• Title/Summary/Keyword: Phosphorus Doping

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Phosphorus doping effect on $Si_{0.8}Ge_{0.2}$ epitaxial growth by LPCVD (저압 CVD에 의한 $Si_{0.8}Ge_{0.2}$ epitaxial growth에 대한 Phosphorus doping 효과)

  • Lee, Cheal-Jin;Eom, Moon-Jong;Sung, Man-Young
    • Proceedings of the KIEE Conference
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    • 1997.11a
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    • pp.314-316
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    • 1997
  • We have studied the epitaxial growth and electrical properties of $Si_{0.8}Ge_{0.2}$, films on Si substrates at $550^{\circ}C$ by LPCVD. In a low $PH_3$, partial pressure region such as below 1.25 mPa, the phosphorus doping concentration increased proportionally with increasing $PH_3$ partial pressure while the deposition rate and the Ge fraction x were constant. In a higher $PH_3$ partial pressure region, the phosphorus doping concentration and the deposition rate decreased, while the Ge fraction slightly increased. The dependence of P incorporation rate on the $PH_3$ partial pressure was similar to the phosphorus doping concentration. According to test results, it suggests that high surface coverage of phosphorus atoms suppress both the $SiH_4$ adsorption/reaction and the $GeH_4$ adsorption/reaction on the surfaces, and the effect is more stronger on $SiH_4$ than on $GeH_4$. In a higher $PH_3$ partial pressure region, the deposition is largely controlled by surface coverage effect of phosphorus atoms.

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Annealing Characteristic of Phosphorus Implanted Silicon Films using an Ion Mass Doping Method (Ion Mass Doping 법을 이용한 Phosphorus 주입된 실리콘 박막의 Annealing 특성)

  • 강창용;최덕균;주승기
    • Journal of Surface Science and Engineering
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    • v.27 no.4
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    • pp.234-240
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    • 1994
  • A large area impurity doping method for poly-Si TFT LCD has been developed. The advantage of this method is the doping of impurities into Si over a large area without mass separation and beam scanning. Phosphorus diluted in hydrogen was discharged by RF(13.56MHz) power and ions from discharged gas were accelerated by DC acceleration voltage and were implanted into deposited Si films. The annealing characteristic of this method was similar to that of the ion implantation method in the low doping concentration. Three mechanisms were evolved in the annealing characteristics of phosphorus doped Si films. Point defects annihilation and the retrogradation of dopant atoms at grain boundaries as a result of grain growth played a major role at low and high annealing temperature, respectively. However, due to the dopant segregation, the reverse annealing range existed at intermediate annealing temperature.

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Simultaneous Analysis of Stimulants and Narcotic Analgesics by Capillary Column Gas Chromatography with Nitrogen Phosphorus Detector (Capillary Column Gas Chromatography/Nitrogen Phosphorus Detector를 이용한 흥분제 및 마약성 진통제의 동시분석에 관한 연구)

  • Lho, Dong-Seok;Shin, Ho-Sang;Kang, Bo-Kyung;Paek, Heang-Kee;Kim, Seung-Ki;Lee, Jeong-Ae;Kim, Young-Lim;Park, Jong-Sei
    • Journal of the Korean Chemical Society
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    • v.35 no.6
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    • pp.659-666
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    • 1991
  • A systematic analysis of 18 stimulants and narcotic analgesics containing nitrogen atom (s) in human urine by gas chromatography with nitrogen phosphorus detector (GC-NPD), is described. The urinary extract with diethyl ether at pH 8.5 showed good recoveries of the drugs and less interference peaks on GC chromatogram. Retention data were standardized by the calculation of relative retention times using diphenylamine as the internal standard. The relative standard deviations of retention times were less than 0.1% for the within-run analyses. The response factor (RRF) of a drug relative to the internal standard was calculated. RRF decreased with increasing number of nitrogen atoms. This technique can be adapted to various analytical toxicology problems.

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Study of the Diffusion of Phosphorus Dependent on Temperatures for Selective Emitter Doping Process of Atmospheric Pressure Plasma (대기압 플라즈마의 선택적 도핑 공정에서 온도에 의한 인(Phosphorus)의 확산연구)

  • Kim, Sang Hun;Yun, Myoung Soo;Park, Jong In;Koo, Je Huan;Kim, In Tae;Choi, Eun Ha;Cho, Guangsup;Kwon, Gi-Chung
    • Journal of Surface Science and Engineering
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    • v.47 no.5
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    • pp.227-232
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    • 2014
  • In this study, we propose the application of doping process technology for atmospheric pressure plasma. The plasma treatment means the wafer is warmed via resistance heating from current paths. These paths are induced by the surface charge density in the presence of illuminating Argon atmospheric plasmas. Furthermore, it is investigated on the high-concentration doping to a selective partial region in P type solar cell wafer. It is identified that diffusion of impurities is related to the wafer temperature. For the fixed plasma treatment time, plasma currents were set with 40, 70, 120 mA. For the processing time, IR(Infra-Red) images are analyzed via a camera dependent on the temperature of the P type wafer. Phosphorus concentrations are also analyzed through SIMS profiles from doped wafer. According to the analysis for doping process, as applied plasma currents increase, so the doping depth becomes deeper. As the junction depth is deeper, so the surface resistance is to be lowered. In addition, the surface charge density has a tendency inversely proportional to the initial phosphorus concentration. Overall, when the plasma current increases, then it becomes higher temperatures in wafer. It is shown that the diffusion of the impurity is critically dependent on the temperature of wafers.

