[A2 1426-0002-0003] Preparation method of high-purity ammonium paramolybdate
The invention provides a method for preparing high-purity ammonium paramolybdate, which comprises the following steps: taking ammonium paramolybdate as raw material, adding pure water and ammonia water, heating and stirring to dissolve the ammonia, then continuing to stir and evaporate and crystallize under a certain vapor pressure, keeping the solution in the tank boiling, concentrating the crystallization mother liquor, carrying out solid-liquid separation, and drying the separated ammonium paramolybdate until the water content in the ammonium paramolybdate is reduced to less than or equal to ≤65438±0.0g/cm3. Ammonium molybdate (kg): pure water (1): ammonia water (L) = 1: (0.20 ~ 0.25): 0.6, and EDTA 40 ~ 150 was added for every 1000kg ammonium molybdate during evaporation crystallization. The invention can greatly improve the purity of ammonium paramolybdate products, reach the national first-class standard and meet the requirements of electronic industry. The preparation method of the invention is simple in operation, does not need to add new equipment, and the quality of the prepared product is stable, and the crystallization rate reaches 94.5-96%.
[A2 1426-0007-0004] Detection method of mechanical inclusions doped with lanthanum ammonium molybdate
[Abstract] The invention provides a method for detecting and judging mechanical inclusions in lanthanum-doped ammonium molybdate. Putting a solid sample of lanthanum-doped ammonium molybdate with a bulk density of (0.7- 1.6) g/cm3 into a glass container, adding boiling water according to the ratio of lanthanum-doped ammonium molybdate: water = (1-2) kg: (2-3) L, and standing for 5-15 minutes. Then adding dilute sulfuric acid14-6550 (volume percentage)150-220 ml. According to the existence, size and quantity of sediment on the filter paper, it can be judged whether there are mechanical inclusions and whether the number of inclusions is within the allowable range, so the detection accuracy of the invention is 100%.
[A21426-0010-0005] A method for producing ammonium molybdate from high-impurity ferromolybdenum alloy.
[Abstract] A method for producing ammonium molybdate from high-impurity ferromolybdenum alloy includes mechanical activation roasting of high-impurity ferromolybdenum alloy and sodium carbonate, stirring and leaching of roasted sand with water, adjusting pH value of leaching solution with inorganic acid, ion-exchanging molybdenum with weak base anion exchange resin, standing ammonium molybdate solution for vanadium precipitation, purifying magnesium chloride to remove phosphorus, arsenic and silicon, deeply removing vanadium with strong base anion exchange resin, and crystallizing ammonium molybdate. The invention has strong process adaptability, good quality of ammonium molybdate, high molybdenum recovery rate, and the total yield of the process can reach more than 90%, and the quality of the produced ammonium molybdate can reach more than the second grade of the national standard.
[A2 1426-0008-0006] Organic ammonium tungstate and organic ammonium molybdate compounds and their preparation methods
[Abstract] The invention provides a novel organic ammonium compound, which can be used as an additive to improve the wear resistance and antifriction performance of a lubricating composition. The compound is formed by reacting a hydrated metal acid with one or more alkylamines. Specific examples are the preparation of ditridecyl ammonium tungstate, ditridecyl ammonium tungstate and ditridecyl ammonium molybdate.
[A2 1426-0003-0007] Preparation method of ammonium tetrathiomolybdate
[Abstract] The preparation method of ammonium tetrathiomolybdate belongs to the improvement of the preparation method of high-purity chemicals. High-purity ammonium tetrathiomolybdate [(NH4)2MoS4] was prepared by solution reaction of ammonium paramolybdate [(NH4) 6mo7o24 4h2o]] or MoO3 with ammonium sulfide [(NH4)2S]. The high-purity ammonium tetrathiomolybdate prepared by the method of the invention has the advantages that the dosage of ammonium sulfide is close to the stoichiometry required for generating ammonium tetrathiomolybdate, the reaction conditions are mild, the reaction time is greatly shortened, the waste discharge is less, the product yield is high, the purity is high, and the toxic and odorous hydrogen sulfide gas does not need to be treated.
