G. Feng, “Effect of Potential Difference between Nano-Al₂O₃Whisker and Mg Matrix on the Dispersion of Mg Composites,”Inter. J. Miner. Metal. Mater.,30, 104-11 (2023).

178.Y. C. Zhou, H. M. Xiang, andC. F. Hu, “Extension of MAX Phases from Ternary Carbides and Nitrides (X = C and N) to Ternary Borides (X = B, C, and N): A General Guideline,”Inter. J. Appl. Ceram. Technol.,20, 803-22 (2023).

179.J. H. Wu, M. Kermani, L. Cao, B. H. Wang, Z. Q. Dai, L. Fu,C. F. Hu, and S. Grasso, “Rapid Crystallization of Li_1.5Al_0.5Ge_1.5(PO₄)₃Glass Ceramics via Ultra-fast High-temperature Sintering (UHS),”Inter. J. Appl. Ceram. Technol.,20, 2125-30 (2023).

180.J. H. Wu, Y. Lin,C. F. Hu, S. Grasso, D. Y. Zhu, J. Li, A. Katz-Demyanitcz, and A. Goldstein, “Ultra-fast High-temperature Sintering of Transparent MgAl₂O₄,”Ceram. Inter.,49, 19537-40 (2023).

181.J. Cheng, Q. Q. Zhang, S. Fu, D. T. Wan, Y. W. Bao, L. S. Chu, Q. G. Feng, S. Grasso, andC. F. Hu*, “Synthesis andCharacterization ofTernaryLayered i-MAX(Mo_2/3Y_1/3)₂AlCCeramicsFabricated bySparkPlasmaSintering,”Inter. J. Appl. Ceram. Technol.,20,2717-26 (2023).

182.H. Zhang, Q. Q. Jin, T. Hu, X. C. Li, Z. Z. Zhang,C. F. Hu, Y. C. Zhou, Y. Han, X. H. Wang, “Electron-irradiation-facilitated Production of Chemically Homogenized Nanotwins in Nanolaminated Carbides,”J. Adv. Ceram.,12, 1288-97 (2023).

183.H. J. He, B. T. Hu, S. A. Soomro, S. Fu, D. T. Wan, Y. W. Bao, Y. C. Zhou, Q. G. Feng, S. Grasso, andC. F. Hu*, “Synthesis, Microstructure, Physical and Mechanical Properties of Phase-pure Entropy-enhanced (Nb_0.8Ti_0.05Ta_0.05V_0.05M_0.05)₄AlC₃(M = Hf, Zr) Ceramics,”J. Eur. Ceram. Soc.,43, 5782-91 (2023).

184.M. Fu, H. Y. Chen, J. Cheng, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Comparative Study of Preparation and Electrochemical Properties of Nb₄C₃T_xand (Nb_0.8Ti_0.05V_0.05Zr_0.05Ta_0.05)₄C₃T_xMXenes,”Metals,13, 1548 (2023).

185.X. R. Chang, K. Chen, Y. Zeng,C. F. Hu, and Q. G. Feng, “Phase Transition and Electronic Properties of XGeN₂(X = Zn, Cd) under Uniaxial Compression,”Mater. Lett.,349, 134807 (2023).

186.J. Cheng, Q. Q. Zhang, S. Fu, D. T. Wan, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Synthesis, Microstructure and Properties of Ternary Layered i-MAX (Mo_2/3M_1/3)₂AlC (M = Sc and Lu) Ceramics Fabricated by Spark Plasma Sintering,”J. Eur. Ceram. Soc.,43, 6774-82 (2023).

187.Q. Q. Zhang, J. Luo, B. Wen, Y. C. Zhou, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Determination of Newα-312 MAX Phases of Zr₃InC₂and Hf₃InC₂,”J. Eur. Ceram. Soc.,43, 7228-33 (2023).

188.Q. Q. Zhang, B. Wen, J. Luo, Y. C. Zhou, X. Y. San, Y. W. Bao, L. S. Chu, Q. Q.

Feng, S. Grasso, andC. F. Hu*, “Synthesis of New Lead-containing MAX Phases of Zr₃PbC₂and Hf₃PbC₂,”J. Am. Ceram. Soc.,106, 6390-7 (2023).

189.H. Zhang, B. T. Hu, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “AblationResistanceof Ti₂AlC Ceramic at 1600 ℃ in Nitrogen Plasma Flame,”Ceram. Inter.,49, 34697-704 (2023).