A Study on Feasibility of the Phosphoric Paste Doping for Solar Cell using Newly Atmospheric Pressure Plasma Source (새로운 대기압 플라즈마 소스를 이용한 결정질 실리콘 태양전지 인(P) 페이스트 도핑에 관한 연구)

  • Cho, I-Hyun;Yun, Myoung-Soo;Jo, Tae-Hoon;Rho, Junh-Young;Jeon, BuII;Kim, In-Tae;Choi, Eun-Ha;Cho, Guang-Sup;Kwon, Gi-Chung
    • New & Renewable Energy
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    • v.9 no.2
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    • pp.23-29
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    • 2013
  • Furnace and laser is currently the most important doping process. However furnace is typically difficult appling for selective emitters. Laser requires an expensive equipment and induces a structural damage due to high temperature using laser. This study has developed a new atmospheric pressure plasma source and research atmospheric pressure plasma doping. Atmospheric pressure plasma source injected Ar gas is applied a low frequency (a few 10 kHz) and discharged the plasma. We used P type silicon wafers of solar cell. We set the doping parameter that plasma treatment time was 6s and 30s, and the current of making the plasma is 70 mA and 120 mA. As result of experiment, prolonged plasma process time and highly plasma current occur deeper doping depth and improve sheet resistance. We investigated doping profile of phosphorus paste by SIMS (Secondary Ion Mass Spectroscopy) and obtained the sheet resistance using generally formula. Additionally, grasped the wafer surface image with SEM (Scanning Electron Microscopy) to investigate surface damage of doped wafer. Therefore we confirm the possibility making the selective emitter of solar cell applied atmospheric pressure plasma doping with phosphorus paste.

In-situ phosphorus doping effect on epitaxial growth of $Si_{1-x}Ge_{x}$ film with high ge fraction (고농도 ge fraction을 갖는 $Si_{1-x}Ge_{x}$ 막의 epitaxial growth에 대한 in-situ phosphorus doping 효과)

  • 이철진;박정훈;김성진
    • Proceedings of the IEEK Conference
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    • 1998.06a
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    • pp.437-440
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    • 1998
  • We studied phosphorus doping effect on the epitaxial growth of $Si_{1-x}Ge_{x}$ film with high Ge fraction on Si substates at 550.deg. C by LPCVD. In a low $Ph_{3}$ partial pressure region such as below 1.25 mPa, the phosphorus dopant concentration increased linearly with increasing $PH_{3}$ partial pressure while the deposition rate and the Ge fraction were constant. In a higher $PH_{3}$ partial pressure region, the phosphorus dopant concentration and the deposition rate decreased, while the Ge fraction slightly increased. The deposition arate and the Ge fraction increased with increasing $GeH_{4}$ partial pressure while the phophours dopant concentration decreased. But the increasing rate of Ge fraction with incrasing $PH_{3}$ partial pressure was reduced at a high $GeH_{4}$ partial pressure. According to test results, it suggests that high surface coverage of phosphorus atoms suppress both the $SiH_{4}$ adsorption/reasction and the $GeH_{4}$ adsorption/reaction on the surfaces, and the effect is more stronger on $SiH_{4}$ than on $GeH_{4}$. In a higher $PH_{3}$ partial pressure region, the epitaxial growth is largely controlled by surface coverage effect of phosphorus atoms. The phosphorus surface coverage was slimited at a high $GeH_{4}$ partial pressure because adsorbed Ge atoms effectively suppresses the adsorption of phosphorus atoms.

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The effect of surface texturization on the thermal and electric characteristics of photovoltaic devices (표면 texturizaton에 따른 photovoltaic device의 열적 전기적 특성)

  • Jung, Ji-Chul;Jung, Byung-Eon;Lee, Jung-Ho;Koo, Sang-Mo
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2010.06a
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    • pp.133-133
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    • 2010
  • We studied the thermal and electric effect of 2D and 3D p-n photovoltaic diode structures with and without surface texturing. By analyzing the numerical simulation results of I-V characteristics and lattice temperature distributions, we systematically studied the effect of different texturing structures and different doping concentration on the characteristics of the silicon p-n photovoltaic devices. The, efficiency of the device with the surface texturing shows more than ~ 2% enhancement compared to the reference devices without texturing. The tendency of the efficiency of doping concentration has been studied with boron doping of $10^{14}{\sim}10^{17}cm^{-3}$ and phosphorus doping of $10^{15}cm^{-3}$. In addition to that, the study of changing phosphorus doping of $10^{15}{\sim}10^{18}cm^{-3}$ with boron doping of $10^{14}cm^{-3}$ has been examined. It has been shown that the texturing structure not only improves the light trapping but also plays an important role in the heat radiation.

