• 한국물환경학회지
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• 제22권1호
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• pp.116-121
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• 2006

Fundamental investigations have been carried out to find the applicability of manganese nodule as an adsorbent of nickel ion with an intention that nickel can be secured in manganese nodule along with the treatment of wastewater. The average content of manganese in nodules which used in the experiments was about 27%. The content of nickel in manganese nodules was observed to increase up to 4 times higher with comparison to its original value after adsorption. When the initial concentration of nickel ion in artificial wastewater was lower than 500 mg/L, its adsorbed amount on manganese nodule was shown to increase continuously. However, no more than about 82 mg/L of nickel was attained at higher initial nickel ion concentration than 500 mg/L. The adsorption of nickel ion was increased with temperature under experimental conditions and as the size of manganese nodule particles became smaller more nickel ion was adsorbed on adsorbent. Regarding the effect of pH, the adsorption of nickel ion was more hindered as the solution became acidic. Adsorption behavior of nickel ion on manganese nodule was found to follow the Freundlich model well and kinetic analysis showed that the adsorption reaction of nickel ion was second order. Thermodynamic parameters for the nickel ion adsorption were estimated on the basis of thermodynamic equations and they were in good agreement with experimental results.

• 한국물환경학회지
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• 제21권1호
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• pp.14-20
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• 2005

A feasibility study has been conducted regarding the application of waste coffee grounds as an adsorbent for the treatment of nickel ion containing wastewater. The major variables which considered to influence the adsorbability of nickel ion were its initial concentration, reaction temperature, pH, and coexisting ion. The specific surface area of coffee grounds used in the experiment was found to be ca. $39.67m^2/g$, which suggesting its potential applicability as an adsorbent due to its relatively high surface area. In the experimental conditions, more than 90% of the initial amount of nickel ion was shown to adsorb within 15 minutes and equilibrium in adsorption was attained after 3 hours. The adsorption behavior of nickel ion was well explained by Freundlich model and kinetics study showed that the adsorption reaction was second-order. Adsorption was reduced with temperature and its change of enthalpy in standard state was estimated to be -807.05 kJ/mol. Arrhenius equation was employed for the calculation of the activation energy of adsorption and nickel ion was observed to adsorb on coffee grounds exoentropically based on thermodynamic estimations. As pH rose, the adsorption of nickel ion was diminished presumably due to the formation of cuboidal complex with hydroxide ion and the coexistence of cadmium ion was found to decrease the amount of nickel ion adsorption, which was proportional to the concentration of cadmium ion.

• 대한기계학회논문집A
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• 제31권1호
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• pp.50-54
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• 2007

Nickel nano and microstructures are fabricated with simple process. The fabrication process consists of nickel deposition, lithography, nickel ion etching and plasma ashing. Well-aligned nickel nanowalls and nickel self-encapsulated microchannels were fabricated. We found that the ion etching condition as a key fabrication process of nickel nanowalls and self-encapsulated microchannels, i.e., 40 sccm Ar flow, 550 W RF power, 15 mTorr working pressure, and $20^{\circ}C$ water cooled platen without using He backside cooling unit and with using it, respectively. We present the experimental results and discuss the formational conditions and the effect of nickel redeposition on the fabrication of nickel nano and microstructures.

• 자원리싸이클링
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• 제17권1호
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• pp.59-65
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• 2008

본 연구에서는 폐건전지에 함유되어 있는 이산화망간을 재활용하는 방안을 검토하고자 니켈함유 폐수의 흡착 처리시 흡착제로서 이산화망간을 사용하여 그 특성을 조사하였다. 수중에서 니켈 이온의 거동을 MINTEQ프로그램을 이용하여 조사하고, 흡착질의 초기농도, 반응온도, 그리고 흡착제의 양 및 pH변화에 따른 흡착 특성의 변화양상을 검토하였다. 흡착실험의 결과로부터 흡착질인 $Ni^{2+}$의 초기농도가 증가할수록 흡착량이 감소함을 알 수 있었고, 온도에 따른 $Ni^{2+}$의 흡착특성을 열역학적으로 고찰하였다. 또한 흡착제인 이산화망간의 양이 증가함에 따라 흡착량이 증가하는 것으로 나타났으며, pH가 증가함에 따라 평형흡착량은 증가하는 것으로 조사되었다.

• 폴리머
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• 제27권1호
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• pp.61-68
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• 2003

본 연구에서는 도금폐수 중 니켈이온의 분리 회수를 위한 혼성 이온교환체의 제조 및 흡착 특성을 확인하였다. 니켈 흡착량은 이온교환체의 혼합비에 큰 영향이 없었으며, 비드상 이온교환수지 양이 증가할수록 증가하였다. 또한 Langmuir와 Freundlich흡착 등온식이 직선성을 보였으며 이로부터 니켈의 이온교환 친화력이 큰 것을 확인하였다. 또한 충전방식에 따른 압력손실은 다단충전법에서 적층수가 많아질수록 작아졌고, 혼합충전법에서는 비드 이온교환수지의 양이 증가할수록 압력손실은 감소하였다. 한편, 연속식 흡착실험 결과 다단충전방식의 경우 적층수가 증가할수록 초기 파괴 시간은 짧아졌으며, 최종 파괴 시간은 거의 동일한 것으로 나타났다. 반면, 혼합충전방식의 경우 이온교환섬유의 양이 증가할수록 흡착파괴 시간이 짧았으며, 이때 최대 흡착량은 각각 2.51 meq/g과 2.69 meq/g이었다. 한편, 모든 이온 교환체의 흡착된 니켈이온의 탈착은 10분 이내에 98% 이상 탈착되었다.

