• Proceedings of the Korean Vacuum Society Conference
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• 2014.02a
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• pp.386.1-386.1
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• 2014

The ionic polymer-metal composite (IPMC), a type of electro-active polymer material, has received enormous interest in various fields such as robotics, medical sensors, artificial muscles because it has many advantages of flexibility, light weight, high displacement, and low voltage activation, compare to traditional mechanical actuators. Mostly noble metal materials such as gold or platinum were used to form the electrode of an IPMC by using electroless plating process. Furthermore, carbon-based materials, which are carbon nanotube (CNT) and reduced graphene-CNT composite, were used to alter the electrode of IPMC. To form the electrode of IPMC, we employ the synthesized graphene on copper foil by chemical vapor deposition method and use the transfer process by using a support of PET/silicone film. The properties of graphene were evaluated by Raman spectroscopy, UV/Vis spectroscopy, and 4-point probe. The structure and surface of IPMC were analyzed via field emission scanning electron microscope. The fabricated IPMC performance such as displacement and operating frequency was measured in underwater.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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• 2007.11a
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• pp.151-152
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• 2007

탄소나노튜브(CNTs)는 우수한 물리적, 화학적, 기계적 특성으로 다양한 분야에서 연구가 진행 되고있다. 특히, field emission displays (FEDs)로의 응용을 위해서는 기본적으로 sodalime glass 위에 직접 CNTs를 성장시켜야 하며, 소자 응용을 위해 기판인 sodalime glass를 왜곡시키는 온도보다 낮은 온도에서 CNT의 수직 성장이 이루어져야 한다. 본 연구에서는 Hot-filament plasma enhanced chemical vapor deposition (HF-PECVD)를 이용하여 합성온도를 400, 450, 500, $550^{\circ}C$로 변화시켰으며 촉매 층인 Ni의 두께를 5~40 nm까지 조절하여 탄소나노튜브를 합성하였다. 저온에서 합성된 탄소나노튜브는 FE-SEM을 이용하여 성장 형태 및 표면 특성을 확인하였으며, 미세구조는 HR-TEM을 이용하여 확인하였다.

• Steel and Composite Structures
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• v.25 no.6
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• pp.649-661
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• 2017

This paper is motivated by the lack of studies in the technical literature concerning to the influence of carbon nanotubes (CNTs) waviness and aspect ratio on the vibrational behavior of functionally graded nanocomposite annular sector plates resting on two-parameter elastic foundations. The carbon nanotube-reinforced (CNTR) plate has smooth variation of CNT fraction based on the power-law distribution in the thickness direction, and the material properties are also estimated by the extended rule of mixture. In this study, the classical theory concerning the mechanical efficiency of a matrix embedding finite length fibers has been modified by introducing the tube-to-tube random contact, which explicitly accounts for the progressive reduction of the tubes' effective aspect ratio as the filler content increases. Parametric studies are carried out to highlight the influence of CNTs volume fraction, waviness and aspect ratio, boundary conditions and elastic foundation on vibrational behavior of FG-CNT thick sectorial plates. The study is carried out based on three-dimensional theory of elasticity and in contrary to two-dimensional theories, such as classical, the first- and the higher-order shear deformation plate theories, this approach does not neglect transverse normal deformations. The annular sector plate is assumed to be simply supported in the radial edges while any arbitrary boundary conditions are applied to the other two circular edges including simply supported, clamped and free. For an overall comprehension on 3-D vibration of annular sector plates, some mode shape contour plots are reported in this research work.

• Advances in nano research
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• v.8 no.1
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• pp.25-36
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• 2020

Rotating systems concern with torsional vibration, and it should be considered in vibration analysis. To do this, the time-dependent torsional vibrations in a single-walled carbon nanotube (SWCNT) under the linear and harmonic external torque, are investigated in this paper. Eringen's nonlocal elasticity theory is considered to demonstrate the nonlocality and constitutive relations. Hamilton's principle is established to derive the governing equation of motion and consequently related boundary conditions. An analytical method, called the Galerkin method, is utilized to discretize the driven differential equations. Linear and harmonic torsional loads, along with determined amplitude, are applied to the SWCNT as the external torques. SWCNT is considered under the clamped-clamped end supports. In free vibration, analysis of small scale effect reveals the capability of natural frequencies in different modes, and this results desirably are in coincidence with another study. The forced torsional vibration in the time domain, especially for carbon nanotubes, has not been done before in the previous works. The previous forced studies were devoted to the transverse vibrations. It should be emphasized that the dynamical analysis of torsion is novel, workable, and at the beginning of the path. The variations of nonlocal parameter, CNT's thickness, and the influence of excitation frequency on time-dependent angular displacement and nondimensional angular displacement are investigated in the context.

