[1] LIU R Q. The human heritage of the national treasure Xuan paper[D]. Encyclopedic Knowledge, 2, 24-27(2010).

[2] HU W J, ZHAO D S. Analysis of the life characteristics of Xuan paper[D]. China Pulp & Paper Industry, 34, 74-76(2013).

[3] ZYSKA B. Fungi isolated from library materials: a review of the literature[D]. International Biodeterioration & Biodegradation, 40, 43-51(1997).

[4] HUI J F, Wang X. Hydroxyapatite nanocrystals: colloidal chemistry, assembly and their biological applications[D]. Inorganic Chemistry Frontiers, 1, 215-225(2014).

[5] ŠUPOVÁ M. Substituted hydroxyapatites for biomedical applications: a review[D]. Ceramics International, 41, 9203-9231(2015).

[6] HAIDER A, HAIDER S, HAN S S et al. Recent advances in the synthesis, functionalization and biomedical applications of hydroxyapatite: a review[D]. RSC Advances, 7, 7442-7458(2017).

[7] CHEN F, ZHU Y J. Multifunctional calcium phosphate nanostructured materials and biomedical applications[D]. Current Nanoscience, 10, 465-485(2014).

[8] ZHANG Y G, ZHU Y J, CHEN F et al. A novel composite scaffold comprising ultralong hydroxyapatite microtubes and chitosan: preparation and application in drug delivery[D]. Journal of Materials Chemistry B, 5, 3898-3906(2017).

[9] CHEN F, ZHU Y J. Microwave-assisted synthesis of calcium phosphate nanostructured materials in liquid phase[D]. Progress in Chemistry, 27, 459-471(2015).

[10] YU Y D, ZHU Y J, QI C et al. Hydroxyapatite nanorod-assembled hierarchical microflowers: rapid synthesis. via microwave hydrothermal transformation of CaHPO₄ and their application in protein/ drug delivery[D]. Ceramics International, 43, 6511-6518(2017).

[11] SUN T W, YU W L, ZHU Y J et al. Porous nanocomposite comprising ultralong hydroxyapatite nanowires decorated with zinc- containing nanoparticles and chitosan: synthesis and application in bone defect repair[D]. Chemistry - A European Journal, 24, 8809-8821(2018).

[12] LU B Q, ZHU Y J, CHEN F. Highly flexible and nonflammable inorganic hydroxyapatite paper[D]. Chemistry - A European Journal, 20, 1242-1246(2014).

[13] ZHANG Y G, ZHU Y J, CHEN F et al. Ultralong hydroxyapatite nanowires synthesized by solvothermal treatment using a series of phosphate sodium salts[D]. Materials Letters, 144, 135-137(2015).

[14] JIANG Y Y, ZHU Y J, CHEN F et al. Solvothermal synthesis of submillimeter ultralong hydroxyapatite nanowires using calcium oleate precursor in a series of monohydroxy alcohols[D]. Ceramics International, 41, 6098-6102(2015).

[15] LI H, ZHU Y J, JIANG Y Y et al. Hierarchical assembly of monodisperse hydroxyapatite nanowires and construction of high- strength fire-resistant inorganic paper with high-temperature flexibility[D]. ChemNanoMat, 3, 259-268(2017).

[16] DONG L Y, ZHU Y J. Fire-resistant inorganic analogous Xuan paper with thousands of years' super-durability[D]. ACS Sustainable Chemistry Engineering, 6, 17239-17251(2018).

[17] DONG L Y, ZHU Y J. A new kind of fireproof, flexible, inorganic, nanocomposite paper and its application to the protection layer in flame-retardant fiber-optic cables[D]. Chemistry - A European Journal, 23, 4597-4604(2017).

[18] LI H, WU D B, WU J et al. Flexible, high-wettability and fire- resistant separators based on hydroxyapatite nanowires for advanced lithium-ion batteries[D]. Advanced Materials, 29, 1703548(2017).

