Metal Thin
금속 얇은

Metal Thin(금속 얇은)란 무엇입니까?

Metal Thin 금속 얇은 - It established that in the chain drive manual absent permissible limits for metal thinning of chain drive, vibration velocity on the bearings of the traction chain; rejection rates of mechanical damage to the base metal. ^[1] Here, we provided a summary of the recent development of counter electrode for PSCs, including metal thin-film electrode, super-thin metal thin-film electrode, nanostructured metal electrode, graphene electrode, carbon nanotube electrode, carbon black/graphite electrode, conductive oxide electrode, and polymer electrode. ^[2] These panels differ from the traditional silicon-based solar panels, in that the metal thin-film layers contain some potentially toxic metals such as zinc (Zn), copper (Cu), nickel (Ni), gallium (Ga), lead (Pb), indium (In) and chromium (Cr). ^[3] To better to study the technology, combined with the research progress of scholars at home and abroad, the formability of metal thin-walled tubes under hydraulic bulging is comprehensively and systematically discussed and summarized. ^[4] From the relationship between the steady-state temperatures and the input power density, a convective heat-transfer coefficient of 60 W·m−2·°C−1 was found, indicating a performance much better than that of many other types of heaters like metal thin-film-based heaters and carbon nanotube-based heaters. ^[5] A main advantage of using flux-cored arc welding (SS) is the ease with which specific weld-metal things can be developed. ^[6] Firstly, based on the theory of the liquid volume compression, the change law of the cavity volume of metal thin-walled tubes was analyzed according to size parameters of the tube and dies during the forming process. ^[7]
체인 드라이브 매뉴얼에 체인 드라이브의 금속 얇아짐, 트랙션 체인 베어링의 진동 속도에 대한 허용 한계가 없음을 확인했습니다. 모재에 대한 기계적 손상의 거부율. ^[1] 여기에서는 금속 박막 전극, 초박형 금속 박막 전극, 나노 구조 금속 전극, 그래핀 전극, 탄소 나노튜브 전극, 카본 블랙/흑연 전극, 전도성을 포함한 PSC용 상대 전극의 최근 개발에 대한 요약을 제공했습니다. 산화물 전극 및 고분자 전극. ^[2] 이 패널은 금속 박막층이 아연(Zn), 구리(Cu), 니켈(Ni), 갈륨(Ga), 납(Pb)과 같은 잠재적으로 독성이 있는 금속을 포함한다는 점에서 기존의 실리콘 기반 태양광 패널과 다릅니다. ), 인듐(In) 및 크롬(Cr). ^[3] 기술을 더 잘 연구하기 위해 국내외 학자들의 연구 진행과 결합하여 수압 팽창 하에서 금속 얇은 벽 튜브의 성형 가능성을 포괄적이고 체계적으로 논의하고 요약합니다. ^[4] 정상 상태 온도와 입력 전력 밀도 사이의 관계에서 60W·m-2·°C-1의 대류 열전달 계수가 발견되었으며, 이는 다음과 같은 다른 유형의 히터보다 훨씬 우수한 성능을 나타냅니다. 금속 박막 기반 히터 및 탄소 나노튜브 기반 히터. ^[5] 플럭스 코어드 아크 용접(SS) 사용의 주요 이점은 특정 용접 금속 제품을 쉽게 개발할 수 있다는 것입니다. ^[6] 첫째, 액체 체적 압축 이론에 기초하여 성형 과정에서 튜브 및 다이의 크기 매개변수에 따른 금속 박판 튜브의 캐비티 체적 변화 법칙을 분석하였다. ^[7]

porous chiral sculptured

We used calculations modeling the situation in which an index-matched substrate with a metal thin film and a porous chiral sculptured thin film (CSTF) deposited successively on it is affixed to the base of a triangular prism. ^[1] We used calculations modeling an index-matched substrate with a metal thin film and a porous chiral sculptured thin film (CSTF) deposited successively on it that is affixed to the base of a triangular prism. ^[2] We fabricated a sensor chip comprising a metal thin film and a porous chiral sculptured thin film (CSTF) deposited successively on a glass substrate that can be affixed to the base of a triangular prism. ^[3]
금속 박막과 그 위에 연속적으로 증착된 다공성 카이랄 조각 박막(CSTF)이 있는 인덱스 일치 기판이 삼각형 프리즘의 베이스에 부착되는 상황을 모델링하는 계산을 사용했습니다. ^[1] 우리는 삼각형 프리즘의 바닥에 부착된 금속 박막과 그 위에 연속적으로 증착된 다공성 키랄 조각 박막(CSTF)이 있는 인덱스 일치 기판을 모델링하는 계산을 사용했습니다. ^[2] nan ^[3]

