[1] QIAO L, ZHOU H P, FU R L. Thermal conductivity of AlN ceramics sintered with CaF₂ and YF₃[J]. Ceramics International, 893(2003).

[2] PATHAK L, RAY A K, DAS S K et al. Carbothermal synthesis of nanocrystalline aluminum nitride powders[J]. Journal of the American Ceramic Society, 257(1999).

[3] FENG G Z, YANG J, ZHOU D et al. Mechanism for hydrothermal- carbothermal synthesis of AlN nanopowders[J]. Journal of Inorganic Materials, 104(2025).

[4] MAO X X, XU Y G, MAO X J et al. Synthesis of fine AlN powders by foamed precursor-assisted carbothermal reduction- nitridation method[J]. Journal of Inorganic Materials, 1123(2019).

[5] BOEY F, TOK A I Y, LAM Y C et al. On the effects of secondary phase on thermal conductivity of AlN ceramic substrates using a microstructural modeling approach[J]. Materials Science and Engineering: A, 281(2002).

[6] WANG T, XIE J J, CHEN C et al. Fabrication translucent AlN ceramic under the strong magnetic field[J]. Optical Materials: X, 100148(2022).

[7] FUKUMOTO S, HOOKABE T, TSUBAKINO H. Hydrolysis behavior of aluminum nitride in various solutions[J]. Journal of Materials Science, 2743(2000).

[8] SVEDBERG L M, ARNDT K C, CIMA M J. Corrosion of aluminum nitride (AlN) in aqueous cleaning solutions[J]. Journal of the American Ceramic Society, 41(2000).

[9] SHANG Q S, WANG Z J, LI J et al. Gel-tape-casting of aluminum nitride ceramics[J]. Journal of Advanced Ceramics, 67(2017).

[10] JI H H, CHEN H T, ZHANG B H et al. Direct ink writing of aluminium oxynitride (AlON) transparent ceramics from water- based slurries[J]. Ceramics International, 8118(2022).

[11] WERDECKER W, ALDINGER F. Aluminum nitride-an alternative ceramic substrate for high power applications in microcircuits[J]. IEEE Transactions on Components, 399(1984).

[12] TANAKA T, SAKAI T, IWATA M. The effect of oxygen impurity on high temperature thermal conductivity of AIN.[J]. Journal of the Ceramic Association, 399(1973).

[13] YEH C T, TUAN W H. Oxidation mechanism of aluminum nitride revisited[J]. Journal of Advanced Ceramics, 27(2017).

[14] LEE H M, BHARATHI K, KIM D K. Processing and characterization of aluminum nitride ceramics for high thermal conductivity[J]. Advanced Engineering Materials, 655(2014).

[15] YUN C, FENG Y B, QIU T et al. Mechanical, electrical, and thermal properties of graphene nanosheet/aluminum nitride composites[J]. Ceramics International, 8643(2015).

[16] WANG L, GUO W M, SHENG P F et al. Effects of YH₂ addition on pressureless sintered AlN ceramics[J]. Journal of the European Ceramic Society, 862(2023).

[17] MORISADA Y, SAKURAI T, MIYAMOTO Y. A new water- resistant coating for AlN powders[J]. International Journal of Applied Ceramic Technology, 374(2004).

[18] GANESH I, THIYAGARAJAN N, SUNDARARAJAN G et al. A non-aqueous processing route for phosphate-protection of AlN powder against hydrolysis[J]. Journal of the European Ceramic Society, 2281(2008).

[19] ZHANG C Y, YU Y L, YANG H et al. Mechanism for the hydrolysis resistance of aluminum nitride powder modified by boric acid[J]. Ceramics International, 32696(2022).

[20] YU G C, XIE J J, WANG S et al. Non hydrolizable aluminum nitride powders surface modified by silicic acids[J]. Ceramics International, 29253(2021).

[21] LUO B B, ZHU Y M, SUN C Y et al. Reverse flotation of iron ore using amphoteric surfactant: 2-((2-(decyloxy)ethyl)amino)lauric acid[J]. Physicochemical Problems of Mineral Processing, 73(2021).

[22] YUN S H, PARK Y J. Dispersion of Li[Ni_0.2Li_0.2Mn_0.6]O₂ powder by surfactant for high-power Li-ion cell[J]. Bulletin of the Korean Chemical Society, 1598(2009).

[23] CHEN Y H, LIU Y, WANG Z H. Preparation and characteristics of microencapsulated lauric acid as composite thermal energy storage materials[J]. Materials Science, 88(2019).

[24] ISHAK S, MANDAL S, LEE H S et al. pH-controlled synthesis of sustainable lauric acid/SiO₂ phase change material for scalable thermal energy storage[J]. Scientific Reports, 15012(2021).

[25] LI M, AI J P, WANG Z J et al. HPMA modified aluminium nitride powder for aqueous tape casting of AlN ceramic substrates[J]. Journal of Advanced Ceramics, 1701(2023).

[26] RUAN H D, FROST R L, KLOPROGGE J T. Comparison of Raman spectra in characterizing gibbsite, bayerite, diaspore and boehmite[J]. Journal of Raman Spectroscopy, 745(2001).

[27] ZELEŇÁK V, VARGOVÁ Z, GYÖRYOVÁ K. Correlation of infrared spectra of zinc(II) carboxylates with their structures[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 262(2007).

[28] KAYAL A, CHANDRA A. Orientational order and dynamics of interfacial water near a hexagonal boron-nitride sheet: an ab initio molecular dynamics study[J]. The Journal of Chemical Physics, 164704(2017).

[29] HUANG Y, SARKAR D K, CHEN X G. Superhydrophobic nanostructured ZnO thin films on aluminum alloy substrates by electrophoretic deposition process[J]. Applied Surface Science, 327(2015).

[30] LIAO H M, SODHI R N S, COYLE T W. Surface composition of AlN powders studied by X-ray photoelectron spectroscopy and bremsstrahlung-excited Auger electron spectroscopy. Journal of Vacuum Science & Technology A: Vacuum[J]. Surfaces, 2681(1993).

[31] RADHIKA E, DOBBIDI P. XPS and dielectric studies of phase pure AlN-BN composite ceramics using powder bed.[J]. Materials Science and Engineering: B, 116783(2023).

[32] LEGALLAIS M, MEHDI H, DAVID S et al. Improvement of AlN film quality using plasma enhanced atomic layer deposition with substrate biasing[J]. ACS Applied Materials & Interfaces, 39870(2020).

[33] LIU R L, WU D Q, FENG X L et al. Nitrogen-doped ordered mesoporous graphitic arrays with high electrocatalytic activity for oxygen reduction[J]. Angewandte Chemie International Edition, 2565(2010).

[34] WHELAN C M, GHIJSEN J, PIREAUX J J et al. Cu adsorption on carboxylic acid-terminated self-assembled monolayers: a high- resolution X-ray photoelectron spectroscopy study[J]. Thin Solid Films, 388(2004).