• 제목/요약/키워드: Porous Cu

검색결과 182건 처리시간 0.026초

CuO가 코팅된 Cu 분말을 혼합한 Camphene 슬러리의 동결건조에 의한 Cu 다공체 제조 (Fabrication of Porous Cu by Freeze-drying Process of Camphene Slurry with CuO-coated Cu Powders)

  • 방수룡;오승탁
    • 한국분말재료학회지
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    • 제21권3호
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    • pp.191-195
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    • 2014
  • This study reports a simple way of fabricating the porous Cu with unidirectional pore channels by freeze drying camphene slurry with Cu oxide coated Cu powders. The coated powders were prepared by calcination of ball-milled powder mixture of Cu and Cu-nitrate. Improved dispersion stability of camphene slurry could be achieved using the Cu oxide coated Cu powders instead of pure Cu powders. Pores in the frozen specimen at $-25^{\circ}C$ were generated by sublimation of the camphene during drying in air, and the green bodies were sintered at $750^{\circ}C$ for 1 h in $H_2$ atmosphere. XRD analysis revealed that the coated layer of Cu oxide was completely converted to Cu phase without any reaction phases by hydrogen heat treatment. The porous Cu specimen prepared from pure Cu powders showed partly large pores with unidirectional pore channels, but most of pores were randomly distributed. In contrast, large and aligned parallel pores to the camphene growth direction were clearly observed in the sample using Cu oxide coated Cu powders. Pore formation behavior depending on the initial powders was discussed based on the degree of powder rearrangement and dispersion stability in slurry.

Supercapacitor 전극용 최적의 mesoporous carbon 합성을 위한 PVDC-resin 전구체로 부터 CuO를 이용한 화학적 활성화 과정 연구 (Study on the chemical activation process from PVDC-resin with CuO agent to synthesize mesoporous carbon for supercapacitor electrodes)

  • 전상은
    • 한국표면공학회지
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    • 제57권4호
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    • pp.285-295
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    • 2024
  • PVDC-resin transforms into porous carbon through the removal of heteroatoms during heat treatment. When PVDC-resin mixed with chemical agent undergoes heat treatment, it transforms into porous carbon with a significant surface area. In this study, we aim to produce porous carbon using PVDC-resin as a precursor by mixing it with an inexpensive CuO agent in various ratios (1:1, 1:2) and varying the process temperatures (750℃, 950℃). To utilize the developed porous carbon as electrode for supercapacitors, this study explored the formation of micropores and mesopores during the activation process. The porous characteristics and specific surface area of the synthesized porous carbon were estimated using N2 isotherm. The specific capacitance and rate capability required for supercapacitor electrodes were evaluated through cyclic voltammetry. Experimental results demonstrated that when the precursor and agent were mixed in a 1:2 ratio, a high surface areal carbon with numerous micropores and mesopores was obtained. When the activation was performed at 950℃, no impurities remained from the agent, resulting in high rate performance. The porous carbon synthesized using PVDC-resin and CuO demonstrated high specific surface area and excellent rate capability, indicating its potential as an electrode material for supercapacitors.

스핀 코팅법으로 제작한 다공성 CuBr 필름의 암모니아 감응특성 (NH3 sensing properties of porous CuBr films prepared by spin-coating)

  • 김상권;유병훈;윤지욱
    • 센서학회지
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    • 제30권6호
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    • pp.451-455
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    • 2021
  • Porous copper bromide (CuBr) films are highly advantageous for detecting ammonia (NH3). The fabrication of porous CuBr films requires complex high-temperature processes or multistep processes. Herein, we report the uncomplicated preparation of porous CuBr films by a spin-coating method and the films' excellent NH3 sensing properties. The porous films were prepared by spin-coating 100, 150, and 200 mM CuBr solutions, and then dried in a vacuum oven for 2 h. All the films showed a high NH3 response; in particular, the film prepared using a 100 mM CuBr solution showed an extremely high response (resistance ratio = 852) to 5 ppm NH3. The film also showed fast response and recovery times, 272 s and 10 s respectively, even at room temperature. The outstanding NH3 sensing characteristics were explained in relation to the porosity and thickness of the prepared films. The high-performance NH3 sensors used in this study can be used for both indoor air quality and environmental monitoring applications.

