NEW CONCEPTS FOR CHANGE IN CHARGE CHARACTERISTICS OF ALLOPHANE WITH-PHOSPHATE ADSORPTION
スポンサーリンク
概要
- 論文の詳細を見る
Observed changes in the amounts of negative and positive charges of allophane with phosphate adsorption (NaH_2PO_4 in NaCl with total [Na]=10mM)were each divided into two components.One is due to increase in solution pH, variable charge characteristics, and the other is net effect caused by the adsorbed phosphate.The net effect increased negative charge and decreased positive charge of allophane.To explain the net effect, we assumed that OH^- was initially released from allophanephosphate adsorption complex just the same amount as the adsorbed H_2PO_4^-.This situation is comparable with that when the same amount of NaOH was added to original allophane.Then, we compared the reaction of the OH^- with functional groups, Si-OH, Al-OH_2^+ and P-OH, between the two situations.The comparison indicated that the functional groups of the adsorption complex had more abilities to react with the OH^- than those of the original allophane.Inductive effect of the adsorbed phosphate which accelerated deprotonation reaction of inherent functional groups of allophane, Si-OH and Al-OH_2^+, was suggested.
- 日本粘土学会の論文
著者
-
Henmi Teruo
Faculty Of Agricultural Ehime University
-
Matsue N
Ehime Univ.
-
Matsue Naoto
Faculty Of Agricultural Ehime University
-
Erni Johan
Faculty Of Agriculture Ehime University
-
Henmi T
Faculty Of Agriculture Ehime University
関連論文
- ADSORPTION OF WATER ON NANO-BALL ALLOPHANE AS AFFECTED BY HEAT TREATMENT
- Adsorption of Water on Nano-ball Allophane(Soil and Non-Crystalline Clays,Proceedings of the 13^ International Clay Conference)
- Validity of Proposed Model for the Chemical Structure of Allophane with Nano-ball Morphology(Soil and Non-Crystalline Clays,Proceedings of the 13^ International Clay Conference)
- MOLECULAR ORBITAL ANALYSIS ON THE DISSOLUTION OF NANO-BALL ALLOPHANE UNDER ALKALINE CONDITION
- DISSOLUTION MECHANISM OF NANO-BALL ALLOPHANE WITH DILUTE ALKALI SOLUTION
- B1 DISSOLUTION OF ALLOPHANE WITH ALKALINE SOLUTION
- FORMATION OF IMOGOLITE AND ALLOPHANE IN SHATTERED SANDSTONE UNDERLYING BROWN FOREST SOIL
- ADSORPTION MECHANISM OF Pb ON PAPER SLUDGE ASH TREATED BY NaOH HYDROTHERMAL REACTUION
- COMPARISON OF AN OXALATE-EXTRACTION METHOD AND AN INFRARED SPECTROSCOPIC METHOD FOR DETERMINING ALLOPHANE IN SOIL CLAYS
- Chemical and Mineralogical Properties of Volcanic Ash Soils from Java
- Chemistry and Mineralogy of Some Soils from Indonesia
- P29 Formation of Na-X zeolite from paper sludge ash and its application for toluene adsorption
- B20 Synthesis of CeO_2-ZSM-11 Nanocomposite from Inorganic Silicon Source and its Characterization
- 4-4 Synthesis of TiO2-Zeolite Nano Composite and Its Application for VOCs Adsorption
- P37 Synthesis of TiO_2-High Silica Zeolite from Waste Materials and its Photo-Catalytic Properties
- A11 Change in Surface Acidity of Allophane upon P Adsorption and its Mechanism Analysis by Molecular Orbital Method
- A11 Change in surface acidity of allophane upon P adsorption and its Mechanism Analysis by Molecular Orbital Method
- 4-10 Change in Dispersion and Flocculation Properties of Allophane with P adsorption
- 4-7 Novel Mechanism of Change in Charge Characteristics of Allophane Associated with Phosphate Adsorption
- 4-3 Modification of chemical properties of clays with adsorption of oxoacids
- P69. Fate of Surface Charge Induced by P Adsorption on Allophane (Abstracts of Paper Presented at the 1998 Annval Meeting)
- P69 Fate of Surface Charge Induced by P Adsorption on Allophane
- 4-7 Characterization and Mechanism in Surface Charge Induced Allophane by P Adsorption
- PHOSPHATE ADSORPTION ON NANO-BALL ALLOPHANE AND ITS MOLECULAR ORBITAL ANALYSIS
- A17 Effect of Si/Al ratio of allophane on adsorption of phosphate and oxalate