[A2 1426-0004-0008] Non-agglomerated ammonium dimolybdate production process
[Abstract] A production process of non-agglomerated ammonium dimolybdate, including 1]. Preparing ammonium molybdate solution, adding it into an evaporation crystallization kettle, heating to boiling, and continuing heating; 2]. When the pH value of ammonium molybdate solution is 6.9-7.5, ammonium dimolybdate seed crystal is added; 3]. Determine the evaporation rate curve; 4]. Crystal growth; 5]. Filter and dry at 100- 1 10℃. The invention solves the technical problem of poor physical indexes of products produced in the background technology. The crystallization process is improved and finely controlled, and the crystal form and particle size of ammonium dimolybdate are improved. The product is transformed from the original agglomerated state into a single crystal without agglomeration, which makes the processing and use performance of the product good. By adding seed crystal, eliminating fine crystal and controlling evaporation rate, the crystal form and particle size of ammonium dimolybdate were improved, and the physical properties of the product reached the international advanced level.
[A2 1426-0005-0009] Preparation process of rare earth ammonium dimolybdate
[Abstract] The invention discloses a preparation process of rare earth ammonium dimolybdate, which improves the processing and use performance of the material, reduces the production cost and reduces the environmental pollution. Adding the proportion of soft water and ammonia water into a crystallization tank of 4-5l: 1l, stirring, then adding ammonium tetramolybdate in batches, wherein ammonium tetramolybdate: soft water: ammonia water = 1kg: 4-5l: 1l, heating and stirring to form mother liquor, and slowly adjusting the pH value of the mother liquor to 7-8.5. The total mass percentage of cerium nitrate, lanthanum nitrate, yttrium nitrate or the combination of two or three of them does not exceed 2.5% of the total mass of ammonium dimolybdate, and it is heated and evaporated for 2.0-6.0 hours at the heating temperature of 100℃- 130℃ until the solution is clear, and then discharged, filtered and evaporated at160.
[A21426-0006-0010] Tetrapropyl Ammonium Tetrathiomolybdate and Related Compounds for Anti-angiogenesis Therapy
[Abstract] The invention discloses a method for improving animal husbandry. Are they curtains? What's the topic? A method for preventing and treating angiogenic diseases such as cancer by using drugs. The advantages of the invention include enhancing the stability of the compound, but not reducing its efficacy. The invention also provides a pharmaceutical composition, a therapeutic kit, a combined therapy method and application.
[A 21426-001-0011] Preparation method of ammonium molybdate polysulfide
【 A21426-K0083-0012 】 Study on the Effect of Sound Field on the Crystallization of Ammonium Molybdate-【 Source: Rare Metal Date: 200 1, No.6 】
[A21426-K0067-0013] Effects of soaking seeds with ammonium molybdate on the yield, quality and absorption of nitrogen, phosphorus and potassium of fresh-eating rape under different nitrogen sources-[Source: Journal of Hebei Vocational and Technical Teachers College, No.3, 2003]
Raman spectrum changes of saturated aqueous solution of [A 21426-K 0021KLOC-0/4] ammonium dimolybdate crystal and its mechanism-[Source: Journal of Inorganic Chemistry, No.7, 2006]
[A 21426-K0093-0015] New technology of microwave radiation drying ammonium paramolybdate-[Source: China Molybdenum Industry Date: June 2002]