황동층의 형성과 선택적 아연 에칭을 통한 구리 필라 상 다공성 구리층의 제조와 구리-구리 플립칩 접합 (Fabrication of Porous Cu Layers on Cu Pillars through Formation of Brass Layers and Selective Zn Etching, and Cu-to-Cu Flip-chip Bonding)

  • 이완근;최광성;엄용성;이종현
    • 마이크로전자및패키징학회지
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    • 제30권4호
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    • pp.98-104
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    • 2023
  • 대기 중 구리-구리 플립칩(flip-chip) 접합을 위해 제안된 효율적 공정의 실현 가능성을 평가하고자 구리(Cu) 필라(pillar) 상 다공성 구리층의 형성 및 액상 환원제 투입 후 열압착 접합을 실시하였다. 구리 필라 상 다공성 구리층은 아연(Zn) 도금-합금화 열처리-선택적 아연 에칭(etching)의 3단계 공정으로 제조되었는데, 형성된 다공성 구리층의 두께는 평균 약 2.3 ㎛였다. 본 플립칩 접합은 형성 다공성 구리층에 환원성 용제를 침투시킨 후, 반건조 과정을 거쳐 열압착 소결접합으로 진행하였다. 용제로 인한 구리 산화막의 환원 거동과 함께 추가 산화가 최대한 억제되면서 열압착 동안 다공성 구리층은 약 1.1 ㎛의 두께로 치밀해지며 결국 구리-구리 플립칩 접합이 완수되었다. 그 결과 10 MPa의 가압력 하에서 대기 중 300 ℃에서 5분간 접합 시 약 11.2 MPa의 접합부 전단강도를 확보할 수 있었는데, 이는 약 50% 이하의 필라들만이 접합된 결과로서, 공정 최적화를 통해 모든 필라들의 접합을 유도할 경우 20 MPa 이상의 강도값을 쉽게 얻을 수 있을 것으로 분석되었다.

나노크기 Cu 분산입자를 갖는 Al2O3 다공체의 제조 및 미세조직 특성 (Synthesis and Microstructure of Porous Al2O3 with Nano-Sized Cu Dispersions)

  • 유호석;김안기;현창용
    • 한국재료학회지
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    • 제23권1호
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    • pp.67-71
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    • 2013
  • Porous $Al_2O_3$ dispersed with nano-sized Cu was fabricated by freeze-drying process and solution chemistry method using Cu-nitrate. To prepare porous $Al_2O_3$, camphene was used as the sublimable vehicle. Camphene slurries with $Al_2O_3$ content of 10 vol% were prepared by milling at $50^{\circ}C$ with a small amount of oligomeric polyester dispersant. Freezing of the slurry was done in a Teflon cylinder attached to a copper bottom plate cooled to $-25^{\circ}C$ while unidirectionally controlling the growth direction of the camphene. Pores were subsequently generated by sublimation of the camphene during drying in air for 48 h. The green body was sintered in a furnace at $1400^{\circ}C$ for 1 h. Cu particles were dispersed in porous $Al_2O_3$ by calcination and hydrogen reduction of Cu-nitrate. The sintered samples showed large pores with sizes of about $150{\mu}m$; these pores were aligned parallel to the camphene growth direction. Also, the internal walls of the large pores had relatively small pores due to the traces of camphene left between the concentrated $Al_2O_3$ particles on the internal wall. EDS analysis revealed that the Cu particles were mainly dispersed on the surfaces of the large pores. These results strongly suggest that porous $Al_2O_3$ with Cu dispersion can be successfully fabricated by freeze-drying and solution chemistry routes.

전기선 폭발법으로 제조된 Al-Cu 합금 나노분말을 이용한 다공성 나노 입자 제조 (Fabrication of Porous Nano Particles from Al-Cu Alloy Nano Powders Prepared by Electrical Wire Explosion)

  • 박제신;김원백;서창열;안종관;김병규
    • 한국분말재료학회지
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    • 제15권3호
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    • pp.234-238
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    • 2008
  • Al-Cu alloy nano powders have been produced by the electrical explosion of Cu-plated Al wire. The porous nano particles were prepared by leaching for Al-Cu alloy nano powders in 40wt% NaOH aqueous solution. The surface area of leached powder for 5 hours was 4 times larger than that of original alloy nano powder. It is demonstrated that porous nano particles could be obtained by selective leaching of alloy nano powder. It is expected that porous Cu nano powders can be applied for catalyst of SRM (steam reforming methanol).

전기화학적 방법을 통한 금속 이중기공구조 형성 및 제어 (Formation and Control of Dual Porous Structures of Metal by an Electrochemical Method)

  • 하성혁;신헌철
    • 한국재료학회지
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    • 제29권2호
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    • pp.65-72
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    • 2019
  • Dual porous structures are observed for the first time on a metallic Cu surface underneath anodic Cu oxide by the application of an anodizing voltage to Cu in oxalic acid. The as-prepared porous Cu surface contains macropores of less than $1{\mu}m$ diameter and mesopores of about tens of nanometers diameter with circular shapes. The size and density (number of pores/area) of the macropores are dependent on the applied voltage. It is likely that the localized dissolution (corrosion) of Cu in oxalic acid under the anodizing voltages is responsible for the formation of the mesopores, and the combination of a number of the mesopores might create the macropores, especially under a relatively high anodizing voltages or a prolonged anodizing time. The variations of pore structure (especailly macropores) with applied voltage and time are reasonably explained on the basis of the proposed mechanism of pore formation.