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Annealing Effect of Phosphorus-Doped ZnO Nanorods Synthesized by Hydrothermal Method (Phosphorus-Doped ZnO 나노로드의 열처리 효과)

  • Hwang, Sung-Hwan;Moon, Kyeong-Ju;Lee, Tae Il;Myoung, Jae Min
    • Korean Journal of Materials Research
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    • v.23 no.5
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    • pp.255-259
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    • 2013
  • An effect of thermal annealing on activating phosphorus (P) atoms in ZnO nanorods (NR) grown using a hydrothermal process was investigated. $NH_4H_2PO_4$ used as a dopant source reacted with $Zn^{2+}$ ions and $Zn_3(PO_4)_2$ sediment was produced in the solution. The fact that most of the input P elements are concentrated in the $Zn_3(PO_4)_2$ sediment was confirmed using an energy dispersive spectrometer (EDS). After the hydrothermal process, ZnO NRs were synthesized and their PL peaks were exhibited at 405 and 500 nm because P atoms diffused to the ZnO crystal from the $Zn_3(PO_4)_2$ particles. The solubility of the $Zn_3(PO_4)_2$ initially formed sediment varied with the concentration of $NH_4OH$. Before annealing, both the structural and the optical properties of the P-doped ZnO NR were changed by the variation of P doping concentration, which affected the ZnO lattice parameters. At low doping concentration of phosphorus in ZnO crystal, it was determined that a phosphorus atom substituted for a Zn site and interacted with two $V_{Zn}$, resulting in a $P_{Zn}-2V_{Zn}$ complex, which is responsible for p-type conduction. After annealing, a shift of the PL peak was found to have occurred due to the unstable P doping state at high concentration of P, whereas at low concentration there was little shift of PL peak due to the stable P doping state.

Study of P-type Wafer Doping for Solar Cell Using Atmospheric Pressure Plasma (대기압 플라즈마를 이용한 P타입 태양전지 웨이퍼 도핑 연구)

  • Yun, Myoungsoo;Jo, Taehun;Park, Jongin;Kim, Sanghun;Kim, In Tae;Choi, Eun Ha;Cho, Guangsup;Kwon, Gi-Chung
    • Current Photovoltaic Research
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    • v.2 no.3
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    • pp.120-123
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    • 2014
  • Thermal doping method using furnace is generally used for solar-cell wafer doping. It takes a lot of time and high cost and use toxic gas. Generally selective emitter doping using laser, but laser is very high equipment and induce the wafer's structure damage. In this study, we apply atmospheric pressure plasma for solar-cell wafer doping. We fabricated that the atmospheric pressure plasma jet injected Ar gas is inputted a low frequency (1 kHz ~ 100 kHz). We used shallow doping wafers existing PSG (Phosphorus Silicate Glass) on the shallow doping CZ P-type wafer (120 ohm/square). SIMS (Secondary Ion Mass Spectroscopy) are used for measuring wafer doping depth and concentration of phosphorus. We check that wafer's surface is not changed after plasma doping and atmospheric pressure doping width is broaden by increase of plasma treatment time and current.

Phosphorus doping in silicon thin films using a two - zone diffusion method

  • Hwang, M.W.;Um, M.Y.;Kim, Y.H.;Lee, S.K.;Kim, H.J.;Park, W.Y.
    • Journal of Korean Vacuum Science & Technology
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    • v.4 no.3
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    • pp.73-77
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    • 2000
  • Single crystal and polycrystalline Si thin films were doped with phosphorus by a 2-zone diffusion method to develop the low-resistivity polycrystalline Si electrode for a hemispherical grain. Solid phosphorus source was used in order to achieve uniformly and highly doped surface region of polycrystalline Si films having rough surface morphology. In case of 2-zone diffusion method, it is proved that the heavy doping near the surface area can be achieved even at a relatively low temperature. SIMS analysis revealed that phosphorus doping concentration in case of using solid P as a doping source was about 50 times as that of phosphine source at 750$^{\circ}C$. Also, ASR analysis revealed that the carrier concentration was about 50 times as that of phosphine. In order to evaluate the electrical characteristics of doped polycrystalline Si films for semiconductor devices, MOS capacitors were fabricated to measure capacitance of polycrystalline Si films. In ${\pm}$2 V measuring condition, Si films, doped with solid source, have 8% higher $C_{min}$ than that of unadditional doped Si films and 3% higher $C_{min}$ than that of Si films doped with $PH_3$ source. The leakage current of these films was a few fA/${\mu}m^2$. As a result, a 2-zone diffusion method is suggested as an effective method to achieve highly doped polycrystalline Si films even at low temperature.

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