• Journal of the Korean Ceramic Society
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• v.37 no.10
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• pp.955-961
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• 2000

사티탄산칼륨을 리튬이온 전지의 양극재료로써 사용하고자 할 때 사티탄산칼륨의 합성 열처리 온도가 리튬이온 치환량에 미치는 영향에 대해 조사하였다. 사티탄산칼륨은 $K_2$O와 TiO$_2$의 몰 비를 1 : 3.91로 칭량하여 95$0^{\circ}C$, 100$0^{\circ}C$, 105$0^{\circ}C$에서 각각 합성하였다. 그 후, 사티탄산칼륨의 (Ti$_4$O$_{9}$ )$^{2-}$ 층간에 존재하는 $K^{+}$ 이온을 H$^{+}$ 이온으로 치환하고 이것을 다시 Li$^{+}$ 이온으로 치환하였다. 사티탄산칼륨의 합성 열처리 온도가 증가할수록 사티탄산칼륨의 (Ti$_4$O$_{9}$ )$^{2-}$ 층간의 거리가 감소했고 사티탄산칼륨의 길이가 증가했다. 95$0^{\circ}C$에서 열처리된 사티탄산칼륨의 리튬이온 치환량이 가장 많았다. 이는 상대적으로 낮은 합성 열처리 온도에서 사티탄산칼륨의 (Ti$_4$O$_{9}$ )$^{2-}$ 층간의 거리가 넓어져 리튬이온의 층간 이동이 쉬어졌고, 고온에서 열처리되어 길이가 긴 사티탄산칼륨에 비해 저온에서 열처리된 사티탄산칼륨은 길이가 짧아져 리튬이온이 (Ti$_4$O$_{9}$ )$^{2-}$ 층간으로 이동해 가는 거리가 짧아졌으며 아울러 짧은 사티탄산칼륨의 개수가 동일한 무게 당긴 사티탄산칼륨의 개수보다 많으므로 리튬이온의 치환량이 많아진다고 사료된다.

• 비료회보
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• s.570
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• pp.10-20
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• 2005

아시아는 세계 칼륨의 3분의 1 이상을 소비한다. 그러나 칼륨 생산에 있어서는 자체 생산이 세계 어느 곳에도 뒤떨어지지 않는다. 아시아 대륙의 많은 곳에서 문제가 커지고 있는 칼륨 비료 부족과 함께 중국과 특히 태국의 새로운 광산 개발은 아시아의 칼륨 비료 시장을 근본적으로 변화시킬 수 있는 잠재력을 갖고 있다.

• Proceedings of the Korea Institute of Fire Science and Engineering Conference
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• 2013.04a
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• pp.158-159
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• 2013

방염제인 인산암모늄에 질산칼륨을 첨가하여 질산칼륨이 인산암모늄의 방염성능에 미치는 영향을 DSC와 실체현미경으로 분석하였다. 활성화에너지는 키싱거방법을 도입하여 분석하였다. 방염성능 실험으로서 셀룰로스를 연료로 사용하였다. 질산칼륨이 일정량 첨가된 방염제를 사용하는 경우 인산암모늄의 활성화에너지를 높이고 탄화면적을 감소시켜 연소확대를 억제하였다. 방염제인 질산칼륨이 첨가된 인산염을 방염제로 사용하는 경우 질산칼륨의 강한 산화력으로 화염발생 온도를 낮추고 탄화형성을 억제하여 화재진행 속도를 낮추는 것으로 나타났다. 적정량 이하의 질산칼륨이 포함된 방염제의 처리는 연소속도를 높이고 탄화물형성을 감소시킬 수 있음을 제시하였다.

• Korean Journal of Soil Science and Fertilizer
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• v.27 no.3
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• pp.179-188
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• 1994

This study was conducted to investigate the distribution of potassium fractions and to establish the soil chemical indices for assessing potassium availability in upland soil. Soil samples were collected from 66 vegetable crop fields of Chungbuk Jungweon, Jeonbuk Imsil and Kyengbuk Euiseong and these samples were analyzed water soluble(W. S. -K), exchangeable(Exch. -K) and nonexchangeable potassium(Nonex. -K). The distribution of potassium fractions was examined for soils having different physico-chemical properties and compared with the soil parameters related to the potassium availability. 1. The distribution ranges of W.S.-K, Exch.-K and Nonex.-K were 0.07~1.42, 0.27~2.30, and 0.84~4.74me/100g, and average contents of relevent fractions were 0.40, 1.03 and 2.37me/100g respectively. 2. Contents of W.S.-K and Exch.-K were decreased with increasing soil pH, CEC, Exch. Ca and Exch. Mg contents but Nonex. -K showed a low correlationship with these factors. 3. Exch.-K content slightly inereased with increasing clay content, while W.S.-K and Nonex. -K contents were grandually decreased with clay contents. 4. The relationship between W.S.-K and Exch.-K was significant and W.S.-K was released from soil at 0.23me/100g content of Exch.-K 5. Contents of W.S-K and Exch.-K showed high correlationship with soil chemical parameters such as ratio of exchangeable cations(K/Ca+Mg), ratio of exchangeable cation equivalent[$K/{\sqrt{Ca+Mg}}:(me/100g)^{1/2}$], potassium exchangeable free energy(${\Delta}F=RT$ 1n $K/{\sqrt{Ca+Mg}}$ : calories/mole) and saturation percentage of potassium($Exch.K/CEC{\times}100$), and these factors were considered to be good parameters for assessing soil potassium availability.