이산화탄소 포집용 CuO담지 메조포러스 탄소체 합성 (Synthesis of mesoporous carbon supported CuO: a new sorbent for $CO_2$ Caapture)

  • 김대경;팽메이메이;이주보;정의민;백경란;송성화;아비도브아지즈;장현태
    • 한국산학기술학회:학술대회논문집
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    • 한국산학기술학회 2011년도 추계학술논문집 1부
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    • pp.196-199
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    • 2011
  • In this study we synthesized mesoporous carbon supported CuO by using mesoporous silica i.e. SBA-15 as the template and cupric nitrate trihydrate ($Cu(NO_3)_23H_2O$)as copper source. The porous CuO was characterized with XRD, TGA, SEM and BET. The result reveals porous CuO has good crystal structure with uniform size of spherical crystal particles. The surface are a ($S_{BET}$) of porous CuO was found to be $153.46m^2g^{-1}$ with a total pore volume ($V_p$)of$0.1516cm^3g^{-1}$ and average pore size of 3.9 nm which was much higher than that of commercial CuO ($S_{BET}$, $7.6m^2g^{-1}$; $V_p$, $0.01cm^3g^{-1}$). The obtained porous CuO was studied for adsorption of $CO_2$and the maximum $CO_2$ adsorption capacity was found to be 67.5 mg/g of the sorbent at $25^{\circ}C$.

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Thermally Stabilized Porous Nickel Support of Palladium Based Alloy Membrane for High Temperature Hydrogen Separation

  • Ryi, Shin-Kun;Park, Jong-Soo;Cho, Sung-Ho;Hwang, Kyong-Ran;Kim, Sung-Hyun
    • Corrosion Science and Technology
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    • 제6권3호
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    • pp.133-139
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    • 2007
  • Nickel powder was coated with aluminum nitrate solution to increase the thermal stability of a porous nickel support and control the nickel content in the Pd-Cu-Ni ternary alloyed membrane. Raw nickel powder and alumina coated nickel powder were uniaxialy pressed by home made press with metal cylindrical mold. Though the used nickel powder prepared by pulsed wire evaporation (PWE) method has a good thermal stability, the porous nickel support was too much sintered and the pores of porous nickel support was plugged at high temperature (over $800^{\circ}C$) making it not suitable for the porous support of a palladium based composite membrane. In order to overcome this problem, the nickel powder was coated by alumina and alumina modified porous nickel support resists up to $1000^{\circ}C$ without pore destruction. Furthermore, the compositions of Pd-Cu-Ni ternary alloy membrane prepared by magnetron sputtering and Cu-reflow could be controlled by not only Cu-reflow temperature but also alumina coating amount. SEM analysis and mercury porosimeter analysis evidenced that the alumina coated on the surface of nickel powder interrupted nickel sintering.

Camphor-Naphthalene 동결제 조성이 Cu-Ni 다공체의 기공구조에 미치는 영향 (Effect of Sublimable Vehicle Compositions in the Camphor-Naphthalene System on the Pore Structure of Porous Cu-Ni)

  • 권나연;석명진;오승탁
    • 한국분말재료학회지
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    • 제22권5호
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    • pp.362-366
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    • 2015
  • The effect of sublimable vehicle composition in the camphor-naphthalene system on the pore structure of porous Cu-Ni alloy is investigated. The CuO-NiO mixed slurries with hypoeutectic, eutectic and hypereutectic compositions are frozen into a mold at $-25^{\circ}C$. Pores are generated by sublimation of the vehicles at room temperature. After hydrogen reduction at $300^{\circ}C$ and sintering at $850^{\circ}C$ for 1 h, the green body of CuO-NiO is completely converted to porous Cu-Ni alloy with various pore structures. The sintered samples show large pores which are aligned parallel to the sublimable vehicle growth direction. The pore size and porosity decrease with increase in powder content due to the degree of powder rearrangement in slurry. In the hypoeutectic composition slurry, small pores with dendritic morphology are observed in the sintered Cu-Ni, whereas the specimen of hypereutectic composition shows pore structure of plate shape. The change of pore structure is explained by growth behavior of primary camphor and naphthalene crystals during solidification of camphor-naphthalene alloys.