• Advanced Composite Materials
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• 제18권3호
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• pp.221-232
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• 2009

The allylamine plasma treatment is used to modify the surface properties of vapor grown carbon fibers (VGCF). It is to improve the interfacial bonding between the VGCF and epoxy matrix. The allylamine plasma process was performed by batch process in a vacuum chamber, using gas injection followed by plasma discharge for the durations of 20, 40 and 60 min. The interdependence of mechanical properties on the VGCF contents, treatment time and interfacial bonding between VGCF/ep was investigated. The interfacial bonding between VGCF and epoxy matrix was observed by scanning electron microscopy (SEM) micrographs of nanocomposites fracture surfaces. The changes in the mechanical properties of VGCF/ep, such as the tensile modulus and strength were discussed. The mechanical properties of allylamine plasma treated (AAPT) VGCF/ep were compared with those of raw VGCF/ep. The tensile strength and modulus of allyamine plasma treated VGCF40 (40 min treatment)/ep demonstrated a higher value than those of other samples. The mechanical properties were increased with the allyamine plasma treatment due to the improved adhesion at VGCF/ep interface. The modification of the carbon nanofibers surface was observed by transmission electron microscopy (TEM). SEM micrographs showed an excellent dispersion of VGCF in epoxy matrix by ultrasonic method.

• 한국세라믹학회지
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• 제44권6호
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• pp.303-307
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• 2007

Transparent In-doped zinc oxide (IZO) thin films are deposited with variation of pulsed DC power at Ar atmosphere on coming 7059 glass substrate by pulsed DC magnetron sputtering. A c-axis oriented IZO thin films were grown in perpendicular to the substrate. The optical transmittance spectra showed high transmittance of over 80% in the UV-visible region and exhibited the absorption edge of about 350 nm. Also, the IZO films exhibited the resistivity of ${\sim}10^{-3}{\Omega}\;cm$ and the mobility of ${\sim}6cm/V\;s$. Organic Light-emitting diodes (OLEDs) with IZO/N,N'-diphenyl-N, N'-bis(3-methylphenl)-1, 1'-biphenyl-4,4'-diamine (TPD)/tris (8-hydroxyquinoline) aluminum ($Alq_3$)/LiF/Al configuration were fabricated. LiF layer inserted is used as an interfacial layer to increase the electron injection. Under a current density of $100\;mA/cm^2$, the OLEDs show an excellent efficiency (9.4 V turn-on voltage) and a good brightness ($12000\;cd/m^2$) of the emission light from the devices. These results indicate that IZO films hold promise for anode electrodes in the OLEDs application.

• Advanced Composite Materials
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• 제17권2호
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• pp.167-175
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• 2008

Vapor grown carbon fibers (VGCF) were treated with atmospheric plasma enhancing the surface area in order to improve the bonding to the matrix in epoxy composites. The changes in the mechanical properties of VGCF/epoxy nanocompostes, such as tensile modulus and tensile strength were investigated in this study. VGCF with and without atmospheric plasma treatment for surface modification were used in this investigation. The interdependence of these properties on the VGCF contents and interfacial bonding between VGCF/epoxy matrix were discussed. The mechanical properties of atmospheric plasma treated (APT) VGCF/epoxy were compared with raw VGCF/epoxy. The tensile strength of APT VGCF/epoxy nanocomposites showed higher value than that of raw VGCF. The tensile strength was increased with atmospheric plasma treatment, due to better adhesion at VGCF/epoxy interface. The tensile modulus of raw VGCF and APT VGCF/epoxy matrix were of the similar value. The dispersion of the VGCF was investigated by scanning electron microscopy (SEM), SEM micrographs showed an excellent dispersion of VGCF in epoxy matrix by ultrasonic method.

• 에너지공학
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• 제25권2호
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• pp.65-78
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• 2016

광촉매 연구의 초기는 태양에너지의 전환 및 저장에 관련된 분야들로부터 개발되어 왔다. 최근에는 광 또는 광촉매의 존재 하에서 자외선을 조사하여 물의 정제 및 폐수처리와 각종 유기화합물의 분해연구가 활발하게 진행되고 있다. 또한 산화물질-카본나노튜브, 그래핀 나노복합체 등이 광촉매물질로서 연구되고 있다. 이와 같은 복합체는 열적, 화학적으로 안정하기 때문에 플렉서블 소자를 포함한 광분해 태양전지 및 나노전자 소자를 구성하는 재료로서 적당하다.

• Advances in nano research
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• 제16권2호
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• pp.155-164
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• 2024

The rapid evolution of intelligent sports equipment and gadgets has led to the transformation of smartphones into personalized coaching devices. This transformative role is central in today's technologically advanced landscape, addressing the needs of individuals with contemporary lifestyles. The development of intelligent sports gadgets is geared towards elevating overall quality of life by facilitating sports activities, workouts, and promoting health preservation. This categorization yields two primary types of devices: smart sports devices for exercise and smart health control devices, which encompass functionalities such as blood pressure monitoring and muscle volume measurement. Illustrative examples include smart headbands, smart socks, smart wristbands, and smart shoe soles. Significantly, the global market for smart sports devices has garnered substantial popularity among enthusiasts. Moreover, the integration of sensors within these devices has instigated a revolution in group and professional sports, facilitating the calculation of impact intensity and ball speed. The utilization of various types of smart sports equipment has proliferated, encompassing applications in both sports' performance and health monitoring across diverse demographics. This article conducts an assessment of the application of nanotechnology in the continuous modeling of the magnetic electromechanical sensor integrated within smart shoe soles, with a specific emphasis on its implementation in soccer training. The exploration delves into the nuanced intersection of nanotechnology and sports equipment, elucidating the intricate mechanisms that underlie the transformative impact of these advancements.

