strontium(II) carbonate | 1633-05-2

• 物质功能分类: 无机化工 - 无机盐 - 碳化物及碳酸盐
• 分子结构分类: 有机化合物 - 有机酸及其衍生物 - 有机碳酸及其衍生物
• 英文名称: strontium(II) carbonate
• 英文别名: strontium carbonate；SrCO3；strontium;carbonate
• CAS: 1633-05-2
• 化学式: CO₃*Sr
• 分子量: 147.629
• InChiKey: LEDMRZGFZIAGGB-UHFFFAOYSA-L

物化性质

• 熔点：
  1494 °C (lit.)
• 密度：
  3.7 g/mL at 25 °C (lit.)
• 溶解度：
  微溶（lit.）于稀可溶于酸性水溶液
• LogP：
  -0.809 (est)
• 物理描述：
  DryPowder; PelletsLargeCrystals
• 颜色/状态：
  Colorless or white rhombic crystalline solid transforming to hexagonal above 926 °C
• 气味：
  ODORLESS
• 味道：
  TASTELESS
• 分解：
  DECOMPOSES AT 1100 °C INTO STRONTIUM OXIDE AND CARBON DIOXIDE
• 折光率：
  Index of refraction (alpha, beta, gamma): 1.518, 1.666, 1.668
• 稳定性/保质期：

  菱锶矿是一种碳酸盐矿物，化学组成包括70.19%的SrO和29.81%的CO2，常含锰、钡和钙。硬度约为3.5，性脆，相对密度为3.76。通常呈白色，因含杂质可能呈现灰、黄、浅绿或褐色等颜色，条痕仍保持白色。斜方晶系中完全菱面体解理，具有玻璃光泽，断面油脂光泽明显，贝壳状断口。溶于稀盐酸并产生气泡。菱锶矿常与方铅矿、闪锌矿和黄铜矿一起存在于含硫化物的矿脉中，也可能与方解石、白云石及石英共生。

计算性质

• 辛醇/水分配系数(LogP)：
  -2.83
• 重原子数：
  5
• 可旋转键数：
  0
• 环数：
  0.0
• sp3杂化的碳原子比例：
  0.0
• 拓扑面积：
  63.2
• 氢给体数：
  0
• 氢受体数：
  3

ADMET

毒理性

• 吸入症状

咳嗽。

Cough.

来源:ILO-WHO International Chemical Safety Cards (ICSCs)

毒理性

• 眼睛症状

Redness.

Redness.

来源:ILO-WHO International Chemical Safety Cards (ICSCs)

毒理性

• 人类毒性摘录

锶的无机盐，如氯化锶、硫酸锶、碳酸锶等，都非常温和。在大量口服时，它们可能产生局部渗透压效应，因此倾向于引起呕吐和腹泻。

... Inorganic salts of strontium /such/ as the chloride, sulfate, carbonate ... are remarkably benign. ... In large oral doses they presumably exert local osmotic effects & so tend to induce vomiting & diarrhea.

来源:Hazardous Substances Data Bank (HSDB)

毒理性

• 非人类毒性摘录

慢性中毒的主要迹象，涉及骨骼，已被标记为“锶佝偻病”。... 通过在实验大鼠的饮食中添加2%锶的碳酸锶，已经诱导出了佝偻病。

Major signs of chronic toxicity, which involve the skeleton, have been labeled as "strontium rickets". ... Rickets /have been produced/ in laboratory rats by feeding them strontium carbonate at 2% strontium in diet.