• Journal of Nutrition and Health
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• v.47 no.1
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• pp.33-44
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• 2014

Purpose: Elevated serum phosphorus and potassium levels are a major problem for hemodialysis (HD) patients. Hyperphosphatemia and hyperkalemia are closely related to intake of dietary phosphorus and potassium. Methods: This study was conducted in order to investigate the effects of food consumed on serum phosphorus and potassium levels in 48 HD patients (20 males and 28 females). We collected anthropometric data, biochemical parameters, and dietary data of the subjects. Dietary data for usual intake were obtained by use of a food-frequency questionnaire (FFQ) consisting of 21 food items. Results: The mean body mass index (BMI) was $22.2{\pm}3.0kg/m^2$, mean serum phosphorus level was $4.50{\pm}1.52mg/dl$, and mean serum potassium level was $4.74{\pm}0.73mEq/l$. Hyperphosphatemia (> 4.5 mg/dl) was found in 45.8% of subjects, and hyperkalemia (> 5.0 mEq/l) in 35.4%. Subjects who took medication only were 56% of total, and those who took medication with dietary therapy were 27%. Patients with medication and dietary therapy showed significantly lower serum phosphorus levels compared to patients with medication only (p < 0.05). Mean duration of HD was $7.9{\pm}7.3$ years and it showed positive correlation with serum potassium levels (p < 0.05). Serum phosphorus levels showed positive correlation with intake of mixed grains and soybean milk (p < 0.05). Serum potassium levels showed positive correlation with intake of mixed grains (p < 0.01), potatoes, fish, and high-potassium vegetables (p < 0.05). On the other hand, intake of white rice showed negative correlation with serum potassium levels (p < 0.05). Conclusion: The results of our study suggest that intake of white rice rather than mixed grains is an important factor in sustaining normal serum phosphorus and potassium levels. In addition, limiting intake of soybean milk, potatoes, and fish to under three serving per week is recommended. Finally, conduct of a strict dietary therapy along with medical treatment is desirable because inappropriate food intake increases serum phosphorus and potassium levels to a higher than normal range.

• Childhood Kidney Diseases
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• v.14 no.2
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• pp.132-142
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• 2010

Hypokalemia usually reflects total body potassium deficiency, but less commonly results from transcellular potassium redistribution with normal body potassium stores. The differential diagnosis of hypokalemia includes pseudohypokalemia, cellular potassium redistribution, inadequate potassium intake, excessive cutaneous or gastrointestinal potassium loss, and renal potassium wasting. To discriminate excessive renal from extrarenal potassium losses as a cause for hypokalemia, urine potassium concentration or TTKG should be measured. Decreased values are indicative of extrarenal losses or inadequate intake. In contrast, excessive renal potassium losses are expected with increased values. Renal potassium wasting with normal or low blood pressure suggests hypokalemia associated with acidosis, vomiting, tubular disorders or increased renal potassium secretion. In hypokalemia associated with hypertension, plasam renin and aldosterone should be measured to differentiated among hyperreninemic hyperaldosteronism, primary hyperaldosteronism, and mineralocorticoid excess other than aldosterone or target organ activation. Hypokalemia may manifest as weakness, seizure, myalgia, rhabdomyolysis, constipation, ileus, arrhythmia, paresthesias, etc. Therapy for hypokalemia consists of treatment of underlying disease and potassium supplementation. The evaluation of hyperkalemia is also a multistep process. The differential diagnosis of hyperkalemia includes pseudohypokalemia, redistribution, and true hyperkalemia. True hyperkalemia associated with decreased glomerular filtration rate is associated with renal failure or increased body potassium contents. When glomerular filtration rate is above 15 mL/min/$1.73m^2$, plasma renin and aldosterone must be measured to differentiate hyporeninemic hypoaldosteronism, primary aldosteronism, disturbance of aldosterone action or target organ dysfunction. Hyperkalemia can cause arrhythmia, paresthesias, fatigue, etc. Therapy for hyperkalemia consists of administration of calcium gluconate, insulin, beta2 agonist, bicarbonate, furosemide, resin and dialysis. Potassium intake must be restricted and associated drugs should be withdrawn.

