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ヒドリドふっ素

ヒドリドふっ素 化学構造式
7664-39-3
  • CAS番号.7664-39-3
  • 化学名:ヒドリドふっ素
  • 别名:ふっ化水素酸;ふっ化水素酸塩;ふっ化水素;ヒドリドふっ素;フッ化水素(子グレト);毒物 フッ化水素酸 弗化水素;フッ酸;フッ化水素酸 47-51%,TRACESELECT,FOR TRACE ANALYSIS;フッ化水素酸 ACS REAGENT,48%;フッ化水素酸 PURISS. P.A.,ACS REAGENT,REAG. ISO,REAG. PH. EUR.,≥48%;フッ化水素酸 PURISS. P.A.,REAG. ISO,REAG. PH. EUR.,≥40%;フッ化水素酸 PURISS.,≥40%;フッ化水素酸 TECHNICAL,40-45%;ふっ化水素酸 46~48%
  • 英語化学名:Hydrogen fluoride
  • 英語别名:HF;HF2;HydrofL;Rubigine;antisal2b;60% HF/DMF;uoric acid;Fluorowodor;Fluoric acid;hydrofluoric
  • CBNumber:CB8380315
  • Molecular Formula:FH
  • Formula Weight:20.01
  • MOL File:7664-39-3.mol
ヒドリドふっ素 物理性質
  • 融点  :-35°C
  • 沸点  :105°C
  • 比重(密度)  :1.15 g/mL at 25 °C(lit.)
  • 蒸気密度 :1.27 (vs air)
  • 蒸気圧 :25 mm Hg ( 20 °C)
  • 闪点  :112°C
  • 貯蔵温度  :Store at +5°C to +30°C.
  • 酸解離定数(Pka) :3.17(at 25℃)
  • 外見  :Liquid, Double Sub-Boiling Quartz Distillation
  • 色 :max. 10
  • 比重 :1.15
  • 酸塩基指示薬変色域(pH) :1
  • 臭い (Odor) :Acrid, irritating odor
  • 水溶解度  :soluble
  • Sensitive  :Hygroscopic
  • Merck  :14,4790
  • 暴露限界値 :Ceiling limit 3 ppm (~2.5 mg/m3) as F (ACGIH); TWA 3 ppm (MSHA and OSHA).
  • 安定性: :Stable. Hygroscopic. Incompatible with glass, alkali metals, light metals, alkaline earth metals
  • CAS データベース :7664-39-3(CAS DataBase Reference)
  • NISTの化学物質情報 :Hydrogen fluoride(7664-39-3)
  • EPAの化学物質情報 :Hydrofluoric acid (7664-39-3)
安全性情報
危険有害性情報のコード(GHS)
  • 絵表示(GHS)
  • 注意喚起語Danger
  • 危険有害性情報
  • H300:飲み込むと生命に危険
  • H310:皮膚に接触すると生命に危険
  • H314:重篤な皮膚の薬傷?眼の損傷
  • H318:重篤な眼の損傷
  • H330:吸入すると生命に危険
  • 注意書き
  • P260:粉じん/煙/ガス/ミスト/蒸気/スプレーを吸入しないこ と。
  • P280:保護手袋/保護衣/保護眼鏡/保護面を着用するこ と。
  • P303+P361+P353:皮膚(または髪)に付着した場合:直ちに汚染された衣 類をすべて脱ぐこと/取り除くこと。皮膚を流水/シャワー で洗うこと。
  • P304+P340:吸入した場合:空気の新鮮な場所に移し、呼吸しやすい 姿勢で休息させること。
  • P305+P351+P338:眼に入った場合:水で数分間注意深く洗うこと。次にコ ンタクトレンズを着用していて容易に外せる場合は外す こと。その後も洗浄を続けること。
  • P320:特別な治療が緊急に必要である(このラベ ルの...を見よ)。
  • P403+P233:換気の良い場所で保管すること。容器を密閉 しておくこと。
  • P405:施錠して保管すること。
ヒドリドふっ素 価格 もっと(48)
  • メーカー: 富士フイルム和光純薬株式会社(wako)
  • 製品番号: W01W0108-0115
  • 製品説明 : ふっ化水素酸
  • 純度: Hydrofluoric Acid
  • 包装: 25g
  • 価格: ¥2200
  • 更新時間: 2021/03/23
  • 購入: 購入
  • メーカー: 富士フイルム和光純薬株式会社(wako)
  • 製品番号: W01W0108-0115
  • 製品説明 : ふっ化水素酸
  • 純度: Hydrofluoric Acid
  • 包装: 500g
  • 価格: ¥2400
  • 更新時間: 2021/03/23
  • 購入: 購入
  • メーカー: 関東化学株式会社(KANTO)
  • 製品番号: 18083-01
  • 製品説明 : ふっ化水素酸
  • 純度: Hydrofluoric acid>46.0%(T)
  • 包装: 500g
  • 価格: ¥2900
  • 更新時間: 2018/12/13
  • 購入: 購入
  • メーカー: 関東化学株式会社(KANTO)
  • 製品番号: 18083-00
  • 製品説明 : ふっ化水素酸
  • 純度: Hydrofluoric acid46.0%~48.0%(T)
  • 包装: 500g
  • 価格: ¥3000
  • 更新時間: 2018/12/13
  • 購入: 購入
  • メーカー: Sigma-Aldrich Japan
  • 製品番号: 01066
  • 製品説明 : フッ化水素酸
  • 純度: Hydrofluoric acidtechnical, 40-45%
  • 包装: 1l
  • 価格: ¥6200
  • 更新時間: 2018/12/25
  • 購入: 購入