Noble Metal Thin 귀금속 얇은

Hence, an overview of gas sensors is presented, including electronic-nose systems, followed by a description of the surface plasmons that arise in noble metal thin films and nanoparticles. ^[1] We study light–matter interactions leading to the generation of photon drag voltage under surface plasmon resonance conditions in noble metal thin films and observe important effects, which provide opportunity for condensed matter theorists to critically evaluate theoretical models. ^[2] Since plexcitonics requires the placement of plasmonic and excitonic components in close proximity with one another to facilitate their coupling, it provides a rich arena for chemists and materials scientists to form deterministic and non-deterministic arrays and heterojunctions involving noble metal thin films and nanostructures, quantum dots and dye molecules. ^[3] Noble metal thin films were deposited on quartz substrates by pulsed laser deposition (PLD) technique and then annealed by a single laser pulse to produce nanostructures. ^[4] This work is a comparative study of real-time detection of organic molecules with ultimately small weight and different functionality (urea, 60 Da and thiourea, 76 Da) using optoelectronic sensors based on LSPR (localized surface plasmon resonance ) in noble metal nanostructures and SPPR (surface plasmon-polariton resonance) in noble metal thin films. ^[5]
따라서 전자 코 시스템을 포함한 가스 센서의 개요가 제시되고 귀금속 박막 및 나노 입자에서 발생하는 표면 플라즈몬에 대한 설명이 이어집니다. ^[1] 우리는 귀금속 박막의 표면 플라즈몬 공명 조건에서 광자 항력 전압의 생성으로 이어지는 빛-물질 상호 작용을 연구하고 중요한 효과를 관찰하여 응축 물질 이론가가 이론적 모델을 비판적으로 평가할 수 있는 기회를 제공합니다. ^[2] 플렉시토닉은 결합을 용이하게 하기 위해 플라즈몬 및 엑시톤 구성요소를 서로 근접하게 배치해야 하기 때문에 화학자와 재료 과학자가 귀금속 박막 및 나노구조, 양자를 포함하는 결정론적 및 비결정론적 어레이 및 이종접합을 형성할 수 있는 풍부한 영역을 제공합니다. 점과 염료 분자. ^[3] 펄스 레이저 증착(PLD) 기술로 석영 기판에 귀금속 박막을 증착한 다음 단일 레이저 펄스로 어닐링하여 나노 구조를 생성합니다. ^[4] nan ^[5]

Transition Metal Thin 트랜지션 메탈 씬

In this study we used solid-state hydrogen gating to control the ferrimagnetic order in rare earth–transition metal thin films dynamically. ^[1] From 22 patents, we found that benzene could have been used as one of the carbon sources in chemical vapor deposition for capacitor; as diamond-like carbon for solar cell, graphene formation, or etching for transition metal thin film; and as a solvent for dielectric film, silicon oxide layer, nanomaterials, photoresist, rise for immersion lithography, electrophotography, and quantum dot ink. ^[2] The spin Hall effect originating from 5d heavy transition metal thin films such as Pt, Ta, and W is able to generate efficient spin-orbit torques that can switch adjacent magnetic layers. ^[3] Perpendicular magnetic anisotropy (PMA) in transition metal thin films offers a pathway for enabling the interesting physics of nanomagnetism and developing a wide range of spintronics applications. ^[4]
이 연구에서 우리는 희토류-전이 금속 박막의 페리자성 질서를 동적으로 제어하기 위해 고체 상태 수소 게이팅을 사용했습니다. ^[1] 22개의 특허에서 우리는 벤젠이 축전기의 화학 기상 증착에서 탄소원 중 하나로 사용될 수 있음을 발견했습니다. 태양 전지, 그래핀 형성 또는 전이 금속 박막의 에칭을 위한 다이아몬드형 탄소로서; 및 유전체 필름, 실리콘 산화물 층, 나노 물질, 포토레지스트, 침지 리소그래피용 상승, 전자 사진 및 양자점 잉크용 용매로 사용됩니다. ^[2] Pt, Ta 및 W와 같은 5d 중전이 금속 박막에서 발생하는 스핀 홀 효과는 인접한 자성층을 전환할 수 있는 효율적인 스핀 궤도 토크를 생성할 수 있습니다. ^[3] 전이 금속 박막의 수직 자기 이방성(PMA)은 나노자기의 흥미로운 물리학을 가능하게 하고 광범위한 스핀트로닉스 응용을 개발할 수 있는 경로를 제공합니다. ^[4]