• Proceedings of the Korea Society for Energy Engineering kosee Conference
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• 1995.11a
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• pp.71-74
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• 1995

티타니아계의 흡착제로 최근 주목을 끄는 것은 티탄산칼륨 신소재를 들을 수 있다. 모서리의 chains sharing들과 b축을 따라서 TiO$_{6}$, 즉 8면체의 coner 결합으로 특징 지워지는 티탄산칼륨은 $K_2$O.nTiO$_2$로 표시되는 화합물로 플라스틱의 보강재나 단열재료 용도로 사용되었다. 공업재료로서 중요한 것은 n의 값이 2, 4, 6으로 각각 2티탄산칼륨(K$_2$Ti$_2$O$_{5}$), 4티탄산칼륨(K$_2$Ti$_4$O$_{9}$), 6티탄산칼륨(K$_2$Ti$_{6}$O$_{13}$)으로 불린다. 티탄산칼륨은 기계적 강도가 고강도재료 지르코이나에 해당하고 선팽창계수는 알루미나보다 작아 우수한 내열 및 단열 고강도재료이며 융막재, 이온교환재등으로 쓰인다. 층상구조의 티탄산칼륨을 산처리하여 칼륨을 추출하고 수소이온으로 치환한 결정질 티탄산칼륨 섬유(H$_2$Ti$_4$O$_{9}$.1.2~1.3$H_2O$)는 (H$^{-}$. H$_3$O$^{+}$)Ti$_4$O$_{9}$의 형태를 지니게 된다.

• Journal of The Korean Society of Grassland and Forage Science
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• v.13 no.3
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• pp.184-189
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• 1993

Orchardgrass(Dactylis glomerata L.) hays, which had been harvested in different seasons and grown with different levels of potassium (K)fertilizer, were fed to foats in metabolic cages in order to know the effect forage mineral content on mineral balance of goats. The K contents of the feed were 3.4, 4.9 and 5.8% and magnesium (Mg) contents were 0.26, 0.21 and 0.21% on a det matter(DM) basis in K-low, K0medium and K-high treatments, respectively. Urinary K excretion was significantly more on K-high than on K-low treatment. Faecal and urinary Mg excrerions on K-low were higher than those on K-medium and K-high feeds. And there was a tendency of positive relation between urinary Mg excretion and serum Mg concentrarion. Goats on K-high treatment seemed to drink more water and excrete more urine than those on the other feeds.

• Asian Journal of Turfgrass Science
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• v.23 no.1
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• pp.133-142
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• 2009

This study was initiated to evaluate the K leaching potential in the green soils and K uptake by the turfgrass in the golf course using the K fertilizers. The turfgrass, Floradwarf bermudagrass(Cynodon dactylon L. $P_{ERS}$.) was planted and grown in the mixture of sand and peat moss in this lysimeter study. Eight representative K fertilizers, such as, monopotassium phosphate (MKP), KCL, $K_2SO_4$, $KNO_3$, CKCl, $CK_2SO_4$, $CKNO_3$, and 0-20-20(liquid) were used in this study. Based on the total K quantity of leachate collected during the whole 12 weeks, 0-20-20 is the K fertilizers the most contributing to the leaching of K, then MKP, the second, KCL, the third, and finally $KNO_3$ are K fertilizers contributing to the K leaching. However, most amount of K applied and collected in the lysimeter were leached during the first period of two and four weeks, compared to that of K leached during the second period of six, eight, ten, and twelve weeks. Application of CKCL and $CK_2SO_4$ producted the largest amount of total dry matter, then MKP and KCL, $KNO_3$ and $CKNO_3$, 0-20-20 in second group. However, except $K_2SO_4$, most K fertilizer sources such as MKP, KCL, $KNO_3$, CKCL, $CK_2SO_4$, $CKNO_3$, 0-20-20 showed the largest amount of K uptake, except $K_2SO_4$. Therefore, based on the K leaching, dry matter production, and plant K uptake, it appears that the coated fertilizers, CKCL, $CKNO_3$, and $CK_2SO_4$ are the environmentally sound fertilizers recommended in the turfgrass green soil of golf course.

• Journal of Life Science
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• v.19 no.10
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• pp.1484-1488
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• 2009

Familial hypokalemic periodic paralysis (HOKPP) is an autosomal dominant muscle disorder characterized by episodic attacks of muscle weakness with concomitant hypokalemia. Mutations in either a calcium channel gene (CACNA1S) or a sodium channel gene (SCN4A) have been shown to be responsible for this disease. The combination of sarcolemmal depolarization and hypokalemia has been attributed to abnormalities of the potassium conductance governing the resting membrane potential. To understand the pathophysiology of this disorder, we examined both mRNA and protein levels of delayed rectifier potassium channel genes, KCNQ3 and KCNQ5, in skeletal muscle fibers biopsied from patients with HOKOur results showed an increase in the cytoplasmic level of KCNQ3 protein in patients' cells exposed to 50 mM external concentration of potassium. However, mRNA levels of both channel genes did not show significant change in the same condition. Our results suggest that long term exposure of skeletal muscle cells in HOKPP patients to high extracellular potassium alters the KCNQ3 localization, which could possibly hinder the normal function of this channel protein. These findings may provide an important clue to understanding the molecular mechanism of familial hypokalemic periodic paralysis.