来源:Hazardous Substances Data Bank (HSDB)

毒理性

• 非人类毒性摘录

这项研究调查了碳酸锶对Wistar品系大鼠骨骼畸形的影响，并使用骨骼制备（道森法和诺瓦克法）进行研究。同时，对有明显先天性脊柱侧弯的胎儿进行了组织学检查。在怀孕期间，将碳酸锶（200毫克/100克体重）与颗粒饲料（东方高望株式会社15克/天）或常规饮食混合后给予。结果显示，胸腰椎交界处出现了脊柱后凸，其他部位有时也显示出椎骨排列不齐。弯曲的脊椎骨体呈梯形。常规饮食组的骨骼畸形比颗粒饲料组更频繁且更明显。

THE SKELETAL MALFORMATIONS INDUCED IN RATS OF WISTAR STRAIN BY STRONTIUM CARBONATE WERE STUDIED WITH SKELETAL PREPARATIONS (DAWSON'S & NOVAK'S METHODS) & FETUSES WITH MARKED CONGENITAL KYPHOSIS WERE EXAMINED HISTOLOGICALLY. STRONTIUM CARBONATE (200 MG/100 G BODY WT) MIXED WITH A PELLET (ORIENTAL KOBO LTD 15 G/DAY) OR A ROUTINE DIET WAS ADMINISTERED DURING PREGNANCY. THE VERTEBRAL COLUMN SHOWED KYPHOSIS AROUND THE JUNCTION OF THORACIC & LUMBAR VERTEBRAE, & DISARRANGEMENT OF VERTEBRAE WERE SOMETIMES SHOWN AT THE OTHER PARTS. THE VERTEBRAL BODY AT THE CURVED VERTEBRAL COLUMN WAS TRAPEZOID IN FIGURE. SKELETAL MALFORMATIONS OF A ROUTINE DIET GROUP WERE MORE FREQUENT & MORE MARKED THAN A PELLET GROUP.

来源:Hazardous Substances Data Bank (HSDB)

安全信息

• TSCA：
  Yes
• WGK Germany：
  -
• 危险品运输编号：
  NONH for all modes of transport
• 海关编码：
  2836920000
• 危险性防范说明：
  P261,P305+P351+P338,P273
• 危险性描述：
  H302,H315,H319,H335,H413
• 储存条件：
  保持容器密封，并储存在阴凉、干燥的地方。 采用内衬塑料薄膜的编袋装包装，每袋净重25公斤、50公斤或100公斤，应密封存贮于阴凉、干燥处，以防止包装破裂。

SDS

Name:	Strontium Atomic Absorption Standard Solution 1 mg/ml Sr in 2% HCl Material Safety Data Sheet
Synonym:	None known
CAS:	1633-05-2

Section 1 - Chemical Product MSDS Name:Strontium Atomic Absorption Standard Solution 1 mg/ml Sr in 2% HCl Material Safety Data Sheet
Synonym:None known

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Section 2 - COMPOSITION, INFORMATION ON INGREDIENTS

CAS#	Chemical Name	content	EINECS#
1633-05-2	Strontium carbonate	<1.0	216-643-7

Hazard Symbols: C
Risk Phrases: 34

---

Section 3 - HAZARDS IDENTIFICATION
EMERGENCY OVERVIEW
Causes burns.Corrosive.
Potential Health Effects
Eye:
Causes eye burns. May cause chemical conjunctivitis and corneal damage.
Skin:
Causes skin burns. May cause skin rash (in milder cases), and cold and clammy skin with cyanosis or pale color.
Ingestion:
May cause severe and permanent damage to the digestive tract. Causes gastrointestinal tract burns. May cause perforation of the digestive tract. May cause systemic effects.
Inhalation:
May cause severe irritation of the respiratory tract with sore throat, coughing, shortness of breath and delayed lung edema. Causes chemical burns to the respiratory tract. Aspiration may lead to pulmonary edema. May cause systemic effects.
Chronic:
Effects may be delayed.