[A 2 1 426-K0098-0016] Study on Nucleation of Supersaturated Ammonium Tetramolybdate Solution by Nitric Acid Precipitation-[Source: Journal of Fuzhou University: Natural Science Edition Date:1,2006]
[A 21426-K 0031-0017] Preparation method of high-purity ammonium paramolybdate-[Source: China Molybdenum Industry Date: May 2006]
[A 21426-K 0091-0018] A new process for preparing high-purity molybdenum trioxide by microwave calcination of ammonium molybdate-[Source: new technology and new process date: April 2004]
[A 21426-K 0102-0019] Study on Wear Resistance of Ammonium Phosphomolybdate Nanoparticles Modified by Stearic Acid-[Source: Journal of China Electron Microscopy Society: 200 1, No.4]
[A 21426-K 0019-0020] Discussion on the loss law of Cu+,Fe 2+and K+in each process of ammonium molybdate production-[Source: China Molybdenum Industry Date: No.4, 2004]
[A2 1 426-K0042-0021] A new process for preparing ammonium molybdate from calcium molybdate waste [Source: comprehensive utilization date of minerals:1,2003]
[A2 1426-K0085-0022] Synthesis and Characterization of Cetyltrimethyl Ammonium Tetrathiomolybdate-[Source: acta petrolei sinica: Petroleum Processing Date: June 2004]
[A 21426-K0005-0023] Preparation and Crystallization Process of β-Ammonium Tetramolybdate-[Source: Journal of Central South University of Technology, date: 200 1, No.2]
[A2 1426-K0087-0024] Effect of crystal structure of ammonium tetramolybdate on molybdenum machinability-[Source: China Molybdenum Industry Date: No.4, 2002]
[A2 1426-K0058-0025] Determination of Procyanidins in Grape Seed Extract by Ammonium Molybdate Spectrophotometry-[Source: China Petroleum Date: No.3, 2003]
[A2 1426-K0007-0026] Study on the pickling effect of ammonium salt on ammonium molybdate-[Source: China Molybdenum Industry Date: 1, 2002]
[A2 1426-K0053-0027] Determination of Total Phosphorus in Municipal Sludge by Ammonium Molybdate Spectrophotometry-[Source: China Water Supply and Drainage Date: No.2, 2006]
[A2 1426-K0050-0028] Effect of Ammonium Molybdate on Flowering and Fruit Setting in Li Xiang of Lingshan-[Source: Guangxi Tropical Agriculture Date: June 2005]
[A 21426-K 0001-0029] Discussion on the method of "ammonium molybdate color development-centrifugal separation spectrophotometry" for the determination of total phosphorus in surface water with high suspended solids-[Source: Sichuan Environmental Date: No.2, 2005]
[A 21426-K 0071-0030] Improvement of preparation method of ammonium molybdate solution-[Source: Journal of Xingtai Teachers College, No.4, 2002]
[A 21426-K 0109-0031] Problems in the international marketing of ammonium molybdate in China and the choice of marketing strategies-[Source: China Molybdenum Industry Date: No.4, 2003]
[A2 1426-K0077-0032] Study on Solubility of Ammonium Molybdate and Molybdenum Oxide Double Salt-[Source: Inorganic Salt Industry Date: 12, 2005]
[A2 1426-K0086-0033] Preparation method of ammonium tetrathiomolybdate-[Source: China Molybdenum Industry Date: 1, 2006]
[A2 1426-K0032-0034] Study on the New Preparation Technology of High Potassium Ammonium Molybdate-[Source: Applied Chemical Industry Date: 2004, 1]
[A2 1426-K0088-0035] Quantum stoichiometry of the structure and stability of ammonium tetramolybdate-[Source: Journal of Central South University of Technology: 200 1, No.6]
[A 21426-K0003-0036] Determination of Tungsten, Silicon and Aluminum in Ammonium Molybdate by ICP-AES-[Source: China Molybdenum Industry Date: No.3, 2002]
[A 21426-K 0100-0037] Oxygen flask combustion-malachite green-ammonium phosphomolybdate -PEG spectrophotometric determination sheet-[Source: Journal of South-Central University for Nationalities: Natural Science Edition: No.3, 2006]
