• Title/Summary/Keyword: Zn doping

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Effect of Al Doping on the Properties of ZnO Nanorods Synthesized by Hydrothermal Growth for Gas Sensor Applications

  • Srivastava, Vibha;Babu, Eadi Sunil;Hong, Soon-Ku
    • Korean Journal of Materials Research
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    • v.30 no.8
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    • pp.399-405
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    • 2020
  • In the present investigation we show the effect of Al doping on the length, size, shape, morphology, and sensing property of ZnO nanorods. Effect of Al doping ultimately leads to tuning of electrical and optical properties of ZnO nanorods. Undoped and Al-doped well aligned ZnO nanorods are grown on sputtered ZnO/SiO2/Si (100) pre-grown seed layer substrates by hydrothermal method. The molar ratio of dopant (aluminium nitrate) in the solution, [Al/Zn], is varied from 0.1 % to 3 %. To extract structural and microstructural information we employ field emission scanning electron microscopy and X-ray diffraction techniques. The prepared ZnO nanorods show preferred orientation of ZnO <0001> and are well aligned vertically. The effects of Al doping on the electrical and optical properties are observed by Hall measurement and photoluminescence spectroscopy, respectively, at room temperature. We observe that the diameter and resistivity of the nanorods reach their lowest levels, the carrier concentration becomes high, and emission peak tends to approach the band edge emission of ZnO around 0.5% of Al doping. Sensing behavior of the grown ZnO nanorod samples is tested for H2 gas. The 0.5 mol% Al-doped sample shows highest sensitivity values of ~ 60 % at 250 ℃ and ~ 50 % at 220 ℃.

Aqueous Synthesis and Luminescent Characteristics of Cu:ZnSe Quantum Dots by Internal Doping Method (내부 도핑 법에 의한 Cu 도핑 Cu:ZnSe 양자점의 수계 합성 및 발광 특성)

  • Back, Geum Ji;Hong, Hyun Seon
    • Journal of Powder Materials
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    • v.29 no.5
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    • pp.370-375
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    • 2022
  • Cu-doped ZnSe quantum dots were successfully synthesized in an aqueous solution using an internal doping method. The effects of ligand type, CuSe synthesis temperature, and heating time on Cu-doped ZnSe synthesis were systematically investigated. Of MPA, GSH, TGA, and NAC used as ligands, MPA was the optimal ligand as determined by PL spectrum analysis. In addition, the emission wavelength was found to depend on the synthesis temperature of the internal doping core of CuSe. As the temperature increased, the doping of Cu2+ was enhanced, and the emission wavelength band was redshifted; accordingly, the emission peaks moved from blue to green (up to 550 nm). Thus, the synthesis of Cu:ZnSe using internal doping in aqueous solutions is a potential method for ecomanufacturing of color-tuned ZnSe quantum dots for display applications.

Electrical and Optical properties of B-doped ZnO films Deposited by RF Magnetron Sputtiering (RF 마그네트론 스퍼터링법으로 증착한 B-doped ZnO 박막의 전기 및 광학적 특징)

  • 임주수;이재신
    • Journal of the Korean Ceramic Society
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    • v.35 no.1
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    • pp.17-22
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    • 1998
  • B-doped ZnO thin films on glass substrates were prepared by sputtering the ceramic targets which had been prepared by sintering disks consisting of ZnO and various amounts of B2O3 While pure ZnO films show-ed a c-axis oriented growth the B-doping retarded the prefered orientation and grain growth of the film. Electron concentrations for undoped and B-doped ZnO films were on the order of 7.8${\times}$1018 cm-3 and 5${\times}${{{{ {10 }^{20 } }} c{{{{ {m }^{-3 } }} respectively. The electron mobility however decreased with the B-doping concentration. Optical meas-urements on the films showed that the average transmittance in the visible range was higher than 85% The measurements also indicated a blueshift of the absorption edge with doping.