• 한국산학기술학회논문지
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• 제14권5호
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• pp.2544-2549
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• 2013

고성능 고분자/클레이 나노 복합재료의 제조 과정에는 친수성을 보이는 클레이 원료 물질인 $Na^+$-MMT (sodium monmorilonite)를 친유성을 갖도록 유기화된 계면활성제로처리하여 개질하는 과정이 필수적이다. 이를 위하여 이 연구에서는 VDAC (vinylbenzyldimethyl-dodecylammonium chloride)를 간단한 화합물로부터 합성하였고 이를 이용하여 양이온 교환반응에 의하여 $Na^+$-MMT를 개질한 후 $VDA^+$-MMT를 제조하였다. 이를 스티렌과 혼합하여 in-situ 중합에 의하여 나노복합재료를 제조하였고 클레이의 분산성 및 차단특성을 연구하였다. 연구 결과 PS/$VDA^+$-MMT 나노 복합재료의 경우 클레이의 분산이 $Na^+$-MMT와 비교할 때 현저히 증가함을 확인하였고 이로 인해 유기 용매에 대한 차단 특성이 매우 우수함을 확인하였다.

• 전기화학회지
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• 제17권3호
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• pp.187-192
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• 2014

본 논문에서는 리튬이온 이차전지의 음극에 사용될 수 있는 $CNT/Co_3O_4$ 나노복합체의 합성과 전기화학적 특성에 대해 보고하고 있다. 고용량을 가진 산화물 음극 중 하나인 $Co_3O_4$의 부족한 전기 전도성을 보완하고 상변이 과정에서 발생하는 응력(stress)를 완충하기 위해 CNT와의 복합화가 시도되었다. 그 결과 카본나노튜브 표면에 수 nm 크기의 $Co_3O_4$를 균일하게 분산시켜 복합화 하는데 성공하였으며 제조된 $CNT/Co_3O_4$ 나노복합체는 우수한 고율특성과 안정적인 사이클 특성을 나타내었다. 또한 기존의 상용화된 음극물질인 흑연 보다 높은 방전용량을 가지고 있어 리튬이온 이차전지의 음극물질로 활용될 수 있는 가능성을 보여주었다.

• 한국표면공학회지
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• 제54권5호
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• pp.230-237
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• 2021

In this study, the influence of silicon contents on the microstructure, mechanical and tribological properties of Ti-Al-Si-N coatings were systematically investigated for application of cutting tools. The composition of the Ti-Al-Si-N coatings were controlled by different combinations of TiAl₂ and Ti₄Si composite target powers using an arc ion plating technique in a reactive gas mixture of high purity Ar and N₂ during depositions. Ti-Al-Si-N films were nanocomposite consisting of nanosized (Ti,Al,Si)N crystallites embedded in an amorphous Si₃N₄/SiO₂ matrix. The instrumental analyses revealed that the synthesized Ti-Al-Si-N film with Si content of 5.63 at.% was a nanocomposites consisting of nano-sized crystallites (5-7 nm in dia.) and a three dimensional thin layer of amorphous Si₃N₄ phase. The hardness of the Ti-Al-Si-N coatings also exhibited the maximum hardness value of about 47 GPa at a silicon content of ~5.63 at.% due to the microstructural change to a nanocomposite as well as the solid-solution hardening. The coating has a low friction coefficient of 0.55 at room temperature against an Inconel alloy ball. These excellent mechanical and tribological properties of the Ti-Al-Si-N coatings could help to improve the performance of machining and cutting tool applications.

• Korean Chemical Engineering Research
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• 제48권3호
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• pp.292-299
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• 2010

그래핀(graphene)은 $sp^2$ 탄소원자들이 벌집 격자를 이룬 형태의 2차원 나노시트를 의미하며, 높은 비표면적(이론치 $2600m^2\;g^{-1}$)과 우수한 전기전도도(전형치 $8{\times}10^5S\;cm^{-1}$) 및 기계적 강도로 인해 리튬이온전지의 음전극 활물질 및 초고용량 커패시터의 전극 활물질로서 사용 가능성이 높아지고 있다. 본 총설에서는 현재까지 알려진 그래핀 나노시트와 그래핀을 기반으로 하는 나노복합체의 제조법을 소개하고, 이를 리튬이온전지와 초고용량 커패시터의 전극소재로 적용하였을 때의 특성을 그 나노구조적 관점과 연관하여 논의하였다.

• 한국결정성장학회지
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• 제19권5호
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• pp.251-255
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• 2009

나노사이즈의 귀금속을 $TiO_2$ 매트릭스에 균질하게 분산 시킨 구조는 염료감응형 태양전지의 유망한 광전극 특성을 나타내는 것으로 보고되고 있다. 이와 같은 금 및 백금 나노미립자를 균질하게 분산된 구조의 광전극을 제작하기 위하여 석영 및 ITO 기판위에 동시스퍼터법에 의하여 박막을 합성 하였다. XRD분석을 통하여 상분석을 수행 한 결과 합성된 나노컴포지트는 Rutile상이 지배적인 결정 구조를 나타냈으며 열처리를 $600^{\circ}C$까지 진행함에 따라 $TiO_2$ 결정성의 향상 및 귀금속인 금 및 백금의 나노미립자가 증가 하는 결과를 나타내었다. 귀금속인 금 및 백금이 분산된 $TiO_2$ 광전극에서는 자외선(UV) 영역을 포함하여 가시광(VIS) 영역의 빛의 조사에 광전류 응답 특성을 발현 하였다. 가시광선 영역에서 발현된 광전류 응답 특성은 나노사이즈로 분산된 금 및 백금 금속과 $TiO_2$와의 계면 준위에 기인 한 것으로 판명 되었다.