) characterization of boron-doped diamond-like carbon prepared by R.F. sputtering and (5) the -like carbon (DLC) is deposited commercially by many physical vapor deposition (PVD
electro-oxidation (EO) oforganics. Diamond-like carbon (DLC) also have superior characteristic LSV of boron doped diamond like carbon electrode response for thesimultaneous measurement
demonstrated that UNCD-based films are better than diamond-like carbon (DLC)-based films and Si TEM image of the diamond film grown by the microwave Ar-1%CH4-10%H2 plasma jet at (a) 100
study of aqueous ozone-generation device that combining a nitrogen-doped diamond-like carbon- oxidation. Key Words: Nanoparticles, Gold, Photothermal Therapy, Diamond, Diamond Like Carbon
materials of HTL, including PEDOT:PSS, V2O5, and V2O5/PEDOT:PSS, were coated or deposited by thermally deposited on top of the active layer in a deposition chamber in the glove box under a
在本實驗中,我們是以CF4作為前驅物,以固態石墨靶﹙碳純度達99.99%﹚作為陰極材料,並使用本實驗室之過濾式陰極電弧電漿沈積系統合成非晶質類鑽碳膜。其中我們藉由改變製程中的負偏壓以及CF4氣體流量來觀察非晶質碳氟薄膜﹙a-C:F films﹚性質上所發生的變化,以分辨出在何種條件之下薄膜擁有最適合應用在所需目的上的特質。本實驗裡利用X光電子能譜﹙XPS﹚來觀察此非晶質碳膜的化學鍵結行為,發現隨著負偏壓的上升,皆會導致薄膜鍵結往低能遷移的特性。另外,還利用拉曼光譜來鑑定薄膜石墨化的程度;利用低掠角的X光繞射得到薄膜的晶體結構;利用掃瞄式電子顯微鏡得到膜厚和薄膜的表面形貌,觀察到當氣體流量30 sccm和負偏壓675 V左右時,薄膜的表面形貌將從純粹的薄膜結構轉變成直徑約為10–20 nm的均勻奈米顆粒,並同時利用原子力顯微鏡﹙AFM﹚來判定薄膜的表面粗糙度變化和進一步的表面形貌,發現隨著通入氣體流量和負偏壓的上升皆會造成薄膜表面粗糙度的提升﹔利用液滴法測量接觸角,觀察在薄膜上的表面自由能變化﹔最後利用奈米檢測系統探討薄膜的機械性質。
biocompatibility properties. Diamond-like carbon (DLC) has been proposed for use in blood-contacting )……..………158 Fig. 4.3.2 TEM top view image of the a-C:H/Cu film…………………………..……159 Fig. 4.3.3 TEM
Results of silicon dioxide deposition on wafer by PECVD ……...……….85 Figure 3-47 Results of characteristic of silicon tip array ………………………………………..128 4.6 I-V characteristics of gated FEA using
Cyclic voltammogram of electro deposition of DyHCF film on glassy carbon electrode surface ------------------------------------------------------------ Chapter 4 Cyclic voltammogram of electro deposition of PrHCF film on glassy carbon
followed by the NiO deposition via a DC sputtering system.Moreover, the thickness effect of NiO nanoheterojunction (NHJ) structure was proposed by means of a low-temperaturehydrothermally-grown ZnO NWs
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