微乳液法制备MAl2O4：Eu^2＋，Dy^3＋（M=Ca，Sr，Ba）发光材料及其发光性能

采用微乳液法合成了MAl2O4：Eu^2＋，Dy^3＋（M=Ca，Sr，Ba）长余辉发光材料，并对其晶体结构和发光性能进行了比较与讨论。XRD分析表明，所合成的Ca2O4：Eu^2＋，Dy^3＋，SrAl2O4：Eu^2＋，Dy^3＋粉体为单斜晶系结构，BaAl2O4：Eu^2＋，Dy^3＋粉体为六方晶体结构。MAl2O4：Eu^2＋，Dy^3＋（M=Ca，Sr，Ba）发光材料的激发光谱都为一宽带连续谱，表明从紫外至可见光均可有效的激发该材料。发射光谱的发射波长峰值分别为440nm（M=Ca），520nm（M=Sr）和496nm（M=Ba）。对应的发光颜色分别为蓝色、黄绿色和蓝紫色。余辉衰减曲线分为快衰减、中间过渡衰减和随后极长的慢衰减过程，符合双曲线方程I=At^-n，余辉亮度与时间顺序为Sr〉Ca〉Ba。     

白光LED用荧光材料Ba3Gd（BO3）3∶Eu^（3＋）的发光性能研究

用高温固相反应法制备了稀土离子Eu^3＋掺杂的三元稀土硼酸盐Ba3Gd（BO3）3发光材料,通过X射线衍射（XRD）、荧光光谱和扫描电镜（SEM）等测试手段对Ba3Gd（BO3）3∶Eu^3＋荧光粉的制备条件、发光性能以及形貌进行了研究。XRD结果表明,在1000℃时可得到Ba3Gd（BO3）3纯相。扫描电镜照片显示颗粒基本为球形,粒径约为200-400 nm。发光光谱测试表明,Ba3Gd（BO3）3∶Eu^3＋荧光粉在近紫外区（UV）（396 nm）和蓝光区（466 nm）可以被有效地激发,分别用255和396 nm的紫外光激发样品时,以Eu3＋的5D0-7F2（611和616 nm）超灵敏跃迁为主要发射峰。当Eu3＋的掺杂浓度为10%（摩尔分数）时,Ba3Gd（BO3）3∶Eu3＋在611和616 nm处的发光强度最大。因此,这种荧光粉是一种可能应用在白光LED上的红色荧光材料。     

Sr1-xZnxY2S4∶Er^3＋,Eu^2＋荧光粉的合成与发光特性的研究

采用碳酸盐前躯体高温分解法合成了Sr1-xZnxY2S4∶Er^3＋,Sr1-xZnxY2S4∶Eu^2＋和Sr1-xZnxY2S4∶Er^3＋,Eu^2＋红色荧光粉。XRD图谱表明,Zn^2＋掺杂量x〈0.2 mol时,粉末样品为CaFe2O4型正交晶体。Zn^2＋离子在Sr1-xZnxY2S4∶Er^3＋,Eu^2＋中的固溶量（xmol）对荧光粉的发射强度影响很大。随着Zn^2＋离子掺杂浓度的增加,Sr1-xZnxY2S4∶Er^3＋,Eu^2＋（SZYSEE）紫外区激发峰（200-413 nm）发生红移,并与可见光激发带（413-600 nm）形成一个连续的宽带谱,与紫外和GaN基LED芯片辐射都有良好的匹配性。当Zn^2＋掺杂量为0.1 mol时,SZYSEE的发光强度达到最大,其发光强度比未掺Zn2＋的增强10.7倍。Sr0.9Zn0.1Y1.76S4∶0.24Er^3＋,0.006Eu^2＋是一种潜在的白光LED用红色荧光粉。     

