• Title/Summary/Keyword: nano-Pb/AC

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Electrochemical Characteristics of Ultra Battery Anode Material using the Nano Pb/AC for ISG (나노 납/활성탄을 사용한 ISG용 울트라 전지 음극소재의 전기화학적 특성)

  • Hwang, Jin Ung;Lee, Jong Dae
    • Korean Chemical Engineering Research
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    • v.55 no.5
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    • pp.593-599
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    • 2017
  • In order to enhance ultra battery performances, the electrochemical characteristics of nano Pb/AC anode composite was investigated. Through nano Pb adsorption onto activated carbon, nano Pb/AC was synthesized and it was washed under vacuum process. The prepared anode materials was analysed by SEM, BET and EDS. The specific surface area and average pore size of nano Pb/AC composite were $1740m^2/g$ and 1.95 nm, respectively. The negative electrode of ultra battery was prepared by nano Pb/AC dip coating on lead plate. The electrochemical performances of ultra battery were studied using $PbO_2$ (the positive electrode) and prepared nano Pb/AC composite (the negative electrode) pair. Also the electrochemical behaviors of ultra battery were investigated by charge/discharge, cyclic voltammetry, impedance and rate capability tests in 5 M $H_2SO_4$ electrolyte. The initial capacity and cycling performance of the present nano Pb/AC ultra battery were improved with respect to the lead battery and the AC-coated lead battery. These experimental results indicate that the proper addition of nano Pb/AC into the negative electrode can improve the discharge capacity and the long term cycle stability and remarkably suppress the hydrogen evolution reaction on the negative electrode.

Electrochemical Characteristics of Electrolyte Additives and Nano-Pb/AC Anode for Ultra Batteries (울트라 배터리 용 전해액 첨가제와 Nano-Pb/AC 음극의 전기화학적 특성)

  • Kim, Geun Joong;Lee, Jong Dae
    • Applied Chemistry for Engineering
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    • v.29 no.5
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    • pp.549-555
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    • 2018
  • In this study, the electrochemical properties of nano-Pb/activated carbon (nano-Pb/AC) composites and electrolyte additives were examined to improve the performance of ultra batteries. Physical properties of the prepared nano-Pb/AC composites were analyzed using FE-SEM, TEM, XPS and BET. The electrochemical performances of ultra batteries were performed by cycle, rate performance and impedance tests. The cycling performance of nano-Pb/AC (Pb : 9 wt%) coated ultra battery increased by 150% with respect to the lead acid one, and the discharge specific capacity increased by 119-122% for 1-5 C rate tests. As a result of the impedance test, it was confirmed that the internal resistance decreased as the nano lead content increased. The cycle performance of the ultra battery containing 0.45 vol% electrolyte additives showed 140% longer than that of no electrolyte additives.

A Study on the Magnetoelectric Effect in Lanthanum Modified BiFeO3−PbTiO3 Ceramics (Lanthanum이 첨가된BiFeO3−PbTiO3 세라믹스의 전자효과에 대한 연구)

  • Lee, Eun-Gu;Kim, Sun-Jae;Lee, Jae-Gab
    • Journal of the Korean Ceramic Society
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    • v.44 no.6 s.301
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    • pp.308-312
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    • 2007
  • Ferroelectric, magnetic, and magnetoelectric effects for lanthanum modified $BiFeO_3-PbTiO_3$ ceramics have been investigated. The data show that magnetoelectric polarization coefficient, ${\alpha}_p$ is due to a linear coupling between polarization and magnetization, and that ${\alpha}_p$ is independent of dc magnetic bias and ac magnetic field. The values of ${\alpha}_p$ and magnetic induced susceptibility for lanthanum modified $BiFeO_3-PbTiO_3$ ceramics are much larger than those of single $BiFeO_3$ crystal. We believe that the magnetoelectric effect is significantly enhanced by breaking of the cycloidal spin state of a long-period spiral spin structure due to randomly distributed charged imperfections.

Magnetoelectric Effects in (Bi,La)FeO3-PbTiO3 Ceramics ((Bi,La)FeO3-PbTiO3 세라믹스의 자전효과)

  • Lee Eun Gu;Lee Jong Kook;Jang Woo Yang;Kim Sun Jae;Lee Jae Gab
    • Korean Journal of Materials Research
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    • v.15 no.2
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    • pp.121-125
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    • 2005
  • Magnetoelectric (ME) effects for lanthanum modified $BiFeO_3-PbTiO_3\;(BE-_xPT)$ solid solutions have been investigated. The value of magnetoelectric polarization coefficient, up is 10 times greater than that of $Cr_2O_3$. The results also show that up is due to a linear coupling between polarization and magnetization, and that up is independent of do magnetic bias and ac magnetic field. The ME effect is believed to be significantly enhanced due to breaking of the cycloidal spin state of a long-period spiral spin structure, via randomly distributed charged imperfections.