화학공학소재연구정보센터
검색결과 : 24건
No. Article
1 Role of microstructure and structural disorder on tribological properties of polycrystalline diamond films
Ajikumar PK, Ganesan K, Kumar N, Ravindran TR, Kalavathi S, Kamruddin M
Applied Surface Science, 469, 10, 2019
2 Submicron-scale diamond selective-area growth by hot-filament chemical vapor deposition
Ohmagari S, Matsumoto T, Umezawa H, Mokuno Y
Thin Solid Films, 615, 239, 2016
3 Preparation of TiO2/boron-doped diamond/Ta multilayer films and use as electrode materials for supercapacitors
Shi C, Li HJ, Li CP, Li MJ, Qu CQ, Yang BH
Applied Surface Science, 357, 1380, 2015
4 The deposition parameters in the synthesis of CVD microcrystalline diamond powders optimized by the orthogonal experiment
Zhang T, Liu X, Sun FH, Zhang ZM
Journal of Crystal Growth, 426, 15, 2015
5 Undoped CVD diamond films for electrochemical applications
Mosinska L, Fabisiak K, Paprocki K, Kowalska M, Popielarski P, Szybowicz M
Electrochimica Acta, 104, 481, 2013
6 The effect of deposition parameters on the morphology of micron diamond powders synthesized by HFCVD method
Zhang T, Wang XC, Shen B, Sun FH, Zhang ZM
Journal of Crystal Growth, 372, 49, 2013
7 A comparative study on wear behavior of TiN and diamond coated WC-Co substrates against hypereutectic Al-Si alloys
Chakravarthy GV, Chandran M, Bhattacharya SS, Rao MSR, Kamaraj M
Applied Surface Science, 261, 520, 2012
8 Boron doping: B/H/C/O gas-phase chemistry; H atom density dependences on pressure and wire temperature; puzzles regarding the gas-surface mechanism
Mankelevich YA, Ashfold MNR, Comerford DW, Ma J, Richley JC
Thin Solid Films, 519(14), 4421, 2011
9 Quantitative elucidation of the rapid growth and growth saturation of millimeter-scale vertically aligned carbon nanotubes by hot-filament chemical vapor deposition
Hong NT, Kim SY, Koh KH, Lee S
Thin Solid Films, 519(14), 4432, 2011
10 High-quality single-walled carbon nanotubes synthesis by hot filament CVD on Ru nanoparticle catalyst
Bouanis FZ, Baraton L, Huc V, Pribat D, Cojocaru CS
Thin Solid Films, 519(14), 4594, 2011