190.Z. Li, G. X. Liu, H. W. Yang, F. Liu, S. L. Yang, B. Dai, Y. Ren, F. Xu, andC. F. Hu,“Structure and Properties of Fiber-reinforced LiZn Ferrite Ceramics Prepared via Spark Plasma Sintering,”Ceram. Inter.,49, 34500-9 (2023).

191.K. Chen, L. Li, X. G. Chang,C. F. Hu, and Q. G. Feng, “A First-Principles Study of MgSnN₂Films Using a DFT-12 Approach,”Phys. Scri.,98, 095912 (2023).

192.Y. Yu, S. Fu, D. T. Wan, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Hot Forging Nb₄AlC₃Ceramics with Enhanced Properties,”J. Adv. Ceram.,12,2032-40 (2023).

193. X. R. Chang, K. Chen,C. F. Hu, and Q. G. Feng, “A First-Principles Investigation of MgGeN₂Under Uniaxial Compression,”Phys. Status Solidi B,260, 2200417 (2023).

194.M. Kermani, J. H. Wu, Z. X. Liu, F. Zuo, H. T. Lin,C. F. Hu, and S. Grasso, “Impact of Sintering Thermal History on MgO-doped Alumina: Reduction of Grain Growth Constant through High Heating Rates,”J. Am. Ceram. Soc.,107, 132-43 (2024).

195.L. J. Du, Q. Q. Zhang, F. J. Zhang, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng, andC. F. Hu*,“Synthesis and Characterization of Layered Quaternary Mo_4/3Lu_2/3AlB₂Ceramics Fabricated by Spark Plasma Sintering,”J. Eur. Ceram. Soc.,44, 1429-35 (2024).

196.H. Zhang, B. T. Hu, B. Dai, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Excellent Ablation Resistance of Ti₃AlC₂Ceramic up to 1900 °C in Nitrogen Plasma Flame,”J. Eur. Ceram. Soc.,44, 1436-44 (2024).

197. L. Li, K. Chen, X. R. Chang, L. S. Chu, Y. G. Xu,C. F. Hu, and Q. G. Feng, “An Ab Initio Investigation of CdSnN₂under Uniaxial Compressions,”Phys. Status Solidi B,261, 2300398 (2024).

198.L. Cao, Q. Q. Zhang, L. J. Du, S. Fu, D. T. Wan, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Synthesis and Characterization of High Entropy (TiVNbTaM)₂AlC (M = Zr, Hf) Ceramics,”J. Adv. Ceram.,13, 237-46 (2024).

199.W. Ding, H. Chen, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Ultra-fast Thermal Shock Behaviors of Cr₂AlC Ceramics up to 1300 °C,”Ceram. Inter.,50, 12074-80 (2024).

200.Q. Q. Zhang, J. Luo, B. Wen, Y. C. Zhou, X. Y. San, H. Chen, Q. G. Feng, andC. F. Hu*, “Synthesis of New Rare Earth Containing MAX Phases Sc₂AC (A = Ga, In) by Spark Plasma Sintering,”J. Am. Ceram. Soc.,107, 3644-52 (2024).

201.H. Zhang, S. J. Zhou, H. Chen, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Excellent Cyclic Plasma Ablation Resistance of MoAlB Ceramics,”J. Eur. Ceram. Soc.,44, 3675-82 (2024).

202.J. Luo, F. J. Zhang, B. Wen, Q. Q. Zhang, L. S. Chu, Y. C. Zhou, Q. G. Feng, andC. F. Hu*, “Theoretical Prediction and Experimental Synthesis of Zr₃AC₂(A=Cd,Sb) Ceramics,”Mater.,17, 1556 (2024).

203.Q. Zhou, S. Fu, D. T. Wan, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Damage Mechanisms of Ti₃AlC₂Ceramics in Pulsed Laser Processing,”Ceram. Inter.,50, 21945-50 (2024).

204.Z. Li, X. Y. Jin,C. F. Hu, B. Dai, Y. Ren, F. Xu, Y. Zhao, and X. W. Yuan, “Effects of Thermal, Stress, and Electric Fields on Microstructure and Ion Distribution of (Mg_0.1Mn_0.1Co_0.1Ni_0.2Ti_0.1Cu_0.1Zn_0.2)Fe_2.1O₄Spinel Ferrites,”Ceram. Inter.,50, 20260-74 (2024).