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Homogeneous and Stable P-Type Doping of Graphene by MeV Electron Beam-Stimulated Hybridization with ZnO Thin Films

  • Song, U-Seok;Kim, Yu-Seok;Jeong, Min-Uk;Park, Jong-Yun;An, Gi-Seok
    • Proceedings of the Korean Vacuum Society Conference
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    • 2013.08a
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    • pp.145.1-145.1
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    • 2013
  • A prerequisite for the development of graphene-based field effect transistors (FETs) is reliable control of the type and concentration of carriers in graphene. These parameters can be manipulated via the deposition of atoms, molecules, and polymers onto graphene as a result of charge transfer that takes place between the graphene and adsorbates. In this work, we demonstrate a unique and facile methodology for the homogenous and stable p-type doping of graphene by hybridization with ZnO thin films fabricated by MeV electron beam irradiation (MEBI) under ambient conditions. The formation of the ZnO/graphene hybrid nanostructure was attributed to MEBI-stimulated dissociation of zinc acetate dihydrate and a subsequent oxidation process. A ZnO thin film with an ultra-flat surface and uniform thickness was formed on graphene. We found that homogeneous and stable p-type doping was achieved by charge transfer from the graphene to the ZnO film.

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Effects of Co Doping on NO Gas Sensing Characteristics of ZnO-Carbon Nanotube Composites (산화아연-탄소나노튜브 복합체의 일산화질소 가스 감지 특성에 미치는 코발트 첨가 효과)

  • Jung, Hoon-Chul;Ahn, Eun-Seong;Hung, Nguyen Le;Oh, Dong-Hoon;Kim, Hyo-Jin;Kim, Do-Jin
    • Korean Journal of Materials Research
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    • v.19 no.11
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    • pp.607-612
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    • 2009
  • We investigated the effects of Co doping on the NO gas sensing characteristics of ZnO-carbon nanotube (ZnO-CNT) layered composites fabricated by coaxial coating of single-walled CNTs with ZnO using pulsed laser deposition. Structural examinations clearly confirmed a distinct nanostructure of the CNTs coated with ZnO nanoparticles of an average diameter as small as 10 nm and showed little influence of doping 1 at.% Co into ZnO on the morphology of the ZnO-CNT composites. It was found from the gas sensing measurements that 1 at.% Co doping into ZnO gave rise to a significant improvement in the response of the ZnO-CNT composite sensor to NO gas exposure. In particular, the Co-doped ZnO-CNT composite sensor shows a highly sensitive and fast response to NO gas at relatively low temperatures and even at low NO concentrations. The observed significant improvement of the NO gas sensing properties is attributed to an increase in the specific surface area and the role as a catalyst of the doped Co elements. These results suggest that Co-doped ZnOCNT composites are suitable for use as practical high-performance NO gas sensors.

Deep-Level Defects on Nitrogen-Doped ZnO by Photoinduced Current Transient Spectroscopy

  • Choi, Hyun Yul;Seo, Dong Hyeok;Kwak, Dong Wook;Kim, Min Soo;Kim, Yu Kyeong;Lee, Ho Jae;Song, Dong Hun;Kim, Jae Hee;Lee, Jae Sun;Lee, Sung Ho;Yoon, Deuk Gong;Bae, Jin Sun;Cho, Hoon Young
    • Proceedings of the Korean Vacuum Society Conference
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    • 2013.02a
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    • pp.421-422
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    • 2013
  • Recently, ZnO has received attentionbecause of its applications in optoelectronics and spintronics. In order to investigate deep level defects in ZnO, we used N-doped ZnO with various of the N-doping concentration. which are reference samples (undoped ZnO), 27%, 49%, and 88%-doped ZnO. Photoinduced current transient spectroscopy (PICTS) measurement was carried out to find deep level traps in high resistive ZnO:N. In reference ZnO sample, a deep trap was found to located at 0.31 (as denoted as the CO trap) eV below conduction band edge. And the CN1 and CN2 traps were located at 0.09, at 0.17 eV below conduction band edge, respectively. In the case of both annealed samples at 200 and $300^{\circ}C$, the defect density of the CO trap increases and then decreases with an increase of N-doping concentration. On the other hands, the density of CN traps has little change according to an increase of N-doping concentration in the annealed sample at $300^{\circ}C$. According to the result of PICTS measurement for different N-doping concentration, we suggest that the CO trap could be controled by N-doping and the CN traps be stabilized by thermal annealing at $300^{\circ}C$.

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Effects of B Doping on Structural, Optical, and Electrical Properties of ZnO Nanorods Grown by Hydrothermal Method

  • Kim, Soaram;Nam, Giwoong;Park, Hyunggil;Yoon, Hyunsik;Kim, Byunggu;Kim, Jin Soo;Kim, Jong Su;Leem, Jae-Young
    • Proceedings of the Korean Vacuum Society Conference
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    • 2013.02a
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    • pp.337-337
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    • 2013
  • ZnO seed layers were deposited on a quartz substrate using the sol-gel method, and B-doped ZnO (BZO) nanorods with different B concentrations ranging from 0 to 2.5 at.% were grown on the ZnO seed layers by the hydrothermal method. The structural, optical, electrical propertiesof the ZnO and BZO nanorods were investigated using field-emission scanning electron microscopy, X-ray diffraction (XRD), photoluminescence (PL), ultraviolet-visible spectroscopy, and hall effect. The ZnO and BZO nanorods grew well aligned on the surface of the quartz substrates. From the XRD data, it can be seen that the B doping is responsible for the distortion of the ZnO lattice. The PL spectra show near-band-edge emission and deep-level emission, and they also show that B doping significantly affects the PL properties of ZnO nanorods. The optical band gaps are changed by B doping, and thus the Urbach energy value changed with the optical band gap of the ZnO nanorods. From the hall measurements, it can be observed that the values of electrical resistivity, carrier concentration, and mobility are changed by B doping.

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Fluorine-Doping Effect on Structural and Optical Properties of ZnO Nanorods Synthesized by Hydrothermal Method

  • Yoon, Hyunsik;Kim, Ikhyun;Kang, Daeho;Kim, Soaram;Kim, Jong Su;Lee, Sang-Heon;Leem, Jae-Young
    • Proceedings of the Korean Vacuum Society Conference
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    • 2013.08a
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    • pp.204.1-204.1
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    • 2013
  • Fluorine, the radius of which is close to that of oxygen, could be an appropriate anion doping candidate. A lower lattice distortion could be expected for F doping, compared with Al, Ga, and In doping. F-doped ZnO (FZO) and undoped ZnO nanorods were grown onto glass substrate by the hydrothemal method. The doping level in the solution, designated by F/Zn atomic ratio of was varied from 0.0 to 10.0 in 2.0 steps. To investigate the effects of the structure and optical properties of FZO nanorods were investigated using X-ray diffraction, UV-visible spectroscopy and photoluminescence (PL). For the PL spectra, the maximum peak position of NBE moves to higher energy, from 0 to 4 at.%. As the doping concentration increases, the maximum peak position of NBE gradually moves to lover energy, from 4 to 10 at.%.

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Nitrogen Doping Characterization of ZnO Prepared by Atomic Layer Deposition (원자층 증착법으로 성장된 ZnO 박막의 질소 도핑에 대한 연구)

  • Kim, Doyoung
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.27 no.10
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    • pp.642-647
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    • 2014
  • For feasible study of opto-electrical application regarding to oxide semiconductor, we implemented the N doped ZnO growth using a atomic layer deposition technique. The p-type ZnO deposition, necessary for ZnO-based optoelectronics, has considered to be very difficulty due to sufficiently deep acceptor location and self-compensating process on doping. Various sources of N such as $N_2$, $NH_3$, NO, and $NO_2$ and deposition techniques have been used to fabricate p-type ZnO. Hall measurement showed that p-type ZnO was prepared in condition with low deposition temperature and dopant concentration. From the evaluation of photoluminescence spectroscopy, we could observe defect formation formed by N dopant. In this paper, we exhibited the electrical and optical properties of N-doped ZnO thin films grown by atomic layer deposition with $NH_3OH$ doping source.

Al Doping and Post Annealing Effects of Pyrosol Deposited ZnO Thin Films (Pyrosol 법에 의한 ZnO 투명전도막의 Al Doping 및 열처리 효과)

  • Song, Jin-Soo;Yu, Kwon-Jong;Lee, Chang-Hyun;Cho, Woo-Yeong;Lim, Keong-Su;Eom, Young-Chang
    • Proceedings of the KIEE Conference
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    • 1994.07b
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    • pp.1301-1304
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    • 1994
  • ZnO transparent conducting oxide thin films have been prepared by Pyrosol deposition method. The effect of the Al doping with varying Al/Zn mole ratio and the post-deposition heat treatment on the electrical resistivity and optical transmittance of the prepared films have been investigated. From the experimental results, the ZnO:Al thin films with resistivity as low as $3{\times}10^{-3}{\Omega}cm$ and transmittance as high as 80% can be obtained by Al doping. Also We have found the annealing of the as-deposited ZnO film in vacuum leads to a substantial reduction in resistivity without affecting the optical transmittance and crystallographic orientation. However, the annealing effect of ZnO:Al thin films is smaller than ZnO films with respect to reduction in resistivity.

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