- P33 Lead adsorption on montmorillonite as affected by coexisting phosphate
- A15 Competitive adsorption of oxalate and phosphate on allophane at low concentration
- B20.P44. Change in surface acidity of nano-ball allophane by B adsorption (Abstracts of Paper Presented at the 1998 Annval Meeting)
- 4-8 Boron adsorption and change in CEC of nano-ball allophane by the adsorption
- Boron adsorption on allophane with nanoball morphology
- 4-7 Competitive Adsorption of Phosphate with Oxalate on Nano-ball Allophane
- A12 Change in Surface Charge Properties of Nano ball Allophane as Influenced by Sulfate Adsorption
- CHARGE CHARACTERISTICS MODIFICATION MECHANISMS OF NANO-BALL ALLOPHANE UPON ORTHOSILICIC ACID ADSORPTION
- CHANGE IN SURFACE CHARGE PROPERTIES OF NANO-BALL ALLOPHANE AS INFLUENCED BY SULFATE ADSORPTION
- A12 CHANGE IN SURFACE CHARGE PROPERTIES OF NANO-BALL ALLOPHANE AS INFLUENCED BY SULFATE ADSORPTION
- ADSORPTION MECHANISMS OF COPPER AND ZINC ON NANO-BALL ALLOPHANE
- 4-13 Effect of Sulfate Adsorption on the Surface Charge Properties of Nano-ball Allophane
- 4-11 Effect of Zinc Adsorption on some Surface Charge Characteristics of Nano-Ball Allophane
- B5 Orthosilicic Acid Adsorptive and Some Surface Property Modification Mechanisms of Nano-Ball allophane
- B3 ADSORPTION OF SOME HEAVY METALS ON NANO-BALL ALLOPHANE
- B2 Sulfate and Nitrate Adsorption on Nano-ball Allophane
- ZINC ADSORPTION ON NANO-BALL ALLOPHANES WITH DIFFERENT Si/Al RATIOS
- CHANGE IN CHARGE CHARACTERISTICS OF ALLOPHANE WITH ADSORPTION OF LOW MOLECULAR WEIGHT ORGANIC ACIDS
- B14 Surface Charge Characteristics of Allophane as Affected by Some Organic Compounds Adsorption
- B3 ADSORPTION OF SULFATE ON NANO-BALL ALLOPHANE
- B2 Adsorption of Orthosilicic Acid on Some Poorly Ordered Aluminosilicates
- 4-13 ADSORPTION MECAHNISM OF SOME ORGANIC ANIONS ON NANO-BALL ALLOPHANE
- ADSORPTIVE MECHANISMS OF ORTHOSILICIC ACID ON NANO-BALL ALLOPHANE
- B15. The Adsorption of Some Selected Organic Compounds on Nano-Ball Allophane (Abstract of Paper Presented at the 1999 Annual Meeting)
- ADSORPTION OF SOME LOW MOLECULAR WEIGHT ORGANIC ACIDS ON NANO-BALL ALLOPHANE
- 4-2 Chemical and Thermal Changes in Allophane by Some Organic Acids and Their Salts
- NEW CONCEPTS FOR CHANGE IN CHARGE CHARACTERISTICS OF ALLOPHANE WITH-PHOSPHATE ADSORPTION
- A5.P61. Dissolution of Al and Si from Allophane by some organic solutions (Abstracts of Paper Presented at the 1998 Annval Meeting)
- B20 Change in surface acidity of nano-ball allophane by B adsorption
- A5 Dissolution of Al and Si from Allophane by Some Organic Solutions
- 4-10 Reaction of Allophane with Selected Organic Acids and Their Salts
- ADSORPTION OF SULFATE AND NITRATE ON NANO-BALL ALLOPHANE
- BORON ADSORPTION ON ALLOPHANE WITH NANO-BALL MORPHOLOGY
- ADSORPTION OF MOLYBDATE ON NANO-BALL ALLOPHANE
- A9 Effect of Temperature on Dissolution of Allophane with Alkaline Solution
- INFLUENCE OF NaOH CONCENTRATIONS DISSOLVED IN SEAWATER AND HYDROTHERMAL TEMPERATURES ON THE SYNTHESIS OF ARTIFICIAL ZEOLITE FROM COAL FLY ASH
- EFFECT OF MOLYBDATE ADSORPTION ON SOME SURFACE PROPERTIES OF NANO-BALL ALLOPHANE
- B4 Effect of Molybdate Adsorption on Some Surface Properties of Nano-Ball Allophane
- CHANGE IN THE SURFACE ACIDITY OF ALLOPHANE BY PHOSPHATE ADSORPTION
- 4-5 PHOSPHATE ADSORPTION ON ALLOPHANES IN RELATION TO THEIR Si/Al ATOMIC RATIO
- THE OCCURRENCE OF ALLOPHANE IN STREAM-DEPOSITS FROM SHISHIGAHANA AT THE NORTHERN FOOT OF MT. CHOKAI, JAPAN
- Imogolite and Allophane in Shattered Sandstone Underlying a Brown Forest Soil
- Clay Mineralogy of Soils from Upper North Thailand
- Clay Mineralogy of a Reddish Brown Lateritic Soil from Thailand
- ADSORPTION OF AMINES ON NANO-BALL ALLOPHANE AND ITS MOLECULAR ORBITAL ANALYSIS
- Preparation of Composite Material of Na-P1-Type Zeolite and Magnetite for Cs Decontamination