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리튬 과염소산

리튬 과염소산 구조식 이미지

카스 번호:: 7791-03-9

한글명:: 리튬 과염소산

동의어(한글):: 리튬과염소산;리튬과염소산;과염소산 리튬;과염소산 리튬 (LiClO4);과염소산, 리튬 염;과염소산, 리튬 염 (1:1)

상품명:: Lithium perchlorate

동의어(영문):: LiClO4;ithium perchL;Lithiumperchlora;chloristan litny;Lithium cloricum;Lithiumperchlorat;Iithium perchlorate;LITHIUM PERCHLORATE;perchloratedelithium;Lithium perchlorate ,99%

CBNumber:: CB9697841

분자식:: ClLiO4

포뮬러 무게:: 106.39

MOL 파일:: 7791-03-9.mol

속성

안전

용도

리튬 과염소산 속성

녹는점: 236 °C (lit.)

끓는 점: 430°C

밀도: 1.13 g/mL at 20 °C

인화점: 400°C

용해도: H₂O: 1 M at 20 °C, 투명, 무색

물리적 상태: 가루

Specific Gravity: 2.43

색상: 하얀색

pH 범위: 6.0 - 7.5

수소이온지수(pH): 6.0-7.5 (25℃, 5%)

수용성: 600g/L(25℃)

감도: Hygroscopic

Merck: 14,5539

안정성: 강산화제 - 가연성 물질과 접촉하면 화재가 발생할 수 있습니다. 유기 물질, 가연성 물질, 강력한 환원제와 호환되지 않습니다.

CAS 데이터베이스: 7791-03-9(CAS DataBase Reference)

NIST: Lithium perchlorate(7791-03-9)

EPA: Perchloric acid, lithium salt (7791-03-9)

안전

위험 및 안전 성명
위험 및 사전주의 사항 (GHS)

위험품 표기	O,Xi,Xn,F
위험 카페고리 넘버	8-36/37/38-9-20/22-11-67
안전지침서	17-26-36-37/39-36/37/39-16
유엔번호(UN No.)	UN 1993 3/PG 1
WGK 독일	1
F 고인화성물질	3
TSCA	Yes
위험 등급	5.1
포장분류	II
HS 번호	28299000
기존화학 물질	KE-22585

그림문자(GHS):

신호 어:

Danger

유해·위험 문구:

암호	유해·위험 문구	위험 등급	범주	신호 어	P- 코드
H272	화재를 강렬하게 함; 산화제	산화성 액체;산화성 고체	구분 2 구분 3	위험 경고	P210, P220, P221P280, P370+P378,P501
H302	삼키면 유해함	급성 독성 물질 - 경구	구분 4	경고	P264, P270, P301+P312, P330, P501
H314	피부에 심한 화상과 눈에 손상을 일으킴	피부부식성 또는 자극성물질	구분 1A, B, C	위험	P260,P264, P280, P301+P330+ P331,P303+P361+P353, P363, P304+P340,P310, P321, P305+ P351+P338, P405,P501
H335	호흡 자극성을 일으킬 수 있음	특정 표적장기 독성 - 1회 노출;호흡기계 자극	구분 3	경고

예방조치문구:

P210	열·스파크·화염·고열로부터 멀리하시오 - 금연 하시오.
P260	분진·흄·가스·미스트·증기·...·스프레이를 흡입하지 마시오.
P280	보호장갑/보호의/보안경/안면보호구를 착용하시오.
P301+P312	삼켜서 불편함을 느끼면 의료기관(의사)의 진찰을 받으시오.
P303+P361+P353	피부(또는 머리카락)에 묻으면 오염된 모든 의복은 벗거나 제거하시오 피부를 물로 씻으시오/샤워하시오.
P305+P351+P338	눈에 묻으면 몇 분간 물로 조심해서 씻으시오. 가능하면 콘택트렌즈를 제거하시오. 계속 씻으시오.

NFPA 704

	1
0		2
	OX

리튬 과염소산 C화학적 특성, 용도, 생산

개요

Lithium perchlorate,is an oxysalt that is a colorless, deliquescent crystal. Oxysalt “per-ate” compounds are loaded with excess oxygen and will readily give it up in a reaction. Lithium perchlorate is a powerful oxidizing agent. It has more available oxygen than does liquid oxygen on a volume basis. Lithium perchlorate has a specific gravity of 2.429, which is heavier than water, and is water soluble. It is a dangerous fire and explosion risk in contact with organic materials and is an irritant to skin and mucous membranes. The primary use of lithium perchlorate is as a solid rocket propellant. Chlorates are strong oxidizing agents. When heated, they give up oxygen readily. Contact with organic or other combustible materials may cause spontaneous combustion or explosion. They are incompatible with ammonium salts, acids, metal powders, sulfur, and finely divided organic or combustible substances.

화학적 성질

White crystalline powder

용도

The big advantage of lithium perchlorate is its high density and oxygen availability for combustion. A quite interesting methodology involves the use of lithium perchlorate anhydrides complexes in the acylation of activated aromatic compounds.Lithium perchlorate is frequently utilized as promoter to accelerate the acylation process and to increase the yield in the reaction catalyzed by metal triflates.However, lithium perchlorate itself can act as a very efficient catalyst in the acylation of variously substituted methoxy? and methylbenzenes with AAN affording the aryl ketones in 65%–99% yield. The exceptional activation is ascribed to the formation of a complex with a strong electrophilic character between lithium perchlorate and AAN in neat AAN. The observed para?regioselectivity can be interpreted in terms of the high steric requirement of the lithium perchlorate– AAN complex. A further important feature of this process is the possibility of quantitatively recovering and reusing the catalyst after activation. It must be underlined, however, that lithium perchlorate is an oxidizing compound and can undergo devastating explosions; consequently, it must be handled with maximum care.

일반 설명

Lithium perchlorate (LiClO₄) is a colorless lithium salt. Upon crystallization from its aqueous solution, it affords lithium perchlorate trihydrate (LiClO₄.3H₂O). It can be synthesized by reacting lithium chloride with perchloric acid.

배터리 재료

Lithium perchlorate (LiClO4) is sufficiently soluble (beyond 1Min organic solvents, e.g., EC/DMC) and forms electrolyte solutions with good conductivity (about 9 mS·cm?1 in EC/DMC at ambient temperature). In organic solvents LiClO4 forms thicker solid electrolyte interface (SEI) layers than LiPF6 or LiBF4, but they are less resistive. This fact is attributed to the highly resistive LiF on the surface which is formed by hydrogen fluoride (HF) generated by hydrolysis of fluorine-containing anions, for example, LiBF4 and LiPF6, with traces of moisture and the existing SEI layer [62, 63]. Furthermore, it has a high anodic stability of up to 5.1 V on LiMn2O4 in EC/DMC and is less hygroscopic than LiPF6. Despite its many advantages, the high oxidation state of chlorine (VII) in ClO4 ? results in problems. LiClO4 solutions are thermally unstable and show explosion risks, especially in ethers.

Purification Methods

Crystallise it from water or 50% aqueous MeOH. It is rendered anhydrous by heating the trihydrate at 170-180o in an air oven. It can then be recrystallised twice from acetonitrile and again dried under vacuum [Mohammad & Kosower J Am Chem Soc 93 2713 1971]. SKIN IRRITANT.

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원자재

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