ヒドリドふっ素 MSDS


Hydrofluoric acid

Hydrogen fluoride 化学特性,用途語,生産方法

  • 外観 無色澄明の液体
  • 溶解性 水及びエタノールに極めて溶けやすい。
  • 解説 フッ化水素の水溶液,フッ酸ともいう.フッ化水素カリウムの熱分解によってつくったフッ化水素を水に吸収させると得られる.工業的には,蛍石に濃硫酸を加えて加熱し,発生するフッ化水素を水に吸収させてつくる.無色の刺激性液体で,空気中で発煙する.水との共沸混合物はHF 37.73% で沸点111 ℃.希薄水溶液では弱酸で,K1 6.46×10-4.反応性に富み,種々の物質と活発に反応する.アルカリ,アルカリ土類金属,銀,鉛,亜鉛などの金属の酸化物,水酸化物または炭酸塩と反応してフッ化物を生じ,二酸化ケイ素やガラスなどのケイ酸塩と反応して四フッ化ケイ素を生じる.CaSiO2 + 6HF → SiF4 + CaF2 + 3H2Oほとんどの金属は侵されるが,白金,金は侵されない.また,銀,銅も侵されにくく,鉛は表面が侵されるのみである.フッ化水素酸はポリエチレン,鉛,パラフィン製容器などに貯蔵される.フッ素化合物の製造,電球のつや消し,ガラスの腐食(ガラス器具の目盛など),鋳物の砂落し,ステンレスの表面処理,ウランの製造,鉱石の溶解,分析試薬などに用いられる.きわめて毒性が強く,皮膚,粘膜をはげしくおかす.[CAS 7664-39-3:HF]
    森北出版「化学辞典(第2版)
  • 用途 ガラスのつや消し、金属の酸性剤
  • 用途 ICP-MSによる超微量無機物分析用試料の分解、前処理。
  • 用途 フロンガス及びその他のふっ素化合物の製造原料、ガラスの腐食剤、金属の洗浄剤。
  • 用途 金属、酸化物及びけい素化合物分析試料の分解、前処理剤、ふっ素化合物の製造原料。
  • 用途 金属、酸化物及びけい素化合物分析試料の分解、前処理剤。
  • 用途 触媒(重合,加水分解)、冷媒(フロンガス)原料、フッ素樹脂原料、フッ素化合物原料、半導体(高純度)のエッチング用
  • 使用上の注意 ガラスを腐食する。空気中で発煙する。
  • 説明 Hydrofluoric acid is a solution of hydrogen fluoride in water. Hydrofluoric acid is highly corrosive inorganic acid. It is utilized widely in the manufacture of ceramics and graphite, in the electropolishing and pickling of metals, in the etching and frosting of glass, in the semiconductor industry as etchant and cleaning agent, in the chemical and oil-refining industries, and in cleaning solutions, laundry powder and pesticides. Hydrofluoric acid is also widely used in the preparation of many useful fluorine compounds, such as Teflon, Freon, fluorocarbons, and many medications such as fluoxetine (Prozac).
  • 化学的特性 colourless gas with a pungent odour
  • 物理的性質 Hydrofluoric Acid (HF) is a solution of hydrogen fluoride in water. While this acid is extremely corrosive and difficult to handle, it is technically a weak acid. Hydrogen fluoride, often in the aqueous form as hydrofluoric acid, is a valued source of fluorine, being the precursor to numerous pharmaceuticals such as fluoxetine (Prozac), diverse polymers such as polytetrafluoroethylene (Teflon), and most other synthetic materials that contain fluorine. Hydrofluoric acid is best known to the public for its ability to dissolve glass by reacting with SiO2 (silicon dioxide), the major component of most glass, to form silicon tetrafluoride gas and hexafluorosilicic acid. This property has been known since the seventeenth century, even before hydrofluoric acid had been prepared in large quantities by Scheele in 1771. Because of its high reactivity toward glass, hydrofluoric acid must be stored (in small quantities) in polyethylene or Teflon containers. It is also unique in its ability to dissolve many metal and semimetal oxides. Hydrofluoric acid attacks glass by reaction with silicon dioxide to form gaseous or water-soluble silicon fluorides.
    Hydrofluoric acid is very dangerous to handle, because the human skin becomes easily saturated with the acid. Even though skin absorption of small areas of only 25 square inches (160 cm2) may be relatively painless, yet the exposure may be ultimately fatal. High concentrations of hydrofluoric acid and hydrogen fluoride gas will also quickly destroy the corneas of the eyes.
  • 来歴 Anhydrous hydrogen fluoride was first prepared by Fremy in 1856. It mayhave been made earlier in 1670 by Schwankhard in the process of etchingglass using fluorspar and acid.
    Hydrogen fluoride is the most important fluorine compound, in terms ofamounts produced and the vast number of uses. The largest application of thiscompound is in the manufacture of aluminum fluoride and sodium aluminumfluoride (cryolite) for electrolytic production of aluminum. Another majorapplication is in the manufacture of chlorofluorocarbons, which are used asrefrigerants and foaming agents; for making polymers; and for pressurizinggases. Another important application is in the processing of uranium whereHF converts uranium dioxide to uranium tetrafluoride and hexafluoride,respectively. Uranium hexafluoride is used to separate isotopes of uraniumby diffusion.
    Hydrogen fluoride also is used as a catalyst in alkylation of aromatic com-pounds and for dimerization of isobutene. Other catalytic applications are inisomerization, polymerization, and dehydration reactions. Other uses are in366HYDROGEN FLUORIDEpp-03-25-new dots.qxd 10/23/02 2:38 PM Page 366 etching and polishing glasses for manufacturing light bulbs and TV tubes; inextraction of ores; in pickling stainless steel; in acidizing oil-wells; to removelaundry stains; for sample digestion in metal analysis; for removal of sandduring metal castings; as a stabilizer for rocket propellant oxidizers; and inpreparation of a number of fluoride alts of metals.
