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기기검색

장비 상세조회

초미세 이차이온질량분석기
Nano Secondary Ion Mass Spectrometer

분석장비 상세내역
영문약어 Nano SIMS
장비명(한글) 초미세 이차이온질량분석기 
기기코드 PH405
연구장비표준분류
기기상태  
PH405.JPG

부서 및 장비담당자

부서 및 장비담당자
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Spec 및 활용분야

Spec 및 활용분야
원리 및 특징
    · 50nm 크기의 일차이온을 시편에 주사시켜, 방출되어지는 이차이온의 잘량을 측정하여 고체 시료 표면에 존재하는 미량 불순물의 분포 및 함량을 분석하는 장비.
    · 절연체 분석이 가능하며, 다중검출기가 장착되어 있어 동시간에 최대 5개 원소까지 검출이 가능함.
    · 또한, 작은 일차이온원을 이용하여 분석을 하지만 ppm 수준의 낮은 검출한계를 구현할 수 있음.
구성 및 성능
    ○ Nano Secondary Ion Mass Spectrometer

    1. Primary Ion : Cs+, O2+, O-
    2. Small beam of primary ion
    - Cs+ : 50 nm
    - O- : 200 nm
    3. Mass range: 1 to 360 amu (H~U)
    4. Detection limits: ppb ~ ppm levels
    5. Option: Five masses parallel detection
활용분야
    ○ 리튬이차전지 활물질 입자의 원소 분포 분석
    ○ 미소 패턴 반도체 소자 내의 불순물 깊이 방향 분석
    ○ 철강 소재의 입계 파괴 원인 원소 분석
    ○ 세포 내의 미량 원소 분포 분석
    ○ 운석 내의 산소동위원소 분석