[A2 1426-K0027-0038] Study on the inhibitory effect of ammonium fluomolybdate solution on dental caries of artificial teeth-[Source: Journal of Practical Stomatology, date: 1, 2004]
[A2 1426-K0022-0039] Evaporative crystallization process control of ammonium dimolybdate-[Source: China Molybdenum Industry Date: No.4, 2002]
[A2 1426-K0055-0040] Determination of Tea Polyphenols in Green Tea by Ammonium Molybdate Spectrophotometry-[Source: Analytical Laboratory Date: May 2003]
Preparation and characterization of [A 21426-K 0103-0041] stearic acid modified ammonium phosphomolybdate nanoparticles-[Source: Journal of Henan University: Natural Science Edition Date: 2001KLOC-0/]
[A2 1426-K0043-0042] Determination of phosphorus in tantalum powder by ammonium phosphomolybdate-malachite green -PVA spectrophotometry-[Source: analytical laboratory date: September 2006]
[A2 1426-K0028-0043] Preliminary clinical study on the treatment of dentin hypersensitivity with ammonium fluomolybdate solution-[Source: Beijing Stomatology, date: No.3, 2002]
Material [A 21426-K 0018-0044] Application of Low Potassium Ammonium Tetramolybdate in Molybdenum Rod Production-[Source: China Molybdenum Industry Date: June 2002]
Kinetic analysis of nanometer molybdenum disulfide generated by thermal decomposition of ammonium thiomolybdate in nitrogen atmosphere [a 2 1426-k 0045-0045]-[ Source: Nonferrous Metals Date: No.4, 2005]
Source [A2 1426-K0076-0046] Research and development progress of ammonium molybdate-[Source: China Molybdenum Industry Date: No.2, 2005]
[A 2 1426-K0002-0047] Determination of14 impurity elements in ammonium molybdate and ammonium polymolybdate by ICP-AES-[Source: Physical and Chemical Inspection: Chemical Volume Date: September 2004]
Determination of Trace Tungsten in Ammonium Molybdate by Catalytic Polarography [a 2 1426-k 0048-0048]-[ Source: Rock and Mineral Testing Date: No.3, 2002]
[A2 1426-K0023-0049] Determination of phosphorus content in manganese ore by ammonium vanadate molybdate colorimetry-[Source: China Manganese Industry Date: No.3, 2002]
Study on comprehensive treatment of ammonium molybdate production wastewater by ion exchange method [A 21426-K 0041-0050]-[Source: China Molybdenum Industry Date: No.3, 2006]
Net [A 21426-K0092-0051] Rapid determination of moisture in ammonium molybdate by microwave method-[Source: China Molybdenum Industry Date: No.3, 2005]
[A2 1426-K0078-0052] Determination of Mannitol Injection by Ammonium Molybdate Sensitization-[Source: journal of huaihai medicine Journal Date: June 2002]
W [A2 1426-K0034-0053] Development and production of ammonium octamolybdate from industrial waste containing molybdenum-[Source: Chemical Technology Market Date: No.8, 2002]
W [A2 1426-K0037-0054] Determination of Silicon Content in Ammonium Metavanadate by Reduced Molybdate Spectrophotometry-[Source: Chemical Industry and Engineering Technology Date: May 2002]
W [A 2 1 426-K 0106-0055] Experimental Study on Preparation of Ammonium Molybdate from Molybdenum Concentrate-[Source: Shui Ye Date:1,2005]
[A2 1426-K0039-0056] Tribological properties of ammonium phosphomolybdate nanoparticles modified by quaternary ammonium salt as liquid paraffin additive-[Source: Journal of Tribology: 200 13]
Z [A2 1426-K0052-0057] Composition Analysis of Ammonium Molybdate Waste Liquid and Recovery of Ammonium Nitrate in it-[Source: Journal of dezhou university, June 2003]
X [A2 1426-K0066-0058] Relationship between crystallization kinetic parameters of ammonium molybdate and composition changes of solution and polybasic acid-[Source: China Molybdenum Industry Date: 200 1, No.4].
