Comparative Study of Diamond- like Carbon Films Deposited from Different Hydrocarbon Sources Se Jun Park, Kwang-Ryeol Lee Future Technology Research Division.

Slides:

Advertisements

Similar presentations

Experiments about carbon removal and codeposit inhibition J.A. Ferreira, F.L. Tabarés, W. Bohmeyer and A. Markin, I. Tanarro, V. Herrero.

Advertisements

Residual Stress Behavior of DLC Film in Humid Environment Young-Jin Lee a),b), Tae-Young Kim a), Kwang-Ryeol Lee a), In-Sang Yang b) a)Future Technology.

DLC DLC Se Jun Park, Kwang-Ryeol Lee, Seung-Cheol Lee, Future Technology Research Division, Korea Institute of Science and Technology.

Humidity Dependence of Tribological Behavior of DLC Film Se Jun Park *#, Kwang-Ryeol Lee *, Seung-Cheol Lee * and Dae-Hong Ko # * Korea Institute Science.

Environmental Dependence on Tribological Behavior of Diamond-like Carbon Films with Nano-undulated Surface Jin Woo Yi a,b, Se Jun Park a, Kwang-Ryeol Lee.

1 Solid oxide membranes for hydrogen separation and isolation Aurelija Martišiūtė.

Comparative Study of Diamond- like Carbon Films Deposited from Different Hydrocarbon Sources Se Jun Park, Kwang-Ryeol Lee Future Technology Research Division.

Diamond like carbon Muresan Mihai. Carbon Carbon is the fourth most abundant chemical element in the universe by mass The structures of eight allotropes.

Hemocompatibility of Plasma Treated Si Incorporated Diamond-like Carbon Films R. K. Roy, M.-W. Moon, K.-R. Lee Future Convergence Research Laboratories,

Boiling points of the alkanes x x x x x x x x x x Temp 0 C This axis shows the number of carbons in the.

Kwang Yong Eun, Ki Hyun Yoon b)

Effect of Environmental Gas on the Growth of CNT in Catalystically Pyrolyzing C 2 H 2 Minjae Jung*, Kwang Yong Eun, Y.-J. Baik, K.-R. Lee, J-K. Shin* and.

of Diamond-like Carbon Thin Film

Effect of working pressure and gas flow rate on RF discharge Discharge gas: Argon; Forwarded RF power: 750 W; Substrate biased voltage: -200 V.

S. J. Parka),b) K.-R. Leea), D.-H. Kob), J. H. Hanc), K. Y. Eun a)

Comparison of Field Emission Behaviors of Graphite, Vitreous Carbon and Diamond Powders S. H. Lee, K. R. Lee, K. Y. Eun Thin Film Technology Research Center,

Salamanca.ppt, © Thomas Schwarz-Selinger, 03. Juni 2008 G. S. Oehrlein*, T. Schwarz-Selinger, K. Schmid, M. Schlüter and W. Jacob Interaction of Deuterium.

For example, adhesive wear occurs frequently during tribo-test under aqueous condition. Residual Stress of a-C:H Film in Humid Environment Young-Jin Lee.

1 of xx Diamond-like Carbon Thin Film with Controlled Zeta Potential for Medical Application [Nitta et. al., Diamond & Related Materials 17 (2008) ]

Comparison of Elastic Modulus of Very Thin DLC Films Deposited by r. f

R. K. Roy, S.-J. Park, H.-W. Choi, K.-R. Lee

Investigation of Deposits in a Carbon Monoxide DBD Robert Geiger Advisor: Dr. David Staack Texas A&M Mechanical Engineering Plasma Engineering & Diagnostics.

KVS 2002 Activated Nitrogen Effect in Vertically Aligned CNT Tae-Young Kim, Kwang-Ryeol Lee, Kwang-Yong Eun * Future Technology Research Division, Korea.

Hemocompatibility of Surface Modified Si Incorporated Diamond-like Carbon Films R. K. Roy, S.-J. Park, H.-W. Choi, K.-R. Lee Future Technology Research.

Effect of hemocompatibility on the surface properties of Si incorporated diamond like carbon films. R. K. Roy*, S. J. Park*, K.-R. Lee*, D. K. Han**, J.-H.

VDU/LEI project in FUSION: background, goals, methods and expected results (PhD student Birutė Bobrovaitė, D r. Liudas Pranevičius)

Stability of Diamond-like Carbon Films in Aqueous Environment Kwang-Ryeol Lee, Se Jun Park and Young Jin Lee Korea Institute of Science and Technology,

Residual Compressive Stress of Diamond-like Carbon Films : Control and Usage 이 광 렬 한국과학기술연구원 미래융합기술연구소 제이엔엘테크 세미나, 2007.