• 한국정보디스플레이학회:학술대회논문집
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• 2006.08a
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• pp.1225-1228
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• 2006

In the CNT paste for field emission, PbO frit had a fatal influence on CNTs by accelerating a decomposition of CNTs during firing. In the thermogravimetric analysis on the mixtures of CNTs and other ingredients, it was evident that CNTs began to burn out at ${\sim}350^{\circ}C$ by reacting with PbO. This problem was overcome by replacing the PbO frit by the Pb-free frit such that most of CNTs could survive during firing. Consequently, the emission current of the CNT paste prepared using the lead-free frit was improved as much as 250 %, compared to the PbO-containing one. The CNT paste was further optimized by adding a dispersant, whose dispersibility was assessed by measuring the resistance of the paste. With 10% dispersant added, the emission properties of the paste was greatly enhanced as 50 times higher as those of the paste without a dispersant.

• 한국정보디스플레이학회:학술대회논문집
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• 2003.07a
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• pp.870-873
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• 2003

We have fabricated a carbon nanotube field emission display(CNT FED) panel with a 2 inch diagonal size by using screen printing method and vacuum in-line sealing technology. The sealing temperature of the panel was around 390 $^{\circ}C$ and the leak test was carried out for 72 hrs after sealing process. When field emission properties of fabricated and sealed CNT FED panel were characterized and compared with those of unsealed panel which was located in vacuum chamber of vacuum level similar with the sealed panel, the sealed panel showed more improved field emission properties.

• Composites Research
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• v.30 no.3
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• pp.193-201
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• 2017

Molecular dynamics simulation and the Mori-Tanaka micromechanics study are performed to investigate the effect of the covalent grafting between CNT and polyester on the mechanical behavior and load transfer of nanocomposites. The transversely isotropic stress-strain curves are determined through the tension and shear simulations according to the covalent grafting. Also, isotropic properties of randomly dispersed nanocomposites are obtained by orientation averaging the transversely isotropic stiffness matrix. By addressing the grafting, the transverse Young's modulus and shear moduli of the nanocomposites are improved, while the longitudinal Young's modulus decreases due to the degradation of the grafted CNT.

• Structural Engineering and Mechanics
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• v.63 no.2
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• pp.171-180
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• 2017

Static and dynamic instability of a viscoelastic carbon nanotube (CNT) embedded on a thermo-elastic foundation are investigated, in this research. The CNT is modeled based on Euler-Bernoulli beam (EBB) and nonlocal small scale elasticity theory is utilized to analyze the structure. Governing equations of the system are derived using Hamilton's principle and differential quadrature (DQ) method is applied to solve the partial differential equations. The effects of variable axial load and diverse boundary conditions on static/vibration instability are studied. To verify the result of the DQ method, the Galerkin weighted residual approach is used for the instability analysis. It is observed appropriate agreement for results of two different solution methods and satisfactory accuracy with those obtained in prior studies. The results of this work could be useful for engineers and designers in order to produce and design nano/micro structures in thermo-elastic medium.

• Applied Chemistry for Engineering
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• v.21 no.5
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• pp.500-504
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• 2010

The PU-g-MWNTs/PU film was synthesized by simple blending method to fabricate composites which have excellent mechanical and electrical properties. PU-g-MWNTs based composite revealed much enhanced dispersity than pristine MWNTs composite because of interfacial interaction related with interfacial compatibility between polymer matrix and PU on the MWNTs surface. The electro-conductivity of composite was measured as a function of PU-g-MWNTs concentration. The results were correlated with percolation threshold theory. As a result, the critical concentration and exponent of electro-conductivity behavior was equal to 0.78 wt% and 0.945.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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• 2002.11a
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• pp.538-541
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• 2002

탄소나노튜브 (CNT)가 도포된 평면형 에미터와 원형 개구의 게이트 전극을 가지는 삼전극 전계방출 소자의 전계방출 특성을 시뮬레이션하였다. 체계적인 시뮬레이션을 위해 소자 내 전위의 공간적 분포 특정을 결정하는 전계형상인자 $\gamma$를 정의하고 이 값에 따른 전위분포의 특성과 방출 전자의 궤적을 계산하였다. 계산 결과$\gamma$ > 1 인 전압조건에서는 에미터의 가운데를 중심으로 강한 전자방출이 발생하고 전자빔이 구조의 축 방향으로 자체 집속됨을 알 수 있었다. 이렇게 되면 에미터와 게이트의 정렬이 전혀 필요하지 않게 되며 또한 별도의 전자집속회로 없이도 에미터와 양극에 있는 형광체가 1:1 로 대응하는 획기적인 디스플레이 구조를 가능하게 해 준다 적정 전압조건에서 CNT의 전계강화인자 $\beta$의 변화에 따른 총 전류를 계산한 결과，$\beta$ >3000인 CNT를 사용할 경우 실제 소자로서 구현이 가능함을 확인하였다.