M [A2 1426-K0046-0059] Top dressing experiment of ammonium molybdate for larch seedlings-[Source: Heilongjiang Forestry Date: No.8, 2003]
W [A 21426-K 01KLOC-0/0-0060] Recrystallization and Purification of Ammonium Molybdate-[Source: Hubei Chemical Industry Date: No.2, 2002]
[A 21426-K 0016-0061] Characterization of Ammonium Tetrathiomolybdate precursor for catalytic hydropyrolysis-[Source: date of chemical reagent: No.2, 2006]
C [A2 1426-K0020-0062] Non-agglomerated crystal formation experiment of ammonium dimolybdate (ADM)-[Source: China Molybdenum Industry Date: 1, 2003]
O [A 21426-K 0014-0063] Chengdu Hongbo Company held the groundbreaking ceremony for the project with an annual output of 3,000 tons of ammonium molybdate-[Source: China Molybdenum Industry Date: No.5, 2005].
M [A2 1426-K0030-0064] Study on drying process and characteristic change of ammonium molybdate-[Source: China Molybdenum Industry Date: 200 14]
[A2 1426-K0075-0065] Comprehensive Treatment of Industrial Wastewater in Ammonium Molybdate: April 2002]
[A2 1426-K0079-0066] Effects of spraying indac and ammonium molybdate on increasing sugar and decreasing acid of Jiefangzhong loquat-[Source: China Southern Fruit Tree Date: June 2004]
System [A2 1426-K0095-0067] Microwave Digestion Ammonium Molybdate Spectrophotometric Determination of Total Phosphorus in Water-[Source: Industrial Water Treatment Date: 200 1 Phase 2]
[A 2 1 426-K 0051-0068] Study on the Effect of Ammonium Molybdate on the Thyroid of Fattening Lambs-[Source: China Veterinary Science and Technology Date:1,2002]
[A2 1426-K0072-0069] Exploration on Advanced Purification Process of Ammonium Molybdate: China Molybdenum Industry, No.3, 2003]
Comparison and discussion on different production processes of ammonium molybdate solution [A2 1426-K0070-0070]-[Source: China Molybdenum Industry Date: 200 1, No.2].
Verification of 0 [A 21426-K 0107-0071] ammonium molybdate method for determination of total phosphorus in water-[Source: Gansu Environmental Research and Monitoring Date: 200 1, No.3]
7 [A2 1426-K0006-0072] Separation of Tungsten from Ammonium Molybdate by Ammonia Leaching-[Source: Inorganic Salt Industry Date: 200 1, No.5]
5 [A 21426-K 001KLOC-0/-0073] Theoretical Analysis of the Mechanism of Ammonium Molybdate under Ultrasonic Field-[Source: Rare Metal Date: May 2002]
5 [A 21426-K 01KLOC-0/-0074] Experimental Study on Preparation of Ammonium Paramolybdate from Waste Cobalt and Molybdenum Catalyst-[Source: China Molybdenum Industry Date: No.2, 2006]
| [A2 1426-K0049-0075] Corrosion inhibition of ammonium molybdate on LY 12 aluminum alloy-[Source: corrosion and protection date: 200 1 year 3]
2 [A2 1426-K0074-0076] Molybdenum Recovery in the Process of Three Wastes Treatment in Ammonium Molybdate Production System-[Source: Nonferrous Metals, Date: March 2003]
8 [A2 1426-K0062-0077] Improvement of Ammonium Molybdate Spectrophotometry for Determination of Total Phosphorus in Water-[Source: Pollution Prevention Technology Date: No.3, 2006]
5 [A 21426-K0029-0078] Study on the Adhesion of Ammonium Fluormolybdate to Streptococcus mutans —— [Source: Journal of Practical Stomatology, No.3, 2004]
2 [A2 1426-K0099-0079] Study on the Nucleation of Ammonium Tetramolybdate Crystal by Acid Precipitation with Hydrochloric Acid-[Source: Journal of Synthetic Crystals: 1, 2005]
6 [A 2 1 426-K 0105-0080] Experimental Study on Producing Ammonium Molybdate from Molybdenum Concentrate-[Source: Inorganic Salt Industry Date:1,2004]