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Section 4 - FIRST AID MEASURES
Eyes: Get medical aid immediately. Do NOT allow victim to rub eyes or keep eyes closed. Extensive irrigation with water is required (at least 30 minutes).
Skin:
Get medical aid immediately. Immediately flush skin with plenty of water for at least 15 minutes while removing contaminated clothing and shoes. Wash clothing before reuse. Destroy contaminated shoes.
Ingestion:
Do not induce vomiting. If victim is conscious and alert, give 2-4 cupfuls of milk or water. Never give anything by mouth to an unconscious person. Get medical aid immediately.
Inhalation:
Get medical aid immediately. Remove from exposure and move to fresh air immediately. If breathing is difficult, give oxygen. Do NOT use mouth-to-mouth resuscitation. If breathing has ceased apply artificial respiration using oxygen and a suitable mechanical device such as a bag and a mask.
Notes to Physician:

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Section 5 - FIRE FIGHTING MEASURES
General Information:
As in any fire, wear a self-contained breathing apparatus in pressure-demand, MSHA/NIOSH (approved or equivalent), and full protective gear. During a fire, irritating and highly toxic gases may be generated by thermal decomposition or combustion. Use extinguishing media appropriate to the surrounding fire. Substance is noncombustible. Vapors may be heavier than air. They can spread along the ground and collect in low or confined areas.
Extinguishing Media:
Substance is noncombustible; use agent most appropriate to extinguish surrounding fire.

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Section 6 - ACCIDENTAL RELEASE MEASURES
General Information: Use proper personal protective equipment as indicated in Section 8.
Spills/Leaks:
Absorb spill with inert material (e.g. vermiculite, sand or earth), then place in suitable container. Avoid runoff into storm sewers and ditches which lead to waterways. Clean up spills immediately, observing precautions in the Protective Equipment section. Provide ventilation.

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Section 7 - HANDLING and STORAGE
Handling:
Use only in a well-ventilated area. Do not breathe dust, vapor, mist, or gas. Do not get in eyes, on skin, or on clothing. Keep container tightly closed. Do not ingest or inhale. Discard contaminated shoes.
Storage:
Keep container closed when not in use. Store in a cool, dry, well-ventilated area away from incompatible substances. Corrosives area.

---

Section 8 - EXPOSURE CONTROLS, PERSONAL PROTECTION
Engineering Controls:
Facilities storing or utilizing this material should be equipped with an eyewash facility and a safety shower. Use adequate ventilation to keep airborne concentrations low.
Exposure Limits CAS# 1633-05-2: Russia: 6 mg/m3 TWA CAS# 7647-01-0: United Kingdom, WEL - TWA: 1 ppm TWA (aerosol mist and gas); 2 mg TWA (aerosol mist and gas) United Kingdom, WEL - STEL: 5 ppm STEL (aerosol mist and gas); 8 mg/m3 STEL (aerosol mist and gas) United States OSHA: ; 5 ppm Ceiling; 7 mg/m3 Ceiling Belgium - TWA: 5 ppm VLE; 8 mg/m3 VLE Belgium - STEL: 10 ppm VLE; 15 mg/m3 VLE France - VLE: 5 ppm VLE; 7.5 mg/m3 VLE Germany: 8 mg/m3 TWA Japan: 5 ppm Ceiling; 7.5 mg/m3 Ceiling Malaysia: 5 ppm Ceiling; 7.5 mg/m3 Ceiling Netherlands: 10 ppm STEL; 15 mg/m3 STEL Netherlands: 5 ppm MAC; 8 mg/m3 MAC Russia: 5 mg/m3 TWA Spain: 5 ppm VLA-ED; 7.6 mg/m3 VLA-ED Spain: 10 ppm VLA-EC; 15 mg/m3 VLA-EC CAS# 7732-18-5: Personal Protective Equipment Eyes: Wear appropriate protective eyeglasses or chemical safety goggles as described by OSHA's eye and face protection regulations in 29 CFR 1910.133 or European Standard EN166.
Skin:
Wear appropriate protective gloves to prevent skin exposure.
Clothing:
Wear appropriate protective clothing to prevent skin exposure.
Respirators:
A respiratory protection program that meets OSHA's 29 CFR 1910.134 and ANSI Z88.2 requirements or European Standard EN 149 must be followed whenever workplace conditions warrant respirator use.