Environmental Dependence of Tribological Behavior of DLC Films Se-Jun Park and Kwang-Ryeol Lee Future Technology Research Division Korea Institute of Science.

Synthesis of diamond-like carbon films with super-low friction and wear properties A. Erdemir, O.L. Eryilmaz, and G. Fenske J. Vac. Sci. Technol. A 18(4),

Ш.Results and discussion Ш. Results and discussion a) W Composition b) Stress and Mechanical Properties c) TEM-microstructures ШІІІ C Si substrate Ar W.

Meta-stable Sites in Amorphous Carbon Generated by Rapid Quenching of Liquid Diamond Seung-Hyeob Lee, Seung-Cheol Lee, Kwang-Ryeol Lee, Kyu-Hwan Lee, and.

Friction Behavior of DLC film with Environmental Changes Copyright, 1997 © Dale Carnegie & Associates, Inc. S. J. Park*, K.-R. Lee*, D.-H. Ko +, K. Y.

Characterization of Mechanical Properties of Thin Film Using Residual Compressive Stress Sung-Jin Cho, Jin-Won Chung, Myoung-Woon Moon and.

Topic: Investigation of nanocrystalline diamond films for artificial photosynthesis Patras, Greece Violeta Popova, Christo Petkov 1.

Molecular Dynamics Study of Ballistic Rearrangement of Surface Atoms During Ion Bombardment on Pd(001) Surface Sang-Pil Kim and Kwang-Ryeol Lee Computational.

Passivation of HPGe Detectors at LNL-INFN Speaker: Gianluigi Maggioni Materials & Detectors Laboratory (LNL-INFN) Scientific Manager: Prof. Gianantonio.

Ho-Gun Kim, Seung-Ho Ahn, Jung-Gu Kim, *Se-Jun Park, *Kwang-Ryol Lee, **Rizhi Wang SungKyunKwan University, Korea *Korea Institute of Science and Technology,

Organic Chemistry. What is it?  Most things are made of Carbon  Usually they also contain the atoms H, O, N, Cl and many others  Millions are know.

1 Friction behaviour of diamond-like carbon films with varying mechanical properties The International Conference on Metallurgical Coatings and Thin Films.

Carbon Nanotube Growth Enhanced by Nitrogen Incorporation Tae-Young Kim a), Kwang-Ryeol Lee, Kwang Yong Eun and Kyu-Hwan Oh a) Future Technology Research.

1 ADC 2003 Nano Ni dot Effect on the structure of tetrahedral amorphous carbon films Churl Seung Lee, Tae Young Kim, Kwang-Ryeol Lee, Ki Hyun Yoon* Future.

IV. Results and Discussion Effect of Substrate Bias on Structure and Properties of W Incorporated Diamond-like Carbon Films Ai-Ying Wang 1, Kwang-Ryeol.

Korea Institute of Science and Technology Seung-Hyeob Lee, Churl-Seung Lee, Seung-Cheol Lee, Kyu-Hwan Lee, and Kwang-Ryeol Lee Future Technology Research.

The International Conference of Metallurgical Coating and Thin Films ICMCTF 2003 Tae-Young Kim a)b), Kwang-Ryeol Lee a), Seung-Cheol Lee a), Kwang Yong.

Jin-Won Chung *+, Kwang-Ryeol Lee *, Dae-Hong Ko +, Kwang Yong Eun * * Thin Film Technology Research Center, Korea Institute of Science and Technology.

Curious stress reduction with W incorporation of WC-C nanocomposite films by hybrid ion beam deposition A. Y. Wang a), H. S. Ahn a), K. R. Lee a), J. P.

ORGANIC CHEMISTRY Hydrocarbons. What are Hydrocarbons? A hydrocarbon is a molecule which contains only the elements Carbon and Hydrogen. Hydrocarbons.

Thermal annealing effect of tetrahedral amorphous carbon films deposited by filtered vacuum arc Youngkwang Lee *†,Tae-Young Kim*†, Kyu Hwan Oh†, Kwang-Ryeol.

Tribological Behavior of DLC Film in Aqueous Environment Se-Jun Park, Kwang-Ryeol Lee, and Dae-Hong Ko Korea Institute of Science and Technology, P.O.Box.

Many mass spectra are observed in addition to those of nitrogen (28amu) and benzene (78amu) molecules between 1 and 80amu, when the discharge is not generated.

ALD coating of porous materials and powders

R. K. Roy, S.-J. Park, H.-W. Choi, K.-R. Lee

A Study on Aluminum Oxide (Al2O3) Insulator Deposited by Mist-Chemical Vapor Deposition based on atmospheric pressure Dong-Hyun Kim1,Hyun-Jun Jung1 and.

