FINE WATER CLUSTER, METHOD OF USING FINE WATER CLUSTER FOR HEMODIALYSIS, METHOD OF ADJUSTING HEMODIALYSIS FLUID, AND METHOD OF USING FINE WATER CLUSTER FOR POLYMERASE CHAIN REACTION
PROBLEM TO BE SOLVED: To provide a fine water cluster having better dispersion and absorption rate and being good for health, to provide methods of using the fine water cluster for hemodialysis, to provide methods of adjusting hemodialysis fluid, and to provide methods of using the fine water cluster for polymerase chain reaction.SOLUTION: The fine water cluster has one property among (a) Raman band of deconvolution spectrum in OH vibration of water, (b) the characteristic peak (about 3,090 to 3,310 cm-1) of triple hydrogen bond in an infrared spectrum of a water molecule, (c) the evaporation rate of the fine water cluster, (d) the solubility of sodium chloride in the fine water cluster at about 22.8°C under about 1 atmosphere, (e) the maximum dissolved oxygen content in the fine water cluster at about 1 atm and 22.8°C, (f) the solubility of PEG400 of the fine water cluster, and (g) the saturated vapor pressure at the temperature of 25°C of the fine water cluster.SELECTED DRAWING: Figure 1COPYRIGHT: (C)2020,JPO&INPIT【課題】より優れた分散力および吸収率を有する、健康に良い微小水クラスタ、その微小水クラスタを血液透析に用いる方法、血液透析液を調整する方法、および、その微小水クラスタをポリメラーゼ連鎖反応に用いる方法を提供する。【解決手段】微小水クラスタは、(a)水のOH振動におけるデコンボリューションスペクトルのラマンバンド、(b)水分子の赤外スペクトルにおける三重水素結合の特性ピーク(約3090~3310cm-1)、(c)微小水クラスタの蒸発率、(d)約1気圧下、約22.8℃での前記微小水クラスタ中の塩化ナトリウムの溶解度、(e)約1気圧下、22.8℃での前記微小水クラスタ中の最大溶存酸素量、(f)微小水クラスタのPEG400における溶解度、(g)微小水クラスタの温度25℃における飽和蒸気圧のうちの特徴の1つを有する。【選択図】図1
