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Appearance: White, free-flowing crystals; occasional dark specks may be present.* Meets or exceeds ACS Reagent Grade Specifications * Occasional dark particles may be visible and scattered in the product. The particles have no detectable effect on product purity and will not be cause for rejection. Application: ACS grade used for Electrolyte for dry cells used at low temperatures, catalyst in certain oxidation reactions, solubilizer for polyamides and cellulose when used with amide solvents, chlorinating agent for steroid substrates.
Appearance: White powder Application: Additive in specialty glasses and low-expansion ceramics, analytical agent.
Appearance: Metallic silver in color Application: Anode material for lithium batteries. Lectro Battery Products: Livent provides a comprehensive line of products for battery applications including additional Lectro Max Anode Materials, Lectro Lyte Salts, and lithium precursors for producing critical battery materials. Livent possesses extensive capabilities to develop and customize products and packaging to meet specific customer requirements.
Appearance: Metallic silver in color Application: Anode material for lithium batteries. Lectro Battery Products: Livent provides a comprehensive line of products for battery applications including additional Lectro Max Anode Materials, Lectro Lyte Salts, and lithium precursors for producing critical battery materials. Livent possesses extensive capabilities to develop and customize products and packaging to meet specific customer requirements.
Lectro® Max Powder(SLMP®)は、各種要因によって阻害されないリチウム源を提供することで新世代のリチウムイオンバッテリーを実現し、アノードとカソードの両者における材料の選択肢を拡大します。リチウムをSiまたはSnベースなどのアノード母材とともに安定した粉末状にしてリチウムイオンシステムを構成することにより、リチウムをより効率的に使用した高エネルギーのバッテリーが生まれます。また、過充電耐性に優れたマンガンやバナジウム、その他の金属酸化物および金属フッ化物など、リチウムを供給しないカソードを使用することでコストが削減されうるため、より安全かつ安価なバッテリーが手に入る可能性があります。これらの材料を併用すれば、現在利用可能なリチウムイオンバッテリーの2倍のエネルギー密度を手に入れることも夢ではありません。 Lectro® Max Powder(SLMP®)は、薄いリチウム箔の代替手段として各種用途に活用できるほか、核融合研究装置におけるプラズマ性能の向上にも貢献します。
Appearance: An odorless, white powder. Lithium carbonate based admixture. Application: LifeTech superfines is the medium of the LifeTech grades of lithium carbonate available from Livent. Because of its fine particle size and narrow particle size distribution, this product has been chosen as the grade of choice where reactivity and performance are based on the surface area of the lithium carbonate particles providing controllable, uniform and predictable rates of reaction. Since it is the medium of the grades, it is not as reactive as the ultrafines, but more reactive than the fines. If a different reaction rate is desired, the other LifeTech grades should be evaluated in use. LifeTech superfines is a chemical admixture that can be used to adjust and accelerate the setting time of cementitious systems such as high-alumina cements (HAC) and aluminaportland cement blends. The unique properties of LifeTech superfines have made this product the grade of lithium carbonate of choice in a number of other applications such as in manufacture of ceramics, welding rods, refractory materials, and specialty glasses.
Appearance: An odorless, white powder. Lithium carbonate based admixture. Application: LifeTech ultrafines is the finest of the LifeTech grades of lithium carbonate available from Livent. Because of its fine particle size and narrow particle size distribution, this product has been chosen as the grade of choice where reactivity and performance are based on the surface area of the lithium carbonate particles providing controllable, uniform and predictable rates of reaction. Since it is the finest of the grades, it is also the most reactive in these situations. If a slower reaction is desired, the other LifeTech grades should be evaluated in use. LifeTech ultrafines is a chemical admixture that can be used to adjust and accelerate the setting time of cementitious systems such as high-alumina cements (HAC) and aluminaportland cement blends. The unique properties of LifeTech ultrafines have made this product the grade of lithium carbonate of choice in a number of other applications such as in manufacture of ceramics, welding rods, refractory materials, and specialty glasses.
Appearance: Clear, yellow to red solution. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
LHSは非自然発火性の強塩基であり、メタル化剤として有機合成に広く使用されます。この試薬の主なメリットは、脱プロトン化反応における選択性の向上と、熱安定性の向上です。ラクトン前駆体の調製のためのエノラート生成時に塩基として使用されます。(1)J.Org.Chem.1993, 58, 7304、(2)Synlett 1993, 507、(3)Tetrahedron 1994, 50, 9061。LHSはTHF溶液として提供されるため、輸送用コンテナから化学反応炉や貯蔵容器への装入が簡単です。LHSは、リチウムジイソプロピルアミド(LDA)よりも安定した塩基です。
Appearance: Clear, colorless to yellow solution. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
Appearance: Clear, colorless to yellow solution. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
sec-ブチルリチウム(SBL)は非常に強い塩基性を有し、有機合成に極めて有用です。SBLは、芳香族基質のオルトメタル化において特に高い利用価値を示します。また、SBLは、スチレンと共役ジエンのアニオン重合における非常に有効な開始剤でもあります。特にSBR溶液およびスチレン系熱可塑性エラストマー(TPE)の合成は、SBLによって促進されます。参考文献:The Chemistry of Organolithium Compounds, ed. Zvi Rappoport and Ilan Marek, Wiley, 2004, West Sussex, England
LHSは非自然発火性の強塩基であり、メタル化剤として有機合成に広く使用されます。エナメルやガラス、上薬の強力なフラックスであるとともに、ろう付けおよび溶接用フラックス、溶融塩による化学反応および金属精製のほか、ヒートシンク材料にも用いられます。
リチウム金属は、固有の特性により、さまざまな用途に活用されます。リチウムの原子番号は3であり、原子量は6.941です。ナトリウムよりは若干固く、鉛よりは柔らかい物質であり、密度が0.531 g/cm3(つまり水の半分程度)であるため非常に軽量です。リチウムは融点(180.5°C)と沸点(1336°C)の差が大きく、熱容量も理想的であるため、ヒートシンクや熱伝導用途に適しています。また、リチウムは強力な還元剤でもあり、弱い酸化剤にも敏感に反応(室温で窒素に反応)します。さまざまな反応において強力な還元剤となるリチウムですが、アルカリ金属類に対する反応性は他の元素よりも低くなっています。
A free-flowing, odorless white powder with guaranteed 99.5 wt. % purity and a 5 μm D50 particle size. Micronized Battery Grade product is a superior purity grade for use as a precursor in making critical battery materials.
Appearance: An odorless white, free-flowing powder Application: A free-flowing, odorless white powder with guaranteed 99.3 wt.% purity and a relatively fine particle size. Technical Grade product is a higher purity grade for use as a precursor in making critical battery materials, is useful in the manufacture of glass, frits, other ceramics and a variety of specialized applications.
溶融塩による化学反応および金属精製のほか、ろう付け用フラックス、有機酸化反応の触媒、低温用途の乾電池の電解質、繊維化のための紡糸液の安定剤に使用されます。 アミド溶媒と併用することでポリアミドおよびセルロースの可溶化剤となり、ステロイド薬の塩素化剤としても有用。 また、乾燥装置用の乾燥剤や廃水のトレーサーとしても用いられます。
Appearance: An odorless white, free-flowing powder Application: A free-flowing, odorless white powder with guaranteed 99.5 wt. % purity and a 5 μm D50 particle size. Micronized Battery Grade product is a superior purity grade for use as a precursor in making critical battery materials.
Appearance: An odorless white, free-flowing powder Application: A free-flowing, odorless white powder with guaranteed 99.5 wt. % purity and a relatively fine particle size. Battery Grade product is a superior purity grade for use as a precursor in making critical battery materials.
Appearance: Clear, colorless to yellow solution. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
Appearance: Light or pale yellow; clear and free of suspended material. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
n-ヘキシルリチウムは非自然発火性の強塩基であり、主に有機合成に(脱プロトン化反応において、またリチオ化試薬として)活用されます。この試薬のメリットは、脱プロトン化反応の副生成物としてn-ヘキサンが生じる点です。n-ヘキサンは、n-ブチルリチウムの脱プロトン化で生成されるn-ブタンよりも揮発性が低く引火点が高いのが特徴です。1)The Chemistry of Organolithium Compounds; Pergamon: Oxford, 1974、2)Organolithium Methods; Academic Press: London, 1988
Appearance: Clear, light yellow solution. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
Appearance: Light yellow to dark amber, clear to cloudy. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
Appearance: Clear, yellowish solution. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers. Also used for synthesis of chemical intermediates.
Appearance: Clear, yellowish solution. Application: Deprotonation and metal–halogen exchange reactions; synthesis of solution styrene butadiene rubber and of styrenic thermoplastic elastomers.
t-ブチルリチウムのヘプタン溶液は、自然発火性であることには変わりがないものの、従来のペンタンを用いた手法よりも引火点が大幅に高いという特徴があります。TBLは、リチウム-ハロゲン交換反応において特に有用であるとともに、強塩基として有機合成に活用できます。また、TBLはt-ブチルグリニャール試薬よりもカルボニル基質およびニトリル基質への求核付加反応性が高いほか、リン、シリコン、スズ、チタンなど無機化合物のハロゲン配位子またはアルコキシド配位子の置換にも有用です。参考文献:The Chemistry of Organolithium Compounds, ed. Zvi Rappoport and Ilan Marek, Wiley, 2004, West Sussex, England
LiOMeは中程度の塩基性を有し、主に有機合成に(特にエステル交換に最も頻繁に)活用されます。この試薬は現在、LiOMeをメタノールに溶かした2.2M溶液として提供されているため、輸送用コンテナから貯蔵容器や化学反応炉への装入が非常に簡単です。水分と接触するとメタノールおよび水酸化リチウムへと変化し、結果的に溶液が濁ります。主な参考文献:J. Mater.Res.1999, 14, 1510
THIS PRODUCT IS PREPARED SPECIFICALLY FOR PHARMACEUTICAL APPLICATIONS FOR HUMAN CONSUMPTION AND IS MANUFACTURED ACCORDING TO FDA “CURRENT GOOD MANUFACTURING PRACTICE” (CGMP). IT IS AN FDA-APPROVED DRUG DISPENSED ONLY BY PHYSICIANS’ PRESCRIPTION AND AVAILABLE ONLY TO REGISTERED, AUTHORIZED PHARMACEUTICAL MANUFACTURERS AND REPROCESSORS. Appearance: White, granular powder. Application: Pharmaceutical grade approved by FDA for treatment of bipolar disorder and manic-depressive psychosis. A comprehensive text book by Dr. F. N. Johnson, titled Lithium Research and Therapy [Academic Press, NY, 1975], gives details regarding medical applications for lithium and includes recommended procedures for the treatment of a patient suffering from lithium poisoning.