Heavy Metal Thin

These spintronic shift-register devices are formed from perpendicularly magnetized ferromagnet/heavy metal thin-film systems. ^[1] In this work, we have used the MuMax3 software to simulate devices consisting of a ferromagnetic thin film placed over a heavy metal thin film. ^[2]

Nanostructured Metal Thin

Surface-enhanced infrared absorption spectroscopy offers an alternative to conventional IR spectroscopy and utilizes the signal enhancement exerted by the plasmon resonance of nanostructured metal thin films. ^[1] Nanostructured metal thin films have high strength and high electrical conductivity, but their fatigue resistance is relative low due to the weak plasticity and ductility deformed by localization at grain boundary or interface. ^[2]

Deposited Metal Thin

These NH structures were fabricated via thermal annealing of the deposited metal thin films without top-down nanofabrication technologies. ^[1] In addition, the main issue of the process, that is, the excess metal capping on the TMD layers, is solved by the reduction of thickness of the as-deposited metal thin film in this work. ^[2]

Sheet Metal Thin 얇은 판금

0 can effectively reduce sheet metal thinning and decrease springback in the stretching and bending stress states. ^[1] The influences of sheet metal thinning, edge geometry, and springback after forming and trimming are considered throughout the blank and tool optimization process. ^[2]
0은 판금 얇아짐을 효과적으로 줄이고 신축 및 굽힘 응력 상태에서 스프링백을 감소시킬 수 있습니다. ^[1] 성형 및 트리밍 후 판금 박형, 모서리 형상 및 스프링백의 영향은 블랭크 및 도구 최적화 프로세스 전반에 걸쳐 고려됩니다. ^[2]