  • 使用 Hydrofluoric acid is used as a fluorinatingagent, as a catalyst, and in uranium refining.It is also used for etching glass and forpickling stainless steel. Hydrogen fluoridegas is produced when an inorganic fluoride is distilled with concentrated sulfuricacid.
  • 使用 Diluted hydrofluoric acid (1-3 %wt) is used in the "Oil Patch" in a mixture with other acids (HCl or organic acids) in order to stimulate the production of water, oil and gas wells specifically where sandstone is involved. HF is also used in oil refining. In a standard oil-refinery process known as Alkylation, isobutane is alkylated with low-molecular weight alkenes (primarily a mixture of propylene and butylene) in the presence of a strong acid catalyst, hydrofluoric acid. The catalyst is able to protonate the alkenes (propylene, butylene) to produce reactive carbo-cations , which cause alkylation of isobutane. The phases separate spontaneously, so the acid phase is vigorously mixed with the hydrocarbon phase to create sufficient contact surface. Hydrofluoric acid (HF) is used principally in organofluorine chemistry. Additionally, most high-volume inorganic fluoride compounds are prepared from hydrofluoric acid. Foremost are Na3AlF6, (Cryolite), and AlF3(aluminum trifluoride). A molten mixture of these solids serves as a high-temperature solvent for the production of metallic aluminum. Concerns about fluorides in the environment have led to a search for alternative technologies. Other inorganic fluorides prepared from hydrofluoric acid include NaF and UF6.
    The ability of hydrofluoric acid to dissolve metal oxides is the basis of several applications. It removes oxide impurities from stainless steel in a process called pickling. Surface oxides are removed from silicon with hydrofluoric acid in the Semiconductor Industry. For this purpose, dilute hydrofluoric acid is sold as a household rust stain remover. Recently, it has even been used in “Car-Wash” facilities in “wheel cleaner” compounds. Due to its ability to dissolve oxides, hydrofluoric acid is useful for dissolving rock samples (usually powdered) prior to analysis. Similarly, this acid has been used to extract organic fossils from silicate rocks. Fossiliferous rock may be immersed directly into the acid, or a cellulose nitrate film may be applied (dissolved in amyl acetate), which adheres to the organic component and allows the rock to be dissolved around it.
  • 使用 Cleaning cast iron, copper, brass; removing efflorescence from brick and stone, or sand particles from metallic castings; working over too heavily weighted silks; frosting, etching glass and enamel; polishing crystal glass; decomposing cellulose; enameling and galvanizing iron; increasing porosity of ceramics. Its salts are used as insecticides and to arrest undesirable fermentation in brewing. Also used in analytical work to determine SiO2, etc.
  • 定義 A colorless liquid produced by dissolving hydrogen fluoride in water. It is a weak acid, but will dissolve most silicates and hence can be used to etch glass. As the interatomic distance in HF is relatively small, the H–F bond energy is very high and hydrogen fluoride is not a good proton donor. It does, however, form hydrogen bonds.
  • 調製方法 Anhydrous hydrogen fluoride is manufactured by the action of sulfuric on calcium fluoride. Powdered acid-grade fluorspar (≥97% CaF2) is distilled with concentrated sulfuric acid; the gaseous hydrogen fluoride that leaves the reactor is condensed and purified by distillation.
    Anhydrous hydrogen fluoride is manufactured by treating fluorspar (fluorite, CaF2) with concentrated sulfuric acid in heated kilns. The gaseous HF evolved is purified by distillation, condensed as liquid anhydrous HF, and stored in steel tanks and cylinders.
  • 定義 ChEBI: A diatomic molecule containing covalently bonded hydrogen and fluorine atoms.
  • 反応性 Although anhydrous hydrogen fluoride is a very strong acid, its aqueous solution, hydrofluoric acid, is weakly acidic, particularly when dilute. The Ka value of aqueous acid at 25°C is 6.46x10–4 mol/L. It is an excellent solvent for many inorganic fluorides, forming bifluoride anion:

