• 제목/요약/키워드: Radioisotope $^{63}Ni$

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63Ni 도금선원 및 베타 전지 제조 (Synthesis of Electroplated 63Ni Source and Betavoltaic Battery)

  • 엄영랑;유권모;최상무;김진주;손광재
    • 방사선산업학회지
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    • 제9권4호
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    • pp.167-170
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    • 2015
  • Radioisotope (Nuclear) battery using $^{63}Ni$ was prepared as beta cell. The electroplated $^{63}Ni$ on Ni foil is fabricated, and beta cell and photovoltaic hybrid battery was designed to use at both day and night in space project. A Ni-plating solution is prepared by dissolving metal particles including $^{62}Ni$ and $^{63}Ni$ from neutron irradiation of ($n,{\gamma}$). Electroplating solution of a chloride bath consists on nickel ions in HCl, $H_3BO_3$, and KOH. The deposition was carried out at current density of $10mA\;cm^{-2}$. The prepared beta source was attached on a PN junction and measured I-V properties. The power output at activity of 0.07 mCi and 0.45 mCi were 0.55 pW and 2.69 nW, respectively.

Study of a Betavoltaic Battery Using Electroplated Nickel-63 on Nickel Foil as a Power Source

  • Uhm, Young Rang;Choi, Byoung Gun;Kim, Jong Bum;Jeong, Dong-Hyuk;Son, Kwang Jae
    • Nuclear Engineering and Technology
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    • 제48권3호
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    • pp.773-777
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    • 2016
  • A betavoltaic battery was prepared using radioactive $^{63}Ni$ attached to a three-dimensional single trenched P-N absorber. The optimum thickness of a $^{63}Ni$ layer was determined to be approximately $2{\mu}m$, considering the minimum self-shielding effect of beta particles. Electroplating of radioactive $^{63}Ni$ on a nickel (Ni) foil was carried out at a current density of $20mA/cm^2$. The difference of the short-circuit currents ($I_{sc}$) between the pre- and post-deposition of $^{63}Ni$ (16.65 MBq) on the P-N junction was 5.03 nA, as obtained from the I-V characteristics. An improved design with a sandwich structure was provided for enhancing performance.

Measurement of low energy beta radiation from Ni-63 by using peeled-off Gafchromic EBT3 film

  • Ji, Wanook;Kim, Jong-Bum;Kim, Jin-Joo
    • Nuclear Engineering and Technology
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    • 제54권10호
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    • pp.3811-3815
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    • 2022
  • Ni-63 is pure beta source which emits low energy beta particles. The Ni-63 sources were fabricated to develop the beta-voltaic battery which converts decay energy into electrical energy for power generation. Activity distribution of the source was important factor of power producibility of the beta-voltaic battery. Liquid scintillation counter widely used for measurement of low energy beta emitters was not suitable to measure activity distribution. In this study, we used the peeled-off Gafchromic™ EBT3 film to measure the activity distribution of the Ni-63 source. Absorbed dose was increased proportionally to the source activity and exposure duration. The low energy beta particles could transport the energy into the active layer without the polyester protective layer. Also, Activity distribution was measured by using the peeled-off EBT3 film. Two-dimensional dosimetric distribution was suitable to measure the activity distribution. To use the peeled-off EBT3 film is user-friendly and cost-effective method for quality assurance of the Ni-63 sources for the beta-voltaic battery.

63Ni in beta voltaic battery

  • Kim, Jin Joo;Uhm, Young Rang;Son, Kwang Jae
    • 한국자기학회:학술대회 개요집
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    • 한국자기학회 2014년도 자성 및 자성재료 국제학술대회
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    • pp.176-176
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    • 2014
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소형 전기도금장치를 이용한 베타전지용 Ni-63 밀봉선원 제작 (Manufacturing of Ni-63 Sealed Source for Betavoltaic Battery Using the Small-scale Electroplating Device)

  • 김진주;최상무;손광재;홍진태
    • 방사선산업학회지
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    • 제11권3호
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    • pp.173-179
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    • 2017
  • The small-scale electroplating device was designed and fabricated for Ni-63 sealed source (foil type) with a high specific activity needed for production of betavoltaic battery. The condition of Ni electroplating was optimized by using fabricated electroplating device to establish a Ni-63 electroplating condition on the Ni foil. The results showed that the optimum surface morphology and thickness of Ni deposit was obtained for 1,758 seconds at a current density of $15mA{\cdot}cm^{-2}$ with 0.5% tween 20. Radioisotope Ni-63 electroplating was implemented under established condition. The radioactivity of Ni-63 sealed source was calculated to $28mCi{\cdot}cm^{-2}$, and the thickness of Ni-63 deposit was about $2.4{\mu}m$.