metal thin film 금속 박막

Hence, an overview of gas sensors is presented, including electronic-nose systems, followed by a description of the surface plasmons that arise in noble metal thin films and nanoparticles. ^[1] Flexible Resistive Temperature Detectors (RTDs) based on metal thin film have broad application prospects in smart clothes, however, they are constructed with patterned metal films using complicated manufacturing processes. ^[2] The delamination or void defect will be induced between TIM and metal thin film interface at the same time. ^[3] In this study we used solid-state hydrogen gating to control the ferrimagnetic order in rare earth–transition metal thin films dynamically. ^[4] Hydrophobicity on the cones helps to keep the analyte molecule localized near the tip of nanocones where, due to plasmonic behavior of metal thin film i. ^[5] Surface-enhanced infrared absorption spectroscopy offers an alternative to conventional IR spectroscopy and utilizes the signal enhancement exerted by the plasmon resonance of nanostructured metal thin films. ^[6] This temperature change rectifies the resistance of the metal thin film by the bolometric effect. ^[7] These NH structures were fabricated via thermal annealing of the deposited metal thin films without top-down nanofabrication technologies. ^[8] However, flexible electrodes based on metal thin films on elastomeric substrates can suffer from complete and unexpected electrical disconnection after the onset of mechanical fracture across the metal. ^[9] This work introduces a flexible metal thin film strain sensor with micro/nano structure which has large measurement range and high sensitivity strain measurement. ^[10] The production of a high-sensitivity surface Plasmon resonance (SPR) sensor depends on a few main factors, such as metal thin film types and thicknesses, light coupling techniques and acceptable EM wave polarization modes. ^[11] Here, a dramatic modification of the electronic structure in epitaxially grown NbP Weyl semimetal thin films is reported, using in situ surface engineering and chemical doping strategies that do not alter the NbP lattice structure and symmetry, retaining its topological nature. ^[12] In order to enhance the sensing performance and the sensitivity of surface plasmon resonance (SPR) sensor, a potential sensing layer should be immobilized on a metal thin film. ^[13] In electronics, silicon-based metal thin films are a sort of common material structure. ^[14] Microstructural control of metal thin films is critical for accessing the lowest resistivities alongside materials choice. ^[15] In our previous study we identified that while these studies do deliver useful insights, there is a knowledge gap in the understanding of metal thin film nucleation on 2D materials [28]. ^[16] This review summarizes the various functionalizing agents which can endow four important functions in the masks including i) boosting the antimicrobial and self‐disinfectant characteristics via incorporating metal nanoparticles or photosensitizers, ii) increasing the self‐cleaning by inserting superhydrophobic materials such as graphenes and alkyl silanes, iii) creating photo/electrothermal properties by forming graphene and metal thin films within the masks, and iv) incorporating triboelectric nanogenerators among the friction layers of masks to stabilize the electrostatic charges and facilitating the recharging of masks. ^[17] Hence, we have developed the required set of microfabrication protocols for such an assembly comprising metal thin film deposition, direct burn-in of lithography alignment markers, and polymer patterning on top of the DFP. ^[18] Different combinations of metal thin films were investigated as metal interconnect for miniaturized microelectromechanical system (MEMS) encapsulation with stable electrical properties and sealing capability. ^[19] These experimental findings will enrich the understanding of the electronic and magnetic properties of magnetic Weyl semimetal thin films. ^[20] The method is successfully demonstrated on three metal thin films (7, 10, and 16 nm platinum deposited on fused silica). ^[21] A practicable solution to reduce the density of grain boundaries in metal thin films in order to improve their physical properties, and compatibility with nanoscale fabrications still remains a challenge for the thin film industry. ^[22] Laser dewetting is a simple and efficient method for transforming a metal thin film into nanoparticles. ^[23] (2) chip-level integrated interconnect, which integrates Si chip with metal thin film deposition through sacrificial release technique. ^[24] Despite the excellent electrical conductivity of metal thin film electrodes, their poor mechanical stretchability makes it extremely difficult to apply them as stretchable interconnect electrodes. ^[25] A high performance electronic device can be fabricated by achieving a high quality metal thin film Ohmic contact to intrinsic ZnO. ^[26] These findings should provide insight to future experimental research on the size distribution and shapes observed during the growth of metal-on-metal thin films. ^[27] The experimental findings are fully consistent with ab initio calculations of σyx for CoFe and highlight the role of the large Drude scattering rate (≈100 THz) of metal thin films, which smears out any sharp spectral features of the THz AHE. ^[28] Most of the traditional SIHEs are made of metal substrate and non-metal thin films. ^[29] From 22 patents, we found that benzene could have been used as one of the carbon sources in chemical vapor deposition for capacitor; as diamond-like carbon for solar cell, graphene formation, or etching for transition metal thin film; and as a