1[a 21426-k0038-0081] Preliminary report on spraying ammonium heptamolybdate on Huanghua pear-[Source: Lishui Agricultural Science and Technology Date: No.2, 2004]
5 [A2 1426-K0094-0082] The content of P2O5 in ammonium phosphate was determined by quinoline phosphomolybdic acid gravimetric method with microwave heating technology-[Source: phosphate fertilizer and compound fertilizer date: No.3, 2002]
3 【 A 21426-K 0108-0083 】 Structure and Control of Ammonium Tetramolybdate for Manufacturing Fine Molybdenum Wire-【 Source: China Molybdenum Industry Date: 2006 54 38+04 】
【 A2 1426-K0025-0084 】 Observation on the sealing effect of ammonium fluomolybdate solution on dentinal tubules-【 Source: Beijing Stomatology, No.4, 2005 】
[A 21426-K 0015-0085] Production of industrial molybdenum oxide, ammonium dimolybdate and pure molybdenum trioxide from low-grade molybdenum concentrate or molybdenum intermediate products-[Source: China Molybdenum Industry Date: No.4, 2004]
[A2 1426-K0084-0086] Effect of Ammonium Molybdate on Growth Dynamics and Yield of Soybean-[Source: Jilin Agricultural Science Date: 200 16]
[A 21426-K 0010-0087] Crystallization process of ammonium molybdate solution under ultrasonic wave-[Source: Journal of China Nonferrous Metals Society, No.3, 2002]
[A2 1426-K0063-0088] Discussion on the Problems Related to the Determination of Total Phosphorus by Ammonium Molybdate Spectrophotometry-[Source: Instrumentation and Monitoring Date: No.4, 2006]
[A 21426-K 0061-0089] Evaluation of Uncertainty in Determination of Total Phosphorus in Water by Ammonium Molybdate Spectrophotometry-[Source: Inner Mongolia Environmental Protection Date: No.2, 2006]
[A 21426-K 0013-0090] Rapid determination of molybdenum content in ammonium molybdate by precipitation titration-[Source: China Molybdenum Industry Date: May 2006]
[A21426-K0036-0091] Seed dressing with ammonium molybdate can increase the yield of peanuts-[Source: Fortune Plaza Date: No.4, 2002]
[A2 1426-K0054-0092] Determination of Phosphorus in Wastewater by Ammonium Molybdate Spectrophotometry-[Source: China Environmental Monitoring Date: No.2, 2005]
[A2 1426-K0097-0093] Ammonium molybdate is effective in seed dressing sunflower-[Source: Rural Practical Science and Technology Date: No.2, 2002]
[A2 1426-K0040-0094] Study on Separation of Molybdenum and Vanadium from Ammonium Molybdate by Ion Exchange-[Source: Rare Metals and Cemented Carbide Date: No.2, 2006]
[A2 1426-K0096-0095] Discussion on rapid determination of total phosphorus in water and wastewater by microwave digestion-ammonium molybdate spectrophotometry-[Source: Fujian Chemical Industry Date: No.4, 2005]
[A2 1426-K0047-0096] Effects of ammonium molybdate seed dressing on soybean seedling growth and nitrate reductase activity-[Source: Anhui Agricultural Bulletin date: May 2005]
[A2 1426-K0073-0097] Discussion on ammonia leaching process in ammonium molybdate production-[Source: China Molybdenum Industry Date: 1, 2002]
[A2 1426-K0024-0098] Rapid determination of available phosphorus pentoxide in diammonium phosphate by ammonium molybdate spectrophotometry-[Source: phosphate fertilizer and compound fertilizer date: No.3, 2003]
[A2 1426-K0080-0099] Experimental study on key quality problems of ammonium heptamolybdate-[Source: China Molybdenum Industry Date: No.4, 2003]
[A 21426-K 0104-0100] Study on Preparation of Ammonium Molybdate from Amorphous Molybdenum Ore-[Source: Inorganic Salt Industry Date: No.4, 2003]
