MAX、MAB及其二維材料
付帥, 朱德貴, Salvatore Grasso, 等. 磁性MAX相陶瓷研究進(jìn)展. 現代技術(shù)陶瓷,2020, 41: 217-230.
Fu S, Zhu DG, Grasso S, et al. Research progress of magnetic MAX phases ceramics: a review. Advcanced Ceramics, 2020, 41: 217-230.
馮天昊, 侯成義, 王宏志, 等. 化學(xué)還原石墨烯/MXene泡沫膜的制備及其在壓力傳感器中的應用. 現代技術(shù)陶瓷,2020, 41: 113-120.
Feng TH, Hou CY, Wang HZ, et al. Reduced graphene oxide/MXene foams and
their application as pressure sensor. Advcanced Ceramics, 2020, 41: 113-120.
張輝, 王曉輝, 周延春. MAX相中的晶體結構缺陷:研究現狀與發(fā)展方向. 現代技術(shù)陶瓷,2019, 40: 150-173.
Zhang H, Wang XH, Zhou YC. Crystal defects in MAX phases: the current status and
future directions. Advcanced Ceramics, 2019, 40: 150-173.
范曉孟, 殷小瑋, 馬昱昭. 三維打印制備MAX基復相陶瓷研究進(jìn)展. 現代技術(shù)陶瓷,2017, 38: 278-285.
Fan XM, Yin XW, Ma YZ. Research progress on MAX-phase-based ceramics fabricated by three-dimensional printing. Advcanced Ceramics, 2017, 38: 278-285.
朱建平, 侯歡歡, 尹海濱, 等. MXene和納米SiO2對粉煤灰水泥水化性能的影響. 現代技術(shù)陶瓷,2017, 38: 79-84.
Zhu JP, Hou HH, Yin HB, et al. Influence of Mxene and nano-SiO2 on the hydration of fly ash cement. Advcanced Ceramics, 2017, 38: 79-84.
羅劍敏, 袁華棟, 金成濱, 等. SnS@Ti3C2復合材料的制備及其儲鋰性能研究. 現代技術(shù)陶瓷,2017, 38: 71-78.
Luo JM, Yuan HD, Jin CB, et al. Synthesis and lithium storage properties of two-dimensional SnS@Ti3C2 composites. Advcanced Ceramics, 2017, 38: 71-78.
王冰心, 劉凡凡, 胡前庫, 等. 二維碳化物 Ti2C在超級電容器中的電化學(xué)性能研究. 現代技術(shù)陶瓷,2017, 38: 64-70.
Wang BX, Liu FF, Hu QK, et al. Electrochemical performance of novel two-dimensional Ti2C in supercapacitor. Advcanced Ceramics, 2017, 38: 64-70.
陳進(jìn)峰, 胡前庫, 周愛(ài)國. 二維碳化物與石墨烯相互作用的第一性原理研究. 現代技術(shù)陶瓷,2017, 38: 57-63.
Chen JF, Hu QK, Zhou AG. First principles studies of interaction between graphene and 2D carbide. Advcanced Ceramics, 2017, 38: 57-63.
楊輝, 盧博, 楊賢金, 等. 電流輔助加熱條件下Ti3AlC2/Zr連接界面研究. 現代技術(shù)陶瓷,2017, 38: 48-56.
Yang H, Lu B, Yang XJ, et al. Interlayer-mediated interface bonding of Zr and Ti3AlC2 through electric-current-aided heating. Advcanced Ceramics, 2017, 38: 48-56.
黃振鶯, 王雅正, 郝素明, 等. Ti2SnC原位自生TiC0.5增強Cu基復合材料的制備及壓縮特性. 現代技術(shù)陶瓷,2017, 38: 40-47.
Huang ZY, Wang YZ, Hao SM, et al. Fabrication and compression properties of TiC0.5/Cu(Sn) composites in-situ synthesized from Cu and Ti2SnC powders. Advcanced Ceramics, 2017, 38: 40-47.
王鑫, 劉毅, 朱建鋒, 等. (Ti,V)3AlC2/Al2O3復合材料的制備及力學(xué)性能. 現代技術(shù)陶瓷,2017, 38: 34-39.
Wang X, Liu Y, Zhu JF, et al. Synthesis and mechanical properties of (Ti,V)3AlC2/Al2O3 composite. Advcanced Ceramics, 2017, 38: 34-39.
高譽(yù)鵬, 周愛(ài)國, 王李波, 等. Ti3SiC2耐氫氟酸腐蝕性研究. 現代技術(shù)陶瓷,2017, 38: 29-33.
Gao YP, Zhou AG, Wang LB, et al. Corrosion resistance of Ti3SiC2 in hydrofluoric acid. Advcanced Ceramics, 2017, 38: 29-33.
劉云龍, 朱德貴, 胡春峰. MAX相及噴涂法制備MAX相涂層. 現代技術(shù)陶瓷,2017, 38: 21-28.
Liu YL, Zhu DG, Hu CF. Review of MAX phases and its coating fabricated by spraying. Advcanced Ceramics, 2017, 38: 21-28.
李建華, 張超, 王曉輝. 三元層狀可加工導電MAX相陶瓷研究進(jìn)展. 現代技術(shù)陶瓷,2017, 38: 3-20.
Li JH, Zhang C, Wang XH. Progress in machinable and electrically conductive laminated ternary ceramics (MAX phases). Advcanced Ceramics, 2017, 38: 3-20.
馮世豪, 賈進(jìn), 劉 江, 等. 氯化Ti3AlC2陶瓷制備碳化物衍生碳的結構表征. 現代技術(shù)陶瓷,2016, 37: 34-40.
Feng SH, Jia J, Liu J, et al. Analysis and Characterization of Carbide-Derived Carbon from Ti3AlC2. Advcanced Ceramics, 2016, 37: 34-40.