solvent for dielectric film, silicon oxide layer, nanomaterials, photoresist, rise for immersion lithography, electrophotography, and quantum dot ink. ^[30] Co NPs produced by PLID wetted the sapphire substrate with a contact angle near 70°, which is in contrast to typical dewetting behavior of metal thin films exhibiting contact angles greater than 90°. ^[31] The individually actuated micromirrors are made of polysilicon and metal thin films to realize an electrostatic actuation and a high optical reflectivity. ^[32] We study light–matter interactions leading to the generation of photon drag voltage under surface plasmon resonance conditions in noble metal thin films and observe important effects, which provide opportunity for condensed matter theorists to critically evaluate theoretical models. ^[33] We used calculations modeling the situation in which an index-matched substrate with a metal thin film and a porous chiral sculptured thin film (CSTF) deposited successively on it is affixed to the base of a triangular prism. ^[34] Based on results for Au thin films with thicknesses of 10 and 20 nm, we successfully demonstrated the in-situ TXM system to be a powerful tool for imaging the photo-induced transition from metal thin films to metal nanoparticles. ^[35] Single or double metal thin films of Ag, Al, Ti, Au, Cr, or Ni have been embedded between ITO layers [4,8,14-17]. ^[36] This study highlights the feasibility of engineering high-performance catalysts through deposition of catalytically active metal thin films on facet-controlled inert nanocrystals. ^[37] We used calculations modeling an index-matched substrate with a metal thin film and a porous chiral sculptured thin film (CSTF) deposited successively on it that is affixed to the base of a triangular prism. ^[38] Overall, the broadband photodetector based on using organics and 3D Cd3As2 Dirac semimetal thin film heterojunction is proved to better performance for photoelectric application. ^[39] These findings may provide useful guidance to extend the potential technological applications of MoS2, including catalysts and production of metal thin films, and the fabrication of nanoelectronic devices. ^[40] The NiO thin film was synthesis by wet and dry thermal oxidation method of Nickel metal thin film deposited by RF sputtering. ^[41] We consider effects of an externally applied electrostatic field on superconductivity, self-consistently within a BCS mean field model, for a clean 3D metal thin film. ^[42] Flexible resistive temperature detectors (RTDs) based on metal thin film have broad application prospects in the field of portable and wearable electronics. ^[43] The goal of this work was, therefore, the development, manufacturing and characterization of controllable and large-scale perforation methods of graphene and metal thin films. ^[44] The quantum Hall effect (QHE) in a 3D Dirac semimetal thin film is attributed to either the quantum confinement induced bulk subbands or the Weyl orbits that connect the opposite surfaces via bulk Weyl nodes. ^[45] The effect of the high mobility of Ge atoms at the metal-semiconductor interface on the microstructural and texture evolution of the metal thin film was studied. ^[46] 48)O3/metal thin film capacitors for non-volatile memory device applications. ^[47] In this paper, a parametric three-dimensional (3D) phase-field study of the physical vapor deposition process of metal thin films was performed aiming at quantitative simulations. ^[48] We fabricated a sensor chip comprising a metal thin film and a porous chiral sculptured thin film (CSTF) deposited successively on a glass substrate that can be affixed to the base of a triangular prism. ^[49] Then, a metal thin film is deposited on the stamped substrate by Argon gas spattering deposition. ^[50]
따라서 전자 코 시스템을 포함한 가스 센서의 개요가 제시되고 귀금속 박막 및 나노 입자에서 발생하는 표면 플라즈몬에 대한 설명이 이어집니다. ^[1] 금속 박막을 기반으로 하는 유연한 저항 온도 감지기(RTD)는 스마트 의류에 광범위하게 적용될 수 있지만 복잡한 제조 공정을 사용하여 패턴화된 금속 필름으로 구성됩니다. ^[2] nan ^[3] 이 연구에서 우리는 희토류-전이 금속 박막의 페리자성 질서를 동적으로 제어하기 위해 고체 상태 수소 게이팅을 사용했습니다. ^[4] nan ^[5] nan ^[6] nan ^[7] nan ^[8] nan ^[9] nan ^[10] nan ^[11] nan ^[12] nan ^[13] nan ^[14] nan ^[15] nan ^[16] nan ^[17] nan ^[18] nan ^[19] nan ^[20] nan ^[21] nan ^[22] nan ^[23] nan ^[24] nan ^[25] nan ^[26] nan ^[27] nan ^[28] nan ^[29] 22개의 특허에서 우리는 벤젠이 축전기의 화학 기상 증착에서 탄소원 중 하나로 사용될 수 있음을 발견했습니다. 태양 전지, 그래핀 형성 또는 전이 금속 박막의 에칭을 위한 다이아몬드형 탄소로서; 및 유전체 필름, 실리콘 산화물 층, 나노 물질, 포토레지스트, 침지 리소그래피용 상승, 전자 사진 및 양자점 잉크용 용매로 사용됩니다. ^[30] nan ^[31] nan ^[32] 우리는 귀금속 박막의 표면 플라즈몬 공명 조건에서 광자 항력 전압의 생성으로 이어지는 빛-물질 상호 작용을 연구하고 중요한 효과를 관찰하여 응축 물질 이론가가 이론적 모델을 비판적으로 평가할 수 있는 기회를 제공합니다. ^[33] 금속 박막과 그 위에 연속적으로 증착된 다공성 카이랄 조각 박막(CSTF)이 있는 인덱스 일치 기판이 삼각형 프리즘의 베이스에 부착되는 상황을 모델링하는 계산을 사용했습니다. ^[34] 10 및 20 nm 두께의 Au 박막에 대한 결과를 기반으로, 우리는 현장 TXM 시스템이 금속 박막에서 금속 나노입자로의 광유도 전이를 이미징하기 위한 강력한 도구임을 성공적으로 입증했습니다. ^[35] nan ^[36] nan ^[37] 우리는 삼각형 프리즘의 바닥에 부착된 금속 박막과 그 위에 연속적으로 증착된 다공성 키랄 조각 박막(CSTF)이 있는 인덱스 일치 기판을 모델링하는 계산을 사용했습니다. ^[38] nan ^[39] nan ^[40] nan ^[41] nan ^[42] nan ^[43] nan ^[44] nan ^[45] nan ^[46] nan ^[47] nan ^[48] nan ^[49] nan ^[50]

metal thin layer

Quite recently, we also found the similar peak splitting and sharpened of the LSP spectra for random metal nano-hemispheres, fabricated by thermal annealing of metal thin layers, on metal substrates through thin SiO2 spacer layer. ^[1] Morphology of metal thin layers deposited on polished surfaces of LiNbO3 crystal with dissimilar electric charges has been studied using various methods of vacuum evaporation. ^[2]
아주 최근에 우리는 얇은 SiO2 스페이서 층을 통해 금속 기판에서 금속 얇은 층의 열 어닐링으로 제작된 무작위 금속 나노 반구에 대한 LSP 스펙트럼의 유사한 피크 분할 및 선명도를 발견했습니다. ^[1] 다양한 진공 증착 방법을 사용하여 전하가 다른 LiNbO3 결정의 연마된 표면에 증착된 금속 박막의 형태가 연구되었습니다. ^[2]