    HF + NaF → Na+ + HF2¯ At lower temperatures (below 200°C), HF forms molecular aggregates that are held by hydrogen bonding containing linear chains of –F—H—-F—H—- F—H—-. However, above this temperature the weak hydrogen bond breaks producing monomolecular HF. Thermal dissociation of HF into elements probably occurs only at very high temperatures. Forty to 50% HF probably dissociates around 4,000°C, indicating that it is one of the most stable diatomic molecules. The most important reactions of HF involve formation of inorganic fluoridesalts. HF gas or hydrofluoric acid reacts with oxides, hydroxides, carbonates, chlorides and other metal salts forming the corresponding fluorides. Some examples are:

    Bi2O3 + 6HF → 2BiF3 + 3H2O

    LiOH + HF → LiF + H2O

    CaCO3 + 2HF → CaF2 +CO2 + H2O

    FeCl3 + 3HF → FeF3 + 3HCl

    CoCl2 + 2HF → CoF2 + 2HCl Reaction with potassium dichromate yields chromyl fluoride:

    K2Cr2O7 + 6HF → 2CrO2F2 + 2KF + 3H2O When ammonia gas is bubbled through a 40% ice-cold solution of hydrofluoric acid, the product is ammonium fluoride:

    NH3 + HF → NH4F The addition of equimolar amount of NaOH or Na2CO3 to 40% HF instantaneously precipitates NaF:

    NaOH + HF → NaF + H2O Excess HF, however, yields sodium bifluoride, NaHF2:

    NaOH + 2HF → NaHF2 + H2O Reaction with phosphorus trichloride yields phosphorus trifluoride; and with phosphoryl fluoride and sulfur trioxide, the product is phosphorus pentafluoride:

    PCl3 + 3HF → PF3 + HCl

    POF3 + 2HF + SO3 → PF5 + H2SO4

  • 空気と水の反応 Fumes in air. Fumes are highly irritating, corrosive, and poisonous. Generates much heat on dissolution [Merck, 11th ed., 1989]. Heat can cause spattering, fuming, etc.
  • 反応プロフィール Hydrofluoric acid attacks glass and any other silica containing material. May react with common metals (iron, steel) to generate flammable hydrogen gas if diluted below 65% with water. Reacts exothermically with chemical bases (examples: amines, amides, inorganic hydroxides). Can initiate polymerization in certain alkenes. Reacts with cyanide salts and compounds to release gaseous hydrogen cyanide. May generate flammable and/or toxic gases with dithiocarbamates, isocyanates, mercaptans, nitrides, nitriles, sulfides. Additional gas-generating reactions may occur with sulfites, nitrites, thiosulfates (to give H2S and SO3), dithionites (SO2), and carbonates. Can catalyze (increase the rate of) chemical reactions. Reacts explosively with cyanogen fluoride, methanesulfonic acid or glycerol mixed with nitric acid. Reacts violently with arsenic trioxide, phosphorus pentachloride, acetic anhydride, alkali metals, ammonium hydroxide, chlorosulfonic acid, ethylenediamine, fluorine, potassium permanganate, oleum, propylene oxide, vinyl acetate, mercury(II) oxide. Emits highly corrosive fumes of hydrogen fluoride gas when heated [Sax, 9th ed., 1996, p. 1839]. Contact with many silicon compounds and metal silicides causes violent evolution of gaseous silicon tetrafluoride [Mellor, 1956, Vol. 2, suppl. 1, p. 121].
  • 危険性 Toxic by ingestion and inhalation, highly corrosive to skin and mucous membranes.
  • 健康ハザード Hydrofluoric acid and hydrogen fluoride gasare extremely corrosive to body tissues, causing severe burns. The acid can penetrate theskin and destroy the tissues beneath and evenaffect the bones. Contact with dilute acid cancause burns, which may be perceptible hoursafter the exposure. The healing is slow. Contact with the eyes can result in impairment ofvision.
    Prolonged exposure to 10–15 ppm concentrations of the gas may cause redness ofskin and irritation of the nose and eyes inhumans. Inhalation of high concentrations ofHF may produce fluorosis and pulmonaryedema. In animals, repeated exposure toHF gas within the range 20–25 ppm hasproduced injury to the lungs, liver, andkidneys.
    LC50 value, inhalation (mice): 342 ppm/h.
  • 火災危険 When heated, Hydrofluoric acid emits highly corrosive fumes of fluorides. Its corrosive action on metals can result in formation of hydrogen in containers and piping to create fire hazard. Toxic and irritating vapors are generated when heated. Will attack glass, concrete, and certain metals, especially those containing silica, such as cast iron. Will attack natural rubber, leather, and many organic materials. May generate flammable hydrogen gas in contact with some metals.
  • 燃焼性と爆発性 Hydrogen fluoride is not a combustible substance
  • 工業用途 Hydrofluoric acid (HF) is a colorless liquid with a characteristic odor. It releases fumes when in contact with moist air. Hydrofluoric acid is manufactured from fluorite containing 96–97% CaF2 by reacting it with concentrated sulfuric acid:
    CaF2+H2SO4 = 2HF+CaSO4 The acid is sold as a 40% solution. The hydrofluoric acid is used as an activator and depressant, mostly during flotation of industrial minerals (i.e. columbite, tantalite, silica, feldspars).