장비 공지사항


연관논문

Controlled growth of a nanoplatelet-structured copper sulfide thin film as a highly efficient counter electrode for quantum dot-sensitized solar cells
Mallineni Venkata-Harihta
RSC Advances, 2016
One-step synthesis of solution processed time-dependent highly efficient and stable PbS counter electrodes for quantum dot-sensitized solar cells
Chandu V V M Gopi
RSC Advances, 2015
Cost-effective and morphology controllable PVP based highly efficient CuS counter electrodes for high-efficiency quantum dot-sensitized solar cells
Chandu V V M Gopi
Dalton Transactions, 2015
The influence of in situ deposition techniques on PbS seeded CdSCdSe for enhancing the photovoltaic performance of quantum dot sensitized solar cells
Dinah Punnoose
Journal of Electroanalytical Chemistry, 2016
Enhanced photovoltaic performance and morphological control of the PbS counter electrode grown on functionalized self-assembled nanocrystals for quantum-dot sensitized solar cells via cost-effective chemical bath deposition
ChebroluVenkata Thulasi-Varma
Journal of Materials Chemistry C, 2015
Improving the performance of quantum dot sensitized solar cells through CdNiS quantum dots with reduced recombination and enhanced electron lifetime
Chandu V V M Gopi
Dalton Transactions, 2016
ZnO nanorods decorated with metal sulfides as stable and efficient counter-electrode materials for high-efficiency quantum dot-sensitized solar cells
Chandu V V M Gopi
Journal of Materials Chemistry A, 2016
Solution processed low-cost and highly electrocatalytic composite NiSPbS nanostructures as a novel counter-electrode material for high-performance quantum dot-sensitized solar cells with improved stability
Chandu V V M Gopi
Journal of Materials Chemistry C, 2015
Facile fabrication of highly efficient carbon nanotube thin film replacing CuS counter electrode with enhanced photovoltaic performance in quantum dot-sensitized solar cells
Chandu V V M Gopi
Journal of Power Sources, 2016
Cost-effective and morphology controllable PVP based highly efficient CuS counter electrodes for high-efficiency quantum dot-sensitized solar cells
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Dalton Transactions, 2015
Influence of Mn+2 incorporation in CdSe quantum dots for high performance of CdS CdSe quantum dot sensitized solar cells
M. Venkata-Haritha, Chandu V.V.M. Gopi, Chebrolu Venkata Thulasi-Varma, Soo-Kyoung Kim, Hee-Je Kim
Journal of Photochemistry and Photobiology A: Chemistry, 2016
A strategy to improve the energy conversion efficiency and stability of quantum dot-sensitized solar cells using manganese-doped cadmium sulfide quantum dots
Chandu V. V. M. Gopi, M. Venkata-Haritha, Soo-Kyoung Kim and Hee-Je Kim
Dalton Transactions, 2015
Highly effective nickel sulfide counter electrode catalyst prepared by optimal hydrothermal treatment for quantum dot-sensitized solar cells
Chandu V.V.M. Gopi, S. Srinivasa Rao, Soo-Kyoung Kim, Dinah Punnoose, Hee-Je Kim
Journal of Power Sources, 2015
PWR 1차측 환경에서 Alloy 600 응력부식균열 선단 부근에서의 산화 거동
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Corrosion Science and Technoloy, 2012
Influences of graphite electrode on degradation induced by accelerated charging–discharging cycling in lithium-ion battery
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Molecular Crystals and Liquid Crystals, 2018
In Vitro Tracking of Intracellular Metabolism-Derived Cancer Volatiles via Isotope Labeling
Dong Kyu Lee, Euiyeon Na, Seongoh Park, Jeong Hill Park, Johan Lim, Sung Won Kwon,
ACS Central Science, 2018
Effect of oxygen and nitrogenon microstructure and mechanical properties of vanadium
Min-Gu Jo
2016, 2016
Precipitation correlation between MC carbide and Nb-rich M2P phosphide in a TP347H austenitic stainless steel. (Materials Characterization)
Chang-Wan Hong, Yoon-Uk Heo, Nam-Hoe Heo, Sung-Joon Kim
Materials Characterization, 2017
Evaluation of the effect of B and N on the microstructure of 9Cr-2W steel during an aging treatment for SFR fuel cladding tubes
Eun Hee Jeong
Journal of Nuclear Materials, 2015
Influence of surface contamination on the electrical breakdown between Ag electrodes in AC plasma display panels
Eun YoungJung, Choon SangPark, Tae EunHong, Jae HyunKim, Heung SikTae,
Molecular Crystals and Liquid Crystals, 2013
Transparent Polyaniline Thin Film Synthesized Using a Low-Voltage-Driven Atmospheric Pressure Plasma Reactor
Jae Young Kim, Shahzad Iqbal, Hyo Jun Jang, Eun Young Jung, Gyu Tae Bae, Choon-Sang Park, Bhum Jae Shin,and Heung-Sik Tae
Materials, 2021
Polymers
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Polymers, 2019
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Hyo Jun Jang, Choon-Sang Park, Eun Young Jung, Gyu Tae Bae, Bhum Jae Shin and Heung-Sik Tae
Polymers, 2020
Surface Energy Change of Atomic-Scale Metal Oxide Thin Films by Phase Transformation
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ACS Nano, 2020
Experimental study on solid electrolyte interphase of graphite electrode in Li-ion battery by surface analysis technique
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Molecular Crystals and Liquid Crystals, 2018
The Exterior of Single-Walled Carbon Nanotubes as a Millimeter-Long Cation-Preferring Nanochannel
Yun TaeKim, Se HunJoo, HyegiMin, JiyunLee, Seung MinMoon, MirangByeon, Tae EunHong, Michael S.Strano, Jae HeeHan, Sang KyuKwak, Chang YoungLee,
CHEMISTRY OF MATERIALS, 2018
Photoresist Removal Using Reactive Oxygen Species Produced by an Atmospheric Pressure Plasma Reactor
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ECS Journal of Solid State Science and Technology, 2022
Optimization of Atmospheric Pressure Plasma Jet with Single-Pin Electrode Configuration and Its Application in Polyaniline Thin Film Growth
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