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Section 9 - PHYSICAL AND CHEMICAL PROPERTIES

Physical State: Liquid
Color: colorless
Odor: None reported.
pH: <1.0
Vapor Pressure: Not available.
Viscosity: Not available.
Boiling Point: Not available.
Freezing/Melting Point: Not available.
Autoignition Temperature: Not applicable.
Flash Point: Not applicable.
Explosion Limits, lower: Not available.
Explosion Limits, upper: Not available.
Decomposition Temperature:
Solubility in water: miscible
Specific Gravity/Density:
Molecular Formula: Solution
Molecular Weight: 0

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Section 10 - STABILITY AND REACTIVITY
Chemical Stability:
Stable under normal temperatures and pressures.
Conditions to Avoid:
Incompatible materials, excess heat.
Incompatibilities with Other Materials:
Strong acids, strong bases, strong oxidizing agents.
Hazardous Decomposition Products:
Hydrogen chloride.
Hazardous Polymerization: Has not been reported.

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Section 11 - TOXICOLOGICAL INFORMATION
RTECS#:
CAS# 1633-05-2: WK8305000 CAS# 7647-01-0: MW4025000 MW4031000 CAS# 7732-18-5: ZC0110000 LD50/LC50:
Not available.
CAS# 7647-01-0: Inhalation, mouse: LC50 = 1108 ppm/1H; Inhalation, mouse: LC50 = 20487 mg/m3/5M; Inhalation, mouse: LC50 = 3940 mg/m3/30M; Inhalation, mouse: LC50 = 8300 mg/m3/30M; Inhalation, rat: LC50 = 3124 ppm/1H; Inhalation, rat: LC50 = 60938 mg/m3/5M; Inhalation, rat: LC50 = 7004 mg/m3/30M; Inhalation, rat: LC50 = 45000 mg/m3/5M; Inhalation, rat: LC50 = 8300 mg/m3/30M; Oral, rabbit: LD50 = 900 mg/kg.
CAS# 7732-18-5: Oral, rat: LD50 = >90 mL/kg.
Carcinogenicity:
Strontium carbonate - Not listed by ACGIH, IARC, or NTP.
Hydrogen chloride - Not listed by ACGIH, IARC, or NTP.
Water - Not listed by ACGIH, IARC, or NTP.
Other:
See actual entry in RTECS for complete information.

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Section 12 - ECOLOGICAL INFORMATION

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Section 13 - DISPOSAL CONSIDERATIONS
Dispose of in a manner consistent with federal, state, and local regulations.

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Section 14 - TRANSPORT INFORMATION

IATA
Shipping Name: HYDROCHLORIC ACID
Hazard Class: 8
UN Number: 1789
Packing Group: II
IMO
Shipping Name: HYDROCHLORIC ACID
Hazard Class: 8
UN Number: 1789
Packing Group: II
RID/ADR
Shipping Name: HYDROCHLORIC ACID
Hazard Class: 8
UN Number: 1789
Packing group: II
USA RQ: CAS# 7647-01-0: 5000 lb final RQ; 2270 kg final RQ

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Section 15 - REGULATORY INFORMATION

European/International Regulations
European Labeling in Accordance with EC Directives
Hazard Symbols: C
Risk Phrases:
R 34 Causes burns.
Safety Phrases:
S 24/25 Avoid contact with skin and eyes.
WGK (Water Danger/Protection)
CAS# 1633-05-2: 0
CAS# 7647-01-0: 1
CAS# 7732-18-5: No information available.
Canada
CAS# 1633-05-2 is listed on Canada's DSL List.
CAS# 7647-01-0 is listed on Canada's DSL List.
CAS# 7732-18-5 is listed on Canada's DSL List.
CAS# 1633-05-2 is not listed on Canada's Ingredient Disclosure List.
CAS# 7647-01-0 is listed on Canada's Ingredient Disclosure List.
CAS# 7732-18-5 is not listed on Canada's Ingredient Disclosure List.
US FEDERAL
TSCA
CAS# 1633-05-2 is listed on the TSCA inventory.
CAS# 7647-01-0 is listed on the TSCA inventory.
CAS# 7732-18-5 is listed on the TSCA inventory.