  • 材料の用途 Carbon steel (without nonmetallic inclusions) is acceptable for handling hydrogen fluoride up to approximately 150°F (65.6°C). Aluminum- silicon-bronze, stainless steel, or nickel are suitable for cylinder valves. For higher temperatures, Monel, Inconel, nickel, or copper should be used. Cast iron or malleable fittings should be avoided. Polyethylene, lead, soft copper, Kel-F, and Teflon are acceptable gasket materials. Polyethylene, Kel-F, and Teflon are acceptable packing materials.
  • Physiological effects Hydrogen fluoride is highly corrosive to all living tissue. Contact with liquid anhydrous hydrogen fluoride, its vapor, or hydrogen fluoride solutions can cause severe bums to skin, eyes, or respiratory tract. ACGIH recommends a Threshold Limit Value-Ceiling (TLV-C) of 3 ppm (2.3 mg/m3 ) fi)r hydrogen fluoride (as F). The TLV-C is the concentration that should not be exceeded during any part of the working exposure .
  • Carcinogenicity NTP conducted two chronic oral bioassays of fluoride administered as sodium fluoride (0, 25, 100, or 175 ppm) in drinking water for 103 weeks in rats and mice.The first study was compromised, so it was used to determine doses for the second study. NTP concluded that there was no evidence that fluoride was carcinogenic at doses up to 4.73 mg/kg/day in female rats or at doses up to 17.8 and 19.9 mg/kg/day in male and female mice, respectively.
  • 環境運命予測 Hydrogen fluoride is a colorless, fuming liquid with a strong, irritating odor. The density is 1.002 at 0 ℃ and the boiling point is 19.51 ℃. Hydrogen Fluoride is naturally released into the environment, primarily from volcanoes, ranging from 0.6 to 6 million metric tons per year. The majority of artificial pollutants come from electrical utilities.
    Hydrogen fluoride is removed from air by wet deposition as fluoride salts with an atmospheric lifetime of 1–5 days.
  • 貯蔵 All work with HF should be conducted in a fume hood to prevent exposure by inhalation, and splash goggles and neoprene gloves should be worn at all times to prevent eye and skin contact. Containers of HF should be stored in secondary containers made of polyethylene in areas separate from incompatible materials. Work with anhydrous HF should be undertaken using special equipment and only by well-trained personnel familiar with first aid procedures.
  • 純化方法 It can be purified by trap-to-trap distillation, followed by drying over CoF2 at room temperature and further distillation. Alternatively, it can be absorbed on NaF to form NaHF2 which is then heated under vacuum at 150o to remove volatile impurities. The HF is regenerated by heating at 300o and is stored with CoF3 in a nickel vessel, being distilled as required. (Water content should be ca 0.01%.) To avoid contact with base metal, use can be made of nickel, polychlorotrifluoroethylene and gold-lined fittings [Hyman et al. J Am Chem Soc 79 3668 1957]. An aqueous solution is hydrofluoric acid (see above). It is HIGHLY TOXIC and attacks glass.
  • Toxicity evaluation HFA is toxic by ingestion, inhalation, and (most commonly) by dermal exposure. It is highly corrosive to the skin and mucous membranes with very short (5 s or less) exposure concentrations of 0.003% and above, acting by protonation of tissues. It causes a liquefying necrosis at the site of contact. Absorption of fluoride ions leads to systemic fluoride poisoning, in turn leading to hypokalemia and hypomagnesemia potentially resulting in neuromuscular paralysis and cardiac arrhythmias.