205.S. A. Soomro, M. I. Jahanger, M. K. Bangash, Y. C. Zhou, S. Fu, D. T. Wan, Y. W. Bao, Q. G. Feng,C. F. Hu*, “Enhanced Properties of Multi-element Soluted (Nb_0.8Ti_0.05Zr_0.05Mo_0.05M_0.05)₄AlC₃(M = Hf, Ta) Ceramics Synthesized by Spark Plasma Sintering,”Inter. J. Appl. Ceram. Technol.,21, 4146-55 (2024).

206.Y. Yu, K. Chen, X. R. Chang, X. M. Ma, M. Pan, L. S. Chu,C. F. Hu, and Q. G. Feng, “Regulation of Monolayer MgGeN₂Thin Film with Uniaxial and Biaxial Strain,”Phys. Scri.,99, 065984 (2024).

207.L. Li, Y. Yu, X. R. Chang, Y. Zeng, L. S. Chu, X. M. Ma,C. F. Hu, and Q. G. Feng, “A More Accurate Investigation of XSiN₂(X = Ca, Sr, Ba) using A DFT-1/2 Scheme,”Solid State Comm.,389, 115580 (2024).

208.X. R. Chang, Y. Zeng, Y. Yu, L. Li, L. S. Chu,C. F. Hu, P. Oppeneer, and Q. G. Feng, “A First Principles Investigation of the Electronic, Mechanical and Optical Properties of XPbN₂(X = Mg, Zn),”Phys. B,689, 416191 (2024).

209.H. Gao, W. B. Li, K. Yang, X. S. Guo, R. N. Wang, D. Zhang, X. K. Ning,C. F. Hu*, and X. Y. San, “Determination of MAX Phase Structure and Surface Reconstruction Behavior of A Novel V-Sn-C System,”Ceram. Inter.,50, 39710-6 (2024).

210.M. U. Khan, S. A. Soomro, M. I. Jahanger, Y. C. Zhou, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Factors Influencing Synthesis and Properties of MAX Phases,”Sci. China Mater.,67, 3427-55 (2024).

211.H. Y. Yang, M. Fu, X. Zhang, K. L. Zhu, L. Cao, andC. F. Hu*, “Material Removal Mechanisms of Polycrystalline Silicon Carbide Ceramic Cut by A Diamond Wire Saw,”Mater.,17, 4238 (2024).

212.X. R. Chang, K. Chen, W. Li, Y. Zeng, M. Ekholm,C. F. Hu, and Q. G. Feng, “Structural, Electronic and Conductive Properties of Single Wall MgGeN₂Nanotube: A First Principles Investigation,”Mater. Lett.,377, 137421 (2024).

213.L. Li, Y. Yu, J. Y. Sun, X. R. Chang, L. S. Chu, M. PanC. F. Hu, and Q. G. Feng, “An Ab-initio Investigationof Sc and Y Doped Chalcopyrite MgGeN₂,”Mater.Today Comm,41, 110571 (2024).

214.F. J. Zhang, W. W. Sun,C. F. Hu, and Q. G. Feng, “Predicting the Stability and Properties of Lu₂AC Ceramics (A = Au, Al, Ga, In, Si, Ge, Sn, Pb, P, As, Se, Te),”MRS Comm.,14, 1403-8 (2024).

215.F. J. Zhang, L. Cao, Y. Zeng,C. F. Hu, M. Ekholm, and Q. G. Feng, “First-principle Calculations of Hf₂S_1-xTe_xB (0≤x≤1) with a Cr₂AlC-type MAX-phase Crystal Structure”,J. Am. Ceram. Soc.,e20299 (2024).

216.H. Zhang, G. X. Liu, B. Dai, S. Fu, D. T. Wan, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Cr₂AlC Ceramics-modified Lightweight Carbon/quartz Fiber Composites with Excellent Ablation Resistance and Thermal Insulation,”Inter. J. Appl. Ceram. Technol.,22,e14900 (2025).

217.B. Wen, Y. J. Liu, L. Cao, X. Y. San, Y. C. Zhou, M. Jiang, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Synthesis of Two Newo-MAX Phases Mo₂VAlC₂and Mo₂V₂AlC₃and Their Derivativeso-MXene Mo₂VC₂T_xand Mo₂V₂C₃T_x,”J. Eur. Ceram. Soc.,45, 116964 (2025).