A nuclear battery based on silicon p-i-n structures with electroplating 63Ni layer

  • Krasnov, Andrey;Legotin, Sergey;Kuzmina, Ksenia;Ershova, Nadezhda;Rogozev, Boris
    • Nuclear Engineering and Technology
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    • 제51권8호
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    • pp.1978-1982
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    • 2019
  • The paper presents the electrical performance measurements of a prototype nuclear battery and two types of betavoltaic cells. The electrical performance was assessed by measuring current-voltage properties (I-V) and determining the short-circuit current and the open-circuit voltage. With 63Ni as an irradiation source, the open-circuit voltage and the short-circuit current were determined as 1 V and 64 nA, respectively. The prototype consisted of 10 betavoltaic cells that were prepared using radioactive 63Ni. Electroplating of the radioactive 63Ni on an ohmic contact (Ti-Ni) was carried out at a current density of 20 mA/㎠. Two types of betavoltaic cells were studied: with an external 63Ni source and a 63Ni-covered source. Under irradiation of the 63Ni source with an activity of 10 mCi, the open-circuit voltage Voc of the fabricated cells reached 151 mV and 109 mV; the short-circuit current density Jsc was measured to be 72.9 nA/cm2 and 64.6 nA/㎠, respectively. The betavoltaic cells had the fill factor of 55% and 50%, respectively.

베타전지용 PN 접합 반도체 표면에 도금된 Ni 후막의 특성 (Characteristics of Electroplated Ni Thick Film on the PN Junction Semiconductor for Beta-voltaic Battery)

  • 김진주;엄영랑;박근용;손광재
    • 방사선산업학회지
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    • 제8권3호
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    • pp.141-146
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    • 2014
  • Nickel (Ni) electroplating was implemented by using a metal Ni powder in order to establish a $^{63}Ni$ plating condition on the PN junction semiconductor needed for production of beta-voltaic battery. PN junction semiconductors with a Ni seed layer of 500 and $1000{\AA}$ were coated with Ni at current density from 10 to $50mA\;cm^{-2}$. The surface roughness and average grain size of Ni deposits were investigated by XRD and SEM techniques. The roughness of Ni deposit was increased as the current density was increased, and decreased as the thickness of Ni seed layer was increased. The results showed that the optimum surface shape was obtained at a current density of $10mA\;cm^{-2}$ in seed layer with thickness of $500{\AA}$, $20mA\;cm^{-2}$ of $1000{\AA}$. Also, pure Ni deposit was well coated on a PN junction semiconductor without any oxide forms. Using the line width of (111) in XRD peak, the average grain size of the Ni thick firm was measured. The results showed that the average grain size was increased as the thickness of seed layer was increased.

Evaluation of a betavoltaic energy converter supporting scalable modular structure

  • Kang, Taewook;Kim, Jinjoo;Park, Seongmo;Son, Kwangjae;Park, Kyunghwan;Lee, Jaejin;Kang, Sungweon;Choi, Byoung-Gun
    • ETRI Journal
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    • 제41권2호
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    • pp.254-261
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    • 2019
  • Distinct from conventional energy-harvesting (EH) technologies, such as the use of photovoltaic, piezoelectric, and thermoelectric effects, betavoltaic energy conversion can consistently generate uniform electric power, independent of environmental variations, and provide a constant output of high DC voltage, even under conditions of ultra-low-power EH. It can also dramatically reduce the energy loss incurred in the processes of voltage boosting and regulation. This study realized betavoltaic cells comprised of p-i-n junctions based on silicon carbide, fabricated through a customized semiconductor recipe, and a Ni foil plated with a Ni-63 radioisotope. The betavoltaic energy converter (BEC) includes an array of 16 parallel-connected betavoltaic cells. Experimental results demonstrate that the series and parallel connections of two BECs result in an open-circuit voltage $V_{oc}$ of 3.06 V with a short-circuit current $I_{sc}$ of 48.5 nA, and a $V_{oc}$ of 1.50 V with an $I_{sc}$ of 92.6 nA, respectively. The capacitor charging efficiency in terms of the current generated from the two series-connected BECs was measured to be approximately 90.7%.