ZhaoJXuYLiuS,et al.The effect of oxygen-containing species on corrosion behavior of ta (1 1 0) surface: a DFT study with an experimental verification. Appl Surf Sci2022; 586: 152810. Online.
3.
GuoYWangRYuS,et al.High-Capacitance thin film tantalum electrolytic capacitor fabricated from electrochemically etched tantalum foils. JIntegr Technol2021; 10: 35–46.
4.
ZhaoJXuYLiY, et al.A key factor in determining the effectiveness of etchants for electrochemical surface enlargement of ta foil for electrolytic capacitor. Appl Surf Sci2023; 610: 155366. Online.
5.
PinaudBAVailionisAJaramilloTF. Controlling the structural and optical properties of ta3 N5 films through nitridation temperature and the nature of the ta metal. Chem Mater2014; 26: 1576–1582.
6.
HajibabaeiHHamannTW. Selective electrodeposition of tantalum(V) oxide electrodes. Langmuir2017; 33: 10800–10806.
7.
PuJ, et al.Surface enlargement of tantalum capacitor foils by pulsed direct current etching and laser cladding. Surf Coat Technol2023; 467: 129693. Online.
8.
WangS, et al.Surface modification of tantalum foil for enhanced capacitance using flash-induced tantalum powder coating and electrochemical etching. Mater Today Commun2025; 47: 112980. Online.
9.
YangJ, et al.Additive manufacturing of trabecular tantalum scaffolds by laser powder bed fusion: mechanical property evaluation and porous structure characterization. Mater Charact2020; 170: 110694. Online.
10.
KylbergF. The use of tantalum clips in general surgery. Acta Chir Scand1975; 141: 242–244. Accessed: Jun. 19, 2025. [Online]. Available: https://pubmed.ncbi.nlm.nih.gov/1166749/
11.
StreckerE-PBoosISchmidG, et al.Flexible tantalum stents for the treatment of renovascular hypertension: a 10-year experience. Eur Radiol2000; 10: 1144–1151.
12.
SoltanalipourMKhalil-AllafiJ. Preparation of tantalum-containing coatings on NiTi shape memory alloys with enhanced in vitro cytocompatibility and antibacterial effectiveness. J Mater Res Technol2024; 30: 8419–8432.
13.
WangXNingBPeiX. Tantalum and its derivatives in orthopedic and dental implants: osteogenesis and antibacterial properties. Colloids Surf B Biointerfaces2021; 208: 112055. Online.
14.
GaoH, et al.Porous tantalum scaffolds: fabrication, structure, properties, and orthopedic applications. Mater Des2021; 210: 110095. Online.
15.
MaKMaZChengL,et al.Progress in the application of porous tantalum metal in hip joint surgery. Orthop Surg2024; 16: 2877–2886.
16.
LiH, et al.The progress on physicochemical properties and biocompatibility of tantalum-based metal bone implants. SN Appl Sci2020; 2: 71. Online.
17.
WangX, et al.Advances in surface modification of tantalum and porous tantalum for rapid osseointegration: A thematic review. Front Bioeng Biotechnol2022; 10. doi: 10.3389/fbioe.2022.983695. Online.
18.
DingDXieYLiK, et al.Micro/nano structural tantalum coating for enhanced osteogenic differentiation of human bone marrow stem cells. Materials (Basel)2018; 11: 46. Online.
19.
FialhoLAlvesCCarvalhoS. A decade of progress on MAO-treated tantalum surfaces: advances and contributions for biomedical applications. Nanomaterials2022; 12: 2319. Online.
20.
AnR, et al.Nanolamellar tantalum interfaces in the osteoblast adhesion. Langmuir2019; 35: 2480–2489.
21.
GarbuzDS, et al.Enhanced gap filling and osteoconduction associated with alendronate-calcium phosphate-coated porous tantalum. J Bone Joint Surg-Am Vol2008; 90: 1090–1100.
22.
ZhouR, et al.Amorphous calcium phosphate nanospheres/polylactide composite coated tantalum scaffold: facile preparation, fast biomineralization and subchondral bone defect repair application. Colloids Surf B Biointerfaces2014; 123: 236–245.
23.
XuJ, et al.Selective Laser melting of the porous ta scaffold with mg-doped calcium phosphate coating for orthopedic applications. ACS Biomater Sci Eng2024; 10: 1435–1447.
24.
BarrèreFvan der ValkCMMeijerG, et al.Osteointegration of biomimetic apatite coating applied onto dense and porous metal implants in femurs of goats. J Biomed Mater Res B Appl Biomater2003; 67B: 655–665.
25.
Mas-MorunoCGarridoBRodriguezD, et al.Biofunctionalization strategies on tantalum-based materials for osseointegrative applications. J Mater Sci Mater Med2015; 26: 09. Online.
26.
LiuT, et al.Biofunctionalization of 3D printed porous tantalum using a vancomycin–carboxymethyl chitosan composite coating to improve osteogenesis and antibiofilm properties. ACS Appl Mater Interfaces2022; 14: 41764–41778.