218.X. R. Chang, Y. Q. Jiang,C. F. Hu, and Q. G. Feng, “DefectiveBehavior,Electronic andOpticalProperties of Sc and YDoped Pnma MgGeN₂,”Solid State Comm.,397, 115814 (2025).

219.L. Cao, X. H. Zhu, S. Fu, D. T. Wan, Y. W. Bao, Y. C. Zhou, M. Jiang, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Stabilizing High-entropy MAX Phases by Incorporating Tin Element,”J. Ad. Ceram.,14, 9221028 (2025).

220.Y. Yu, H. Zhang, Z. Teng, Y. W. Bao, M. Jiang, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Ablation Mechanismsof Bulk Nb₄AlC₃Ceramics at 1600 ~ 2200^oCin Nitrogen Plasma Flame,”J. Mater. Res. Technol.,35, 360-8 (2025).

221.Y. Zheng, S. Fu, D. T. Wan, Y. W. Bao, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Microstructure and PropertiesCharacterizationof WAlB CeramicsSynthesizedbyInSituReactive Spark Plasma Sintering,”Ceram. Inter.,51, 14919-27 (2025).

222.M. U. Khan, L. J. Du, X. Y. San, Y. C. Zhou, M. Jiang, L. S. Chu, Q. G. Feng, andC. F. Hu*, “Synthesis and Electrochemical Properties of Mo_4/3B₂T_xMBene as An Anode Material for Lithium-Ion Batteries,”J. Appl. Electrochem.,55, 1721-30 (2025).

223.Y. Yu, Q. Liu, J. Y. Sun, M. Pan, M. Jiang, Z. Tian,C. F. Hu, and Q. G. Feng,“An Ab-initio Investigation of MgGeN₂/WS₂Heterostructure in Varied Thickness,”Mater. Sci. Semicond. Proc.,191, 109363 (2025).

224.M. I. Jahanger, S. A. Soomro, M. U. Khan, Y. W. Bao, M. Jiang, L. S. Chu, Q. G.Feng, andC. F. Hu*, “Microstructure,Mechanical andElectromagneticInterferenceShieldingPropertiesofFree-standingTi₃C₂T_x-PVAFilms,”Appl. Sur. Sci.,692, 162705 (2025).

225.M. U. Khan, M. I. Jahanger,S. A. Soomro,X. Y. San, Y. C. Zhou, M. Jiang, L. S. Chu, Q. G. Feng, andC. F. Hu*,“Hydrothermal Green SynthesisandElectrochemicalPropertiesof Mo_4/3B₂T_xMBene,”Ionics,31, 5127-37 (2025).

226.L. Zhang, Y. J. Tang, K. Chen, Y. W. Bao, M. Jiang, L. S. Chu, Q. G. Feng, andC. F. Hu*,“Enhanced Antibacterial and Aesthetic Properties ofTi₃AlC₂Ceramics via Anodic Oxidation,”Ceram. Inter.,DOI:10.1016/j.ceramint.2025.04.190.

227.X. L. Yang, Y. Zeng, M. Pan, M. Jiang,C. F. Hu, and Q. G. Feng,“Electronic and Optical Properties of CrI₃/Nb₃Cl₈Heterojunction: A First Principles Investigation,”J. Phys.: Conden. Matt.,37, 235501 (2025).

228.Q. Chen, W. J. Zong, Q. Q. Zhou, Z. Y. Zhou, Y. L. Zhan, Q. G. Feng,C. F. Hu, and M. Jiang,“BarrierCoatingIntegrated withLigninNanotube andPolyvinylalcohol forVarietyPackagingFilm,”Int. J. Biol. Macromol.,314, 144024 (2025).

229.Z. J. Zhao, Z. Teng,C. F. Hu*, and Y. W. Bao,“TheLoadEffect of VickersHardnessTest onAdvancedCeramics andThreeTypicalIndentations,”J. Chin. Ceram. Soc., accepted.

230.H. Zhang, Z. Teng, Y. W. Bao, M. Jiang, Q. G. Feng, andC. F. Hu*,“MonolithicAl₂O₃-SiO₂AerogelsEnhanced byHybridInterpenetratingNetwork withHighMechanicalStrength andExcellentThermalInsulation,”J. Eur. Ceram. Soc., doi.org/10.1016/j.jeurceramsoc.2025.117755.