[A 21426-K 0081-01] Preparation of Composite Vanadium Ammonium Molybdate Dry Gel Film by Sol-Gel Method and Its Humidity Sensitivity-[Source: Functional Material Date: 200 1, No.2]
[A 2 1 426-K 0012-0102] Influence mechanism of ultrasonic wave on crystallization process of ammonium molybdate solution-[Source: China Journal of Process Engineering, date:1,2002]
[A 21426-K0082-0103] Synthesis of Partial Quaternary Ammonium Phosphomolybdate and Its Catalytic Performance for H2O2 Reaction-[Source: Henan Chemical Industry Date: No.3, 2004]
[A 21426-K0033-0104] Determination of Sulfur in Ammonium Molybdate by High Frequency Combustion Infrared Absorption Method-[Source: Physical and Chemical Detection: Chemical Volume Date: 2002+0 1]
[A 21426-K0090-0105] Study on the Phase Transformation in the Preparation of Ammonium Tetramolybdate-[Source: China Molybdenum Industry Date: No.2, 2002]
[A 21426-K 0017-0106] Single crystal ammonium dimolybdate was successfully developed in Jinduicheng-[Source: Nonferrous Metals Industry Date: July 2003]
【 A21426-K0035-0107 】 Seed dressing with ammonium molybdate increased peanut yield-【 Source: New Farmer Date: No.4, 2003 】
【 A21426-K0026-0108 】 Discussion on the Mechanism of Improving the Acid Resistance of Root Dentin with Ammonium Flumolybdate Solution-【 Source: Beijing Stomatology Date: 200 1, No.3 】
[A 21426-K0059-0109] Ammonium molybdate spectrophotometric determination of total inorganic phosphorus in water stabilizer-[Source: Lutianhua Science and Technology Date: No.4, 2005]
[A 21426-K0068-010] Study on Growth Kinetics of Ammonium Molybdate-[Source: China Molybdenum Industry Date: 200 1, No.2].
[A 21426-K0004-01] Application of β Ammonium Tetramolybdate-[Source: China Molybdenum Industry Date: 200 1, No.4].
[A 2 1 426-K0044-012] Extraction of cesium with zirconium phosphate-ammonium phosphomolybdate composite ion exchanger [Source: nuclear power project date:1,2006]
[A 21426-K0056-013] Determination of Tea Polyphenols in Green Tea by Ammonium Molybdate Spectrophotometry —— [Source: China Tea Jujube: No.3, 2004]
[A 2 1 426-K0060-0114] Evaluation of Uncertainty in Determination of Total Phosphorus in Water by Ammonium Molybdate Spectrophotometry-[Source: Heilongjiang Environmental Bulletin Date:1,2006]
[A 21426-K0089-0115] Study on the Nucleation of Ammonium Tetramolybdate in Supersaturated Solution-[Source: Journal of Synthetic Crystals, June 2006]
[A 21426-K0065-016] Corrosion inhibition of ammonium molybdate composite inhibitor on LY 12 aluminum alloy-[Source: total corrosion control date: No.5, 2002]
[A 2 1 426-K0009-017] Effect of Ultrasonic Wave on the Crystallization of Ammonium Tetramolybdate-[Source: Journal of China Nonferrous Metals Society:1,2002]
[A 21426-K0057-0118] Determination of Procyanidins in Grape Seed Extract by Ammonium Molybdate Spectrophotometry-[Source: Food Science Date: May 2003]
[A 21426-K0069-019] Effects of spraying time and concentration of ammonium molybdate on soybean growth, yield and quality-[Source: Anhui Agricultural Science Date:12,2005]
[A 21426-K0008-0120] Synthesis and Tribological Behavior of Surface-Modified Ammonium Phosphomolybdate Nanoparticles-[Source: Journal of Chemical Physics, 2002, No.65438 +0]
[A 21426-K0064-0121] Discussion on Influencing Factors of Accurate Determination of Total Phosphorus by Ammonium Molybdate Spectrophotometry-[Source: Environmental Research and Monitoring Date: No.2, 2005]
[A 21426-K 01-0122] Ammonium dimolybdate is produced by redissolution crystallization-[Source: nonferrous metals: smelting date: 200 1, No.6]