• 한국산업융합학회 논문집
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• 제19권4호
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• pp.198-205
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• 2016

For the study on the ion exchange of nickel hexacyanoferrate(NiHCNFe) electrode with the several cations, the film of hexacyanoferrate was prepared on the bare nickel surface by the electrochemical and chemical methods in the solution composed with 5mM K3Fe(CN)6 and 100mM KNO3. To compare the capability of the ion exchange of NiHCNFe film electrode, the repeated cyclic voltammograms were measured in the 0.5M cation nitrate solutions at $25^{\circ}C$ and pH7. It was found that the capacity of the electrochemically derivatized NiHCNFe reduced in the rate of 0.5~0.7%/cycle and was nearly exhausted at the 150th potential cycle. Better result was obtained from that the capacity loss of the chemically assembled NiHCNFe was less than 0.02%/cycle for 5,000cycles. Furthermore, the residual capacity was more than 30% at the 5,000th cycle.

• 대한화학회지
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• 제32권6호
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• pp.536-542
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• 1988

새로 합성한 N-benzylisonitrosoacetylacetone imine(CH3-CO-CNOH-CNCH2${\phi}$-CH3, 이하 H-IAA-NBz)을 리간드로 하는 Nickel(Ⅱ) 착물을 합성하고, 원소분석, 적외선흡수스펙트럼, 핵자기공명스펙트럼, 전자스펙트럼 및 질량스펙트럼등 분광학적인 자료와 자기모멘트 측정으로부터 구조를 구명하였다. 이 착물은 상온에서 매우 안정하며, cis-형 및 trans-형의 기하이성질체가 존재한다. Nickel 이온과 리간드로 1 : 2로 결합한다. 결합된 두 리간드 중 한쪽 리간드는 isonitroso기의 질소원자와 이민의 질소원자가 Nickel(Ⅱ) 이온과 결합하여 5원고리를, 다른쪽 리간드는 isoniroso기의 산소원자와 이민의 질소원자가 Nickel(Ⅱ)이온과 결합하여 6원고리를 형성하여 4각평면구조를 만들고 있다.

• 한국세라믹학회지
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• 제47권6호
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• pp.613-617
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• 2010

Ferro-Nickel slag is one of the by-products in Ferro-Nickel manufacturing process. The slag is composed of $SiO_2$, MgO, $Fe_2O_3$ and others. But the slag has been buried at landfill despite having valuable elements. This study tried to extract Mg ion and fabricate Mg compound from ferro-nickel slag using hydrochloric acid solution. Mg ion was extracted with Si, Fe and other ions in HCl solution. So reprocess was needed for gaining high purity Mg ion. It was thought that Si ion or $SiO_2$ precipitated in HCl solution and removed from solution in filtering process. Fe ion converted into $Fe(OH)_3$ after reacted with $NH_4OH$ and precipitated in HCl solution. After these process, the filtrate was composed of high purity Mg ion. $MgCl_2{\cdot}NH_4Cl{\cdot}6H_2O$ was obtained through drying of filtrate and this product was changed into MgO by burning process ($600^{\circ}C$-30 min). That is, 1st material or solution for manufacturing 2nd product was fabricated using acid dissolution method and other treatments.

• 폴리머
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• 제25권6호
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• pp.789-795
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• 2001

중금속 오염 폐수로부터 니켈 이온을 선택적으로 흡착 제거할 수 있는 섬유상 이온교환체를 합성하기 위하여 PAN계 섬유를 산과 알칼리로 가수분해하여 섬유 내에 1급, 2급 아민기 및 카르복시기(-COOH)를 도입한 섬유상 이온교환체를 합성하였다. PAN 섬유의 가수분해는 산성 용액내에서 잘 일어났으며 황산 용액 내의 $80^{\circ}C$에서 7시간 반응시킨 섬유상 이온교환체의 함수율은 최대 71.2%이었고 이 때, 이온교환용량은 1.95 meq/g이었다. 니켈 이온 흡착은 흡착 시간 50분에서 초기 흡착 평형이 1.44 meq/min이었으며, 최대 흡착 용량은 2.48 meq/g으로 나타났다. 본 연구에서 합성한 PAN계 섬유 이온교환체는 니켈 이온에 대한 흡착성이 우수한 것으로 나타났다.

• 한국재료학회지
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• 제20권11호
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• pp.592-599
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• 2010

A porous nickel-tin nano-dendritic electrode, for use as the anode in a rechargeable lithium battery, has been prepared by using an electrochemical deposition process. The adjustment of the complexing agent content in the deposition bath enabled the nickel-tin alloys to have specific stoichiometries while the amount of acid, as a dynamic template for micro-porous structure, was limited to a certain amount to prevent its undesirable side reaction with the complexing agent. The ratios of nickel to tin in the electro-deposits were nearly identical to the ratios of nickel ion to tin ion in the deposition bath; the particle changed from spherical to dendritic shape according to the tin content in the deposits. The nickel to tin ratio and the dendritic structure were quite uniform throughout the thickness of the deposits. The resulting nickel-tin alloy was reversibly lithiated and delithiated as an anode in rechargeable lithium battery. Furthermore, the resulting anode showed much more stable cycling performance up to 50 cycles, as compared to that resulting from dense electro-deposit with the same atomic composition and from tin electrodeposit with a similar porous structure. From the results, it is expected that highly-porous nickel-tin alloys presented in this work could provide a promising option for the high performance anode materials for rechargeable lithium batteries.