231.Y. J. Liu, W. Ding, Z. Teng, Y. W. Bao, M. Jiang,Q. G. Feng, andC. F. Hu*, “Ultra-fastThermalShockMechanisms of Ti₃AlC₂Ceramics inArgonEnvironment”,Inter. J. Appl. Ceram. Technol.,DOI10.1111/ijac.70045.

232.Q. Q. Zhang, H. Zhang, M. Jiang, Q. G. Feng, andC. F. Hu*, “CyclicAblationMechanisms of Cr₂AlCCeramics inNitrogenPlasmaFlame at 1600 ℃,”Extr. Mater., doi.org/10.1016/j.exm.2025.07.002.

233.M. U. Khan, M. I. Jahanger,S. A. Soomro,M. Jiang, Q. G. Feng, andC. F. Hu*,“Preparation and Electrochemical Properties of MBene/MWCNT Composite,”Electro. Acta., doi.org/10.1016/j.electacta.2025.147193.

BookChapters

1.C. F. Hu*, Y. Sakka, S. Grasso, H. Tanaka, and T. Nishimura, “SPARK PLASMA SINTERING (SPS), OR PULSE DISCHARGE SINTERING (PDS) of MAX PHASES,”MAXPhases: Microstructure, Properties and Applications,Editors: I.M. Low & Y.C. Zhou, Nova Science Publisher, ISBN 978-1-61324-182-0.

2.C. F. Hu*,H. B. Zhang, S. M. Peng, F. Z. Li, D. Qu, Q. Wang, R. J. Xie, Y. W. Bao, and Y. C. Zhou,“Developments in hot-pressing (HP) and hot isostaticpressing (HIP) of ceramic matrix composites,”ADVANCES IN CERAMIC-MATRIX COMPOSITES (CMCS), Editor: I. M. Low, Woodhead Publishing Limited,ISBN-13: 978-0-85709-120-8.

3.C. F. Hu*,Q. Huang, Y. W. Bao, and Y. C. Zhou,“Sintering and properties of Nb₄AlC₃ceramic,”Sintering of Ceramics: New Emerging Techniques, edited by Arunachalam Lakshmanan,InTech-Open Access Publisher,ISBN 978-953-51-0017-1.

4.H. W. Zhang, D. G. Zhu, andC. F. Hu*,“Double-A layered ceramics,”ADVANCES IN CERAMIC-MATRIX COMPOSITES (CMCS), Editor: I. M. Low, Woodhead Publishing Limited, ISBN 9780081021668.

5.J. Lu,C. F. Hu, C. C. Lai, Q. Z. Tao, J. Halim, L. Hultman, P. Eklund, J. Rosén, and M. Barsoum, “Novel MAX resembling Phase Mo₂Ga₂C,”European Microscopy Congress 2016: Proceedings,DOI 10.1002/9783527808465.EMC2016.5503.

Books

1.I. M. Low, Y. Sakka,C. F. Hu*,MAX Phases and Ultra-High Temperature Ceramics for ExtremeEnvironments, IGI Global,ISBN-13: 978-1466640665.

2. I. M. Low,S. B. Li,C. F. Hu*,ADVANCES IN CERAMICMATRIX COMPOSITES,Woodhead Publishing Limited,ISBN 978-0-443-18598-4.

1. 主持，国家自然科学基金联合基金 (U1232136), 强磁场织构化高强韧、抗辐照纳米层状类贝壳仿生结构陶瓷，60万，2013.01-2015.12。 (结题)

2. 主持，国家自然科学基金主任基金（51741208），新型双Ga/Sn/In层三元层状陶瓷的发现及构性关系研究，15万，2018.01-2018.12。 (结题)

3. 主持，国家自然科学基金面上项目（52072311），强磁场织构化三元层状硼化物陶瓷微结构调控机理及择优性能设计，58万，2020.01-2024.12。(结题)

4.主持，国家自然科学基金面上项目（52472079），高熵及类贝壳仿生结构协同设计诱导纳米层状结构陶瓷硬-强-韧化同步提升机理，48万，2025.01-2028.12。(在研)

5. 主持，四川省杰出青年基金（2019JDJQ0009），新型纳米层状陶瓷合成、结构设计及氦离子辐照损伤研究，40万，2019.1-2021.12。(结题)

6.主持，四川省国际港澳台国际创新合作项目（2025YFHZ0082），类贝壳仿生结构高熵纳米层状结构陶瓷硬-强-韧化同步提升机理，20万，2025.01.01-2026.12.31. (在研)

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