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SECTION 16 - ADDITIONAL INFORMATION
N/A

制备方法与用途

天青石复分解法：

1. 将粉碎后的天青石与纯碱溶液反应，温度控制在100℃。
2. 碳酸钠初始浓度为20%，加入量为理论量的110%，矿粉粒度需达到80目。在此条件下，分解率可达97%以上。
3. 过滤后，滤液中硫酸钠浓度可高达24%。使用水打浆法处理粗制碳酸锶，并加盐酸调整pH值至3，在90-100℃下反应2-3小时。
4. 加入除钡剂去除杂质，再用氨水调整pH值至6.8-7.2进一步除去杂质。过滤后滤液用碳酸氢铵或碳酸铵溶液沉淀出碳酸锶，经过滤去除氯化铵溶液，干燥滤饼制得成品。

反应方程式：

• SrSO₄ + Na₂CO₃ → SrCO₃ + Na₂SO₄
• SrCO₃ + 2HCl → SrCl₂ + CO₂↑ + H₂O
• SrCl₂ + NH₄HCO₃ → SrCO₃ + NH₄Cl + HCl

煤还原法：

1. 将粉碎后的天青石与煤粉按1：0.6-1：0.7的比例混合，在1100-1200℃温度下还原焙烧，时间为0.5-1小时。
2. 经过两次浸取和一次水洗。浸取温度为90℃，每次浸泡3小时，总浸出率可达82%以上。
3. 滤液经过滤处理后，滤渣用盐酸进一步回收锶。滤液中加入芒硝溶液去除钡离子，再添加碳酸氢铵或碳酸钠生成碳酸锶沉淀。经过分离、干燥和粉碎制得成品。

反应方程式：

• SrSO₄ + 2C → SrS + 2CO₂
• 2SrS + 2H₂O → Sr(OH)₂ + Sr(HS)₂
• Sr(OH)₂ + Sr(HS)₂ + 2NH₄HCO₃ → 2Sr(CO₃) + 2NH₄HS + 2H₂O

菱锶矿热解法：

1. 将菱锶矿和焦炭粉碎，按重量比10：1的比例混合，并在1150-1250℃下焙烧。
2. 熟料经过三级浸取。二级和三级可在70-80℃下进行。最适浸取温度为95℃，有利于Ca²⁺、Mg²⁺杂质的分离。
3. 向滤液中加入碳酸氢铵进行碳化生成碳酸锶沉淀，并经过分离、烘干和粉碎制得成品。

反应方程式：

• SrCO₃ → SrO + CO₂↑
• SrO + H₂O → Sr(OH)₂
• Sr(OH)₂ + NH₄HCO₃ → SrCO₃↓ + NH₃·H₂O + H₂O

综合利用法：

• 将粉碎后的天青石与纯碱溶液反应，温度控制在100℃。
• 过滤后滤液中硫酸钠浓度可高达24%。使用水打浆法处理粗制碳酸锶，并加盐酸调整pH值至3，在90-100℃下反应2-3小时。
• 加入除钡剂去除杂质，再用氨水调整pH值至6.8-7.2进一步除去杂质。过滤后滤液用碳酸氢铵或碳酸铵溶液沉淀出碳酸锶，经过滤去除氯化铵溶液，干燥滤饼制得成品。

请注意，以上步骤和反应方程式可能需要根据实际实验室条件进行调整优化。

反应信息

• 作为反应物：
  描述：

  strontium(II) carbonate 在 氨 作用下， 反应 15.0h， 生成 strontium cyanamide
  参考文献：
  名称：

  三元碳二亚胺化合物Ba 0.9 Sr 0.1 NCN具有扭曲的金红石型结构

  摘要：

  三元碳二亚胺Ba 1- x Sr x NCN（x  = 0、0.1、0.2、0.5、0.8和1.0）是通过与（Ba，Sr）CO 3前驱体通过聚合络合方法进行氨解反应制得的。在x  == 0.1处获得了新的斜方碳二亚胺。它与x  = 0.2和0.5之间的SrNCN型固溶体共存。使用单晶X射线和粉末中子衍射数据确定Ba 0.9 Sr 0.1 NCN的晶体结构，并发现其采用正交晶Pnnm晶体结构。在这种结构中，Ba 2+和Sr 2+阳离子位于NCN 2-阴离子基团的N原子的八面体中，（Ba / Sr）N 6八面体形成扭曲的金红石型结构，C原子桥接N原子。