[19] CHEN F F, ZHU Y J, CHEN F et al. Fire alarm wallpaper based on fire-resistant hydroxyapatite nanowire inorganic paper and graphene oxide thermosensitive sensor[D]. ACS Nano, 12, 3159-3171(2018).

[20] SHAO Y T, ZHU Y J, DONG L Y et al. A new kind of nanocomposite “Xuan paper” comprising ultralong hydroxyapatite nanowires and cellulose fibers with unique ink wetting performance[D]. RSC Advances, 9, 40750-40757(2019).

[21] CHEN F, ZHU Y J, WANG K W et al. Surfactant-free solvothermal synthesis of hydroxyapatite nanowire/nanotube ordered arrays with biomimetic structures[D]. CrystEngComm, 13, 1858-1863(2011).

[22] ZHAO X Y, ZHU Y J, CHEN F et al. Hydrothermal synthesis of hydroxyapatite nanorods and nanowires using riboflavin-5’-phosphate monosodium salt as a new phosphorus source and their application in protein adsorption[D]. CrystEngComm, 15, 7926-7935(2013).

[23] BRAMHE S, KIM T N, BALAKRISHNAN A et al. Conversion from biowaste venerupis clam shells to hydroxyapatite nanowires[D]. Materials Letters, 135, 195-198(2014).

[24] AI M, DU Z Y, ZHU S Q et al. Composite resin reinforced with silver nanoparticles-laden hydroxyapatite nanowires for dental application[D]. Dental Materials, 33, 12-22(2017).

[25] HE J Y, ZHANG K S, WU S B et al. Performance of novel hydroxyapatite nanowires in treatment of fluoride contaminated water[D]. Journal of Hazardous Materials, 303, 119-130(2016).

[26] QI C, TANG Q L, ZHU Y J et al. Microwave-assisted hydrothermal rapid synthesis of hydroxyapatite nanowires using adenosine 5'-triphosphate disodium salt as phosphorus source[D]. Materials Letters, 85, 71-73(2012).

[27] LIN K L, LIU X G, CHANG J et al. Facile synthesis of hydroxyapatite nanoparticles, nanowires and hollow nano-structured microspheres using similar structured hard-precursors[D]. Nanoscale, 3, 3052-3055(2011).

[28] YANG Z, HUANG Y, CHEN S T et al. Template synthesis of highly ordered hydroxyapatite nanowire arrays[D]. Journal of Materials Science, 40, 1121-1125(2005).

[29] COSTA D O, DIXON S J, RIZKALLA A S. One- and three-dimensional growth of hydroxyapatite nanowires during Sol-Gel-hydrothermal synthesis[D]. ACS Applied Materials & Interfaces, 4, 1490-1499(2012).

[30] CAO M H, WANG Y H, GUO C X et al. Preparation of ultrahigh- aspect-ratio hydroxyapatite nanofibers in reverse micelles under hydrothermal conditions[D]. Langmuir, 20, 4784-4786(2004).

[31] GANDHI M R, KOUSALYA G N, MEENAKSHI S. Removal of copper (II) using chitin/chitosan nano-hydroxyapatite composite[D]. International Journal of Biological Macromolecules, 48, 119-124(2011).

[32] MA M G, ZHU J F. Solvothermal synthesis and characterization of hierarchically nanostructured hydroxyapatite hollow spheres[D]. European Journal of Inorganic Chemistry, 2009, 5522-5526(2009).

[33] ZHANG Q Q, ZHU Y J, WU J et al. Ultralong hydroxyapatite nanowire-based filter paper for high-performance water purification[D]. ACS Applied Materials & Interfaces, 11, 4288-4301(2019).

[34] REHMAN I, BONFIELD W. Characterization of hydroxyapatite and carbonated apatite by photo acoustic FT-IR spectroscopy[D]. Journal of Materials Science: Materials in Medicine, 8, 1-4(1997).

[35] DEROCHE I, DAOU T J, PICARD C et al. Reminiscent capillarity in subnanopores[D]. Nature Communications, 10, 4642(2019).