  • 不和合性 HF reacts with glass, ceramics, and some metals. Reactions with metals may generate potentially explosive hydrogen gas.
  • 廃棄物の処理 Excess hydrogen fluoride and waste material containing this substance should be placed in an appropriate container, clearly labeled, and handled according to your institution's waste disposal guidelines. For more information on disposal procedures, see Chapter 7 of this volume.
  • 参考文献 [1] David J. Monk, and David S. Soane, A review of the chemical reaction mechanism and kinetics for hydrofluoric acid etching of silicon dioxide for surface micromachining applications, Thin Solid Films, 1993, vol. 232, 1-12
    [2] P. Sanz-Gallen, S. Nogue, P. Munne and A. Faraldo, Hybocalcaemia and hypomagnesaemia due to hydrofluoric acid, Occup Med (Lond), 2001, vol. 51, 294-295
  • GRADES AVAILABLE Anhydrous hydrogen fluoride is available from a number of suppliers with grades ranging from 99.0 percent to 99.96 percent. The major impurities are water (H20) and sulfur dioxide (S02).
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  • 製品カタログ:23035
  • 優位度:58
  • 名前:Chongqing Chemdad Co., Ltd
  • 電話番号:+86-13650506873
  • ファックス番号:
  • 電子メール:sales@chemdad.com
  • 国籍:CHINA
  • 製品カタログ:37282
  • 優位度:58
  • 名前:CONIER CHEM AND PHARMA LIMITED
  • 電話番号:86-18523575427
  • ファックス番号:
  • 電子メール:sales@conier.com
  • 国籍:CHINA
  • 製品カタログ:47498
  • 優位度:58
  • 名前:Shaanxi Dideu Medichem Co. Ltd
  • 電話番号:15336106720
  • ファックス番号:029-88380327
  • 電子メール:1017@dideu.com
  • 国籍:CHINA
  • 製品カタログ:3979
  • 優位度:58
7664-39-3, ヒドリドふっ素 キーワード:
  • 7664-39-3
  • Hydrofluoric Acid, 48-52 Percent, Technical
  • Hydrofluoric Acid, 49 Percent, Electronic/CleanrooM Grade
  • Hydrofluoric Acid, 70 Percent, Technical
  • Hydrofluoric Acid, TraceGrade
  • Hydrofluoric Acid, Ultratrace
  • Hydrofluoric acid, 40 wt.% solution in H2O, for analysis
  • Hydrofluoric acid, ACS reagent, 48.0 - 51.0% HF
  • Hydrofluoric acid 48 wt. % in H2O, >=99.99% trace metals basis
  • Hydrofluoric acid ACS reagent, 48%
  • Hydrofluoric acid puriss. p.a., ACS reagent, reag. ISO, reag. Ph. Eur., >=48%
  • Hydrofluoric acid puriss. p.a., reag. ISO, reag. Ph. Eur., >=40%
  • Hydrofluoric acid puriss., >=40%
  • Hydrofluoric acid semiconductor grade MOS PURANAL(TM) (Honeywell 17928), 49.5-50.5%
  • Hydrofluoric acid technical, 40-45%
  • 4X GC BUFFER II (10 X 1.5 ML)
  • HF2
  • Hydrofluoric acid, for analysis, 48 to 51% solution in water, 48 to 51% solution in water
  • Hydrofluoric acid, Environmental, 47-51%
  • Hydrofluoric acid, 40.0% min., 99.99% trace metals basis
  • HF Hydrofluoric acid 48% Hydrofluoric acid 40% Hydrofluoric acid 58-62% Hydrofluoric acid 47-51%
  • Hydrofluoric acid, Single sub-boiling quartz distillation
  • Hydrofluoric Acid, 48-50%
  • Hydrofluoric acid, p.a.
  • Hydrofluoric acid, OmniTrace? Ultra
  • Hydrofluoric Acid, Reag. Ph. Eur. reag. ISO
  • Hydrofluoric Acid, CMOS
  • fluorhydricacid
  • Fluoric acid
  • Fluorowodor
  • fluorowodor(polish)
  • ふっ化水素酸
  • ふっ化水素酸塩
  • ふっ化水素
  • ヒドリドふっ素
  • フッ化水素(子グレト)
  • 毒物 フッ化水素酸 弗化水素
  • フッ酸
  • フッ化水素酸 47-51%,TRACESELECT,FOR TRACE ANALYSIS
  • フッ化水素酸 ACS REAGENT,48%
  • フッ化水素酸 PURISS. P.A.,ACS REAGENT,REAG. ISO,REAG. PH. EUR.,≥48%
  • フッ化水素酸 PURISS. P.A.,REAG. ISO,REAG. PH. EUR.,≥40%
  • フッ化水素酸 PURISS.,≥40%
  • フッ化水素酸 TECHNICAL,40-45%
  • ふっ化水素酸 46~48%