  DOI：

  10.1016/j.jssc.2021.122000
• 作为产物：
  描述：

  strontium sulfate 在 二氧化碳 、 一氧化碳 作用下， 以 neat (no solvent) 为溶剂， 生成 strontium(II) carbonate
  参考文献：
  名称：

  用 CO 还原 SrSO4 的动力学

  摘要：

  摘要 已经发现用 CO 还原 SrSO4 的过程会导致 SrS 的形成。通过添加 CO2 增加还原气体的氧含量会导致 SrCO3 的形成。使用 5% CO + 95% CO2 混合物，在 1240–1420 K 温度范围内进行的实验中形成 SrCO3。该过程由成核和生长控制，活化能为 115 ± 10 kJ mol-1。应用 10% CO + 90% N2 气体混合物导致 SrS 形成。在这种情况下，还原过程有两个阶段，第一个阶段与成核和生长有关，第二个阶段显然受扩散控制。给出了两个过程的活化能值。

  DOI：

  10.1016/0040-6031(89)87241-7
• 作为试剂：
  描述：

  vanadia 、 manganese(II) oxalate dihydrate 在 strontium(II) carbonate 作用下， 以 melt 为溶剂， 生成 manganese pyrovanadate
  参考文献：
  名称：

  Martensitic-like transition in Mn2V2O7 single crystals

  摘要：

  A reversible structural transition between alpha-beta phases of Mn2V2O7 single crystals is investigated by means of DSC and magnetic measurements. We suggest that such reversible structural transition in Mn2V2O7 is a martensitic-like transformation with a large thermal hysteresis, agreeing with a lowering in the crystallographic symmetry from austenite (monoclinic beta-phase) to martensite (triclinic alpha-phase). Further, we note that such martensitic-like transformation observed in Mn2V2O7 is completely independent of magnetic fields, frequencies, and even heating/cooling rates. (C) 2008 Elsevier Ltd. All rights reserved.

  DOI：

  10.1016/j.ssc.2008.04.038

文献信息

• Thermal decomposition of carbonates, carboxylates, oxalates, acetates, formates, and hydroxides
  作者：Jacob Mu、D.D. Perlmutter

  DOI：10.1016/0040-6031(81)80175-x

  日期：1981.11

  Abstract A study is reported of the controlled decomposition of various metal carbonates, carboxylates, oxalates, acetates, formates and hydroxides and their common hydrates, carried out in a thermogravimetric analyzer, a differential scanning calorimeter, and a differential thermal analyzer. Various sample sizes, heating rates, and ambient atmospheres were used to demonstrate their influence on the

  摘要 报道了在热重分析仪、差示扫描量热仪和差示热分析仪中进行的各种金属碳酸盐、羧酸盐、草酸盐、乙酸盐、甲酸盐和氢氧化物及其常见水合物的受控分解的研究。使用各种样品尺寸、加热速率和环境气氛来证明它们对结果的影响。给出了中间化合物、每种化合物的分解温度范围和反应动力学的结果。
• La0.9Sr0.1Ga0.8Mn0.2O2.85: a new oxide ion conductor
  作者：V. Thangadurai、A. K. Shukla、J. Gopalakrishnan

  DOI：10.1039/a807529h

  日期：——

  Isovalent substitution of Mn(II) for Mg(II) in the oxide ion conductor, La0.9Sr0.1Ga0.8Mg0.2O2.85, yields a new oxide ion conductor which exhibits an ionic conductivity (σ = 4.6 × 10–2 S cm–1 at 800 °C) that is comparable to the conductivity of the Mg(II) analogue; interestingly, the Mn(II) oxide has a lower activation energy for conduction (Ea = 0.47 eV) than the Mg(II) oxide.