Appearance: Metallic silver in color. Application: For use in alloys and battery applications.
当社の標準的な合金グレードの金属よりも不純物プロファイルの数値が低い、合金グレードの高純度リチウム金属です。軽量なアルミニウム-リチウム合金やマグネシウム-リチウム合金の生産、およびこれらに類するその他の軽量金属用途の厳しい要件を満たします。このグレードのリチウム金属の純度の高さは、最終製品の特性を向上させ、特に航空宇宙および自動車業界に最適です。
Appearance: Clear colorless solution Application: Deicing solutions, low-freezing solutions for fire extinguishers, catalyst, and dehumidifying systems, photosensitive developer compositions.
Appearance: Free-flowing white crystals.* * Occasional dark particles may be visible and scattered in the product. The particles have no detectable effect on product purity and will not be cause for rejection. Application: Molten salt chemistry and metallurgy, brazing fluxes, catalyst for organic oxidation reactions, electrolyte in dry cells used in low temperatures, and stabilizer in textile fiber spinning solutions. Solubilizer for polyamides and cellulose when used with amide solvents, chlorinating agent for steroid agents. Desiccant for drying applications, tracer in wastewater.
Appearance: An odorless white, free-flowing powder Application: A free-flowing, odorless white powder with guaranteed 99.0 wt. % purity and a relatively fine particle size. Industrial Grade product is a useful in the manufacture of glass, frits, other ceramics and a variety of specialized applications.
水素化リチウム トリ-tert-ブトキシアルミニウムは、水素化リチウムアルミニウム(LAH)よりも反応性が低く、ハロゲン化アシル類およびアルデヒド類、ケトン類、エステル類の選択的還元に極めて有用です。この試薬は一般に、特に低温において、有機溶媒に対する高い溶解度を示します。参考文献:1)H.C.Brown; J.Am.Chem.Soc.1964, 86, 1089、2)J. Malek; M. Cerny, Synthesis, 1972, 217、3)J. Malek, Org.React.1985, 34,1
Appearance: White, fine powder to 11±2 μm. Application: A free-flowing granular solid used in the production of cathode active material for lithium-ion batteries. It is also well suited for use in the production of lithium greases, dyes, resins, coatings, water treatment and many other specialty chemicals.
Appearance: White, fine powder to 15±2 μm. Application: A free-flowing granular solid used in the production of cathode active material for lithium-ion batteries. It is also well suited for use in the production of lithium greases, dyes, resins, coatings, water treatment and many other specialty chemicals.
Appearance: White, fine powder to 5±1.5 μm. Application: A free-flowing granular solid used in the production of cathode active material for lithium-ion batteries. It is also well suited for use in the production of lithium greases, dyes, resins, coatings, water treatment and many other specialty chemicals.
流動性に優れた粒状固体のため、リチウムグリースや染料、特殊樹脂、その他さまざまな特殊化学製品の製造に最適です。粒径分布が狭く、細粒分含有量が少ないという特徴があります。
Appearance: White crystals Application: Ultra-pure product suitable for use in production of electronic materials and other industries.
正丁基锂具有非常强的碱性,在有机合成中极为有用。人们发现,在去质子化和金属-卤素交换反应中,NBL 特别实用。NBL 还是苯乙烯与共轭二烯阴离子聚合反应的一种非常有效的引发剂。尤其是 NBL 可以促进 SBR 溶液和苯乙烯热塑性弹性体 (TPE) 的合成。参考资料:“有机锂化合物的化学性质”(The Chemistry of Organolithium Compounds),编者 Zvi Rappoport 和 Ilan Marek,Wiley,2004 年,英国西萨塞克斯郡。
CaOおよびNaOH、Mgの含有量を大幅に低減した、流動性に優れた粒状固体です。精製グレードは、精密化学品や特殊グリースの製造に活用されるほか、リチウムイオンバッテリー用のカソード材料の生産用途にも適しています。
Appearance: Free-flowing white crystals.* * Occasional dark particles may be visible and scattered in the product. The particles have no detectable effect on product purity and will not be cause for rejection. Application: Molten salt chemistry and metallurgy, brazing fluxes, catalyst for organic oxidation reactions, electrolyte in dry cells used in low temperatures, and stabilizer in textile fiber spinning solutions. Solubilizer for polyamides and cellulose when used with amide solvents, chlorinating agent for steroid agents. Desiccant for drying applications, tracer in wastewater.