Enhanced Growth and Field Emission of Carbon Nanotube by Nitrogen Incorporation: The First Principle Study Hyo-Shin Ahn*, Seungwu Han†, Do Yeon Kim§, Kwang-Ryeol.

Atomic Structure Analysis of Diamond-like Carbon Films

Residual Stress of a-C:H Film in Humid Environment

Jung-Hae Choi, Hyo-Shin Ahn, Seung-Cheol Lee & Kwang-Ryeol Lee

Stability of DLC film on stainless steel investigated by tensile-test

Ai-Ying Wang, Hyo-Shin Ahn, Kwang-Ryeol Lee*

Characterization of Mechanical Properties of Diamond-like Carbon Films by Using Residual Compressive Stress Sung-Jin Cho, Jin-Won Chung, Myoung-Woon.

Hydrocarbons Part 1 Nat

Tae-Young Kim*, Seung-Hyup Lee, Churl Seung Lee,

분자동역학 모사를 통한 비정질 탄소 필름의 원자구조 해석 : RDF를 중심으로

S15-O-13 10~14, Sep., 2006 Jeju, Korea IUMRS-ICA-2006

The Thermal Annealing Effect on The Residual Stress and Mechanical Property in The Compressive stressed DLC Film H. W. Choi, M. -W. Moon, T. -Y. Kim2,

Notes #2: Hydrocarbons WCHS Chemistry.

Structure of aliphatic hydrocarbons

PROPERTIES OF THIN FILMS

Presentation transcript:

Comparative Study of Diamond- like Carbon Films Deposited from Different Hydrocarbon Sources Se Jun Park, Kwang-Ryeol Lee Future Technology Research Division Korea Institute of Science and Technology 2006 춘계 학술대회

Various Applications of DLC Film

Hydrocarbon Source for DLC Film CH 4 (Alkane) C 6 H 6 (Arene) C 6 H 14 (Alkane) C 2 H 2 (Alkyne)

Previous Works A. Grill et al. DRM (1993) High mean ion energy High free H to C ratio High Stress acetylene methane cyclohexane acetylene

Impact Energy (eV) Hydrocarbon Source Dense Hydro- Carbon Polymer Like Carbon Plasma Polymers Energy Ion Source Cold Substrate Dependence of DLC Film on Ion Energy

Previous Works A. Grill et al. DRM (1993) High mean ion energy High free H to C ratio High Stress acetylene methane cyclohexane acetylene

Previous Works K.-R. Lee et al. Diamon.Rel.Mater. 1994(3) 1230 Methane (CH 4 ) Benzene (C 6 H 6 ) CH 4 : CH 5 + or C 2 H 5 + C 6 H 6 : C 6 H 6 + Difference of ion energy / C atom

Hydrocarbon Source for DLC Film CH 4 (Alkane) C 6 H 6 (Arene) C 6 H 14 (Alkane) C 2 H 2 (Alkyne)

Purposes of Present Work Characterization of DLC films from the hydrocarbon source of the different structure Hexane (C 6 H 14 ) : Alkane structure Benzene (C 6 H 6 ) : Arene structure To find the relationship between the properties of DLC films and the structure of hydrocarbon source

Deposition Condition RF PACVD(13.56 MHz) Precursor Gas : C 6 H 6, C 6 H 14 Deposition Pressure : 1.33 Pa Bias Voltage : V b Substrate : P-type (100) Si-wafer Film Thickness : 500 nm

Growth Rate of DLC Films

Mechanical Properties of DLC Films from Hexane and Benzene Residual Stress Hardness

G-Peak Position of DLC Films

FT-IR Spectra of DLC Films Benzene Hexane sp 1 C-H sp 2 C-H sp 3 C-H sp 1 C-H sp 3 C-H sp 2 C=C

Binding Energy of Alkanes C 6 H KJ/mole 420 KJ/mole

Binding Energy of Benzene 464 KJ/mole

Mass Spectra of Positive Ions in a rf Discharge Ch. Wild et al. JVST A. 5 (1987) 2227

Dependence of properties of DLC film on precursor gases Methane (CH 4 ) Hexane (C 6 H 14 ),Benzene (C 6 H 6 ) K.-R. Lee et al. Diamon.Rel.Mater. 1994(3) 1230

Conclusions  The structure and properties of DLC films were strongly dependent on the precursor gases. Energy per mass of ion was the main factor to determine the properties and structure of DLC films As mean ion energy increased, properties of DLC film deposited from the hydrocarbon sources in same functional group showed similar tendency.

Thank you for your attention!