  在氧化物离子导体La0.9Sr0.1Ga0.8Mg0.2O2.85中，用Mn(II)替换Mg(II)的同位取代，得到了一种新的氧化物离子导体。该导体在800°C下的离子导电性（σ = 4.6 × 10–2 S cm–1）与Mg(II)类似物的导电性相当；有趣的是，Mn(II)氧化物的导电活化能（Ea = 0.47 eV）比Mg(II)氧化物更低。
• Luminescence and energy transfer of co-doped Sr₅MgLa₂(BO₃)₆:Ce³⁺,Mn²⁺
  作者：Matthias Müller、Stefan Fischer、Thomas Jüstel

  DOI：10.1039/c5ra12951f

  日期：——

  The photoluminescence (PL) of co-doped Sr₅MgLa₂(BO₃)₆:Ce³⁺,Mn²⁺ and energy transfer from Ce³⁺ to Mn²⁺ were studied. PL and fluorescence lifetime measurements were performed at various temperatures. External quantum efficiencies and chromaticity coordinates were obtained.

  共掺杂的Sr5MgLa2(BO3)6:Ce3+,Mn2+的光致发光（PL）以及Ce3+到Mn2+的能量转移进行了研究。在不同温度下进行了PL和荧光寿命测量。获得了外部量子效率和色度坐标。
• The tin(II) halogen-substituted acetates
  作者：J. D. Donaldson、A. Jelen

  DOI：10.1039/j19680002244

  日期：——

  The solid products obtained from various tin(II)–halogen-substituted acetate systems are reported. Normal halogeno- and dihalogeno-acetates, and derivatives of the complex tri(halogenoacetato)stannate(II) species have been prepared and characterised by their infrared and X-ray data. The thermal decompositions of these materials have been studied in detail and their stability to hydrolysis reported

  据报道，从各种锡（II）-卤素取代的乙酸盐体系中获得的固体产物。制备了普通的卤代和二卤代乙酸酯，以及复杂的三（卤代乙酰基）锡酸酯（Ⅱ）的衍生物，并通过其红外和X射线数据对其进行了表征。已对这些材料的热分解进行了详细研究，并报道了其对水解的稳定性。
• Preparation of Sr₂CeO₄ Blue Phosphor Particles and Rare Earth (Eu, Ho, Tm, or Er)-Doped Sr₂CeO₄ Phosphor Particles, Using an Emulsion Liquid Membrane System
  作者：Takayuki Hirai、Yusuke Kawamura

  DOI：10.1021/jp040220p

  日期：2004.8.1

  Sr2CeO4 blue phosphor particles were prepared with an emulsion liquid membrane (ELM, water-in-oil-in-water (W/O/W) emulsion) system, which could be utilized as a microreactor for the preparation of size- and morphology-controlled fine particles. In the ELM system, Sr2+ and Ce3+ ions were extracted from the external water phase by extractant (cation carrier, bis(2-ethylhexyl)phosphoric acid) and were

  采用乳液液膜（ELM，水包油包水 (W/O/W) 乳液）体系制备 Sr2CeO4 蓝色荧光粉颗粒，该体系可用作制备尺寸和形貌的微反应器。受控细颗粒。在ELM系统中，Sr2+和Ce3+离子通过萃取剂（阳离子载体，双（2-乙基己基）磷酸）从外部水相中萃取出来，并被反萃取到含有草酸溶液的内部水相中，形成亚微米-尺寸的复合 Sr-Ce 草酸盐颗粒，比在均匀水溶液中获得的颗粒小得多。在 ELM 系统中获得的前体草酸盐颗粒的煅烧产生了亚微米大小的 Sr2CeO4 颗粒，其在 467 nm (λex = 254 nm) 处显示出电荷转移 (CT) 发射。

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