镨和镱掺杂Ba2SiO4∶Eu^2＋荧光材料的合成与发光性能

采用高温固相反应法分别合成了变价稀土镨和镱离子掺杂的绿色荧光粉[Ba（2-n-1.5x）REx]SiO4∶nEu^2＋（n=0.03,RE=Pr,Yb;x=0,0.02,0.05,0.10）。结果表明：所有合成荧光粉的激发峰均为250-400 nm的宽峰,与近紫外LED的发射光波长相匹配。发射峰位于450-550 nm之间,是Eu2＋的5d-4f跃迁的典型发射。Pr^3＋和Yb3＋的掺入并未改变Ba2SiO4∶Eu^2＋的相组成,但对荧光强度的影响大,且与掺杂元素、掺杂量和煅烧温度相关。当掺杂Pr^3＋和Yb3＋的量为x=0.02时,经1150℃煅烧所得荧光粉的发光强度分别是未掺杂时的595%和168%。证明三价稀土离子掺杂可以导致基质中的电荷缺陷而敏化Eu^2＋离子的发光,而变价稀土离子的掺杂可以大大提高电荷缺陷,导致荧光强度的进一步提高。     

Eu3+在SrZnP2O7中的发光性能和Eu3+, Bi3+间的能量传递

采用高温固相法合成了SrZnP2O7：Eu^3＋荧光粉,该荧光粉的激发主峰值位于400nm,适用于UVLED管芯的激发;在紫外激发下的发射峰由位于591和597nm（^5D0～^7F1）,616,624和629nm（^5D0～^7F2）,656nm（^5D0～^7F3）及688nm（^5D0～^7F4）4组线状峰构成,对应Eu^3＋的特征跃迁,呈现橙红色发光。分析了Eu^3＋离子浓度对样品发光效率的影响,随着浓度增加,其发射一直增强,但其发光效率已经开始减弱。Bi^3＋的加入使发光强度得到很大提高,并讨论了在SrZnP2O7基质中Bi^3＋对Eu^3＋的能量传递和敏化作用。     

Ca2Y8（SiO4）6O2：RE（RE=Eu,Tb）发光薄膜的制备及发光性能的研究

采用溶胶－凝胶法制备了稀土离子掺杂（Eu^3 ,Tb^3 )的氧磷灰石三元稀土硅酸盐Ca2Y8(SiO4)6O2发光薄膜。通过X射线衍射（XRD）,红外光谱（IR）,扫描电镜（SEM）等方法对薄膜的组成、结构、颗粒尺寸、形貌及厚度进行了研究,通过发光光谱对薄膜的发光性质进行了分析。XRD结果表明700℃时薄膜尚处于非晶态,800℃时已开始有Ca2Y8(SiO4)6O2的物相形成,1000℃时结晶已完全。这一点和红外光谱的结果相符。发光光谱测试表明Ca2Y8(SiO4)6O2:Eu^3 薄膜显示了很强的红光发射,并以Eu^3＋的^5D0-^7F2(616nm)超灵敏跃迁为最强一组。Ca2Y8(SiO4)6O2:Tb^3 的发射光谱由蓝光发射和绿光发射两部分组成,前者对应于^5D3-^7FJ,后者对应于^5D4-^7FJ(J=6,5,4,3),且以^5D4-^7F5(544nm)绿光发射为最强。     

MO-RE2O3-B2O3(M=Mg,Ca,Sr,Ba;RE=La,Eu,Gd)玻璃的发光性质

在空气中采用高温固相反应方法合成的17MO－（8-x-y)-75B2O3-xGd2O3(MLBEG,M-Mg,Ca,Sr,Ba)玻璃，在紫外光（λex=350nm)激发下发射蓝光和红光，在绿色光（λex=532nm)激发下发射红光，电子自旋共振谱研究表明玻璃体系中有Eu^2 离子存在，蓝色区的宽带发射是Eu^2 离子的5d-4f跃迁发射：红色区的窄带发射是Eu^3 离子的5Do-7FJ(J=1,2,3,4)跃迁发射，发现玻璃中的碱土金属离子对Eu^3 /Eu^2 离子的比例有很大影响，选择不同的碱土金属离子可以调节玻璃蓝色光和红色光的相对发射强度，MLBEG玻璃的发光性质可用于转换太阳能，增强植物的光合作用。     

一类新的红色荧光粉MYzS4：Er^3＋（M=Srz＋，Ba^2＋）的合成与表征

Eu^2＋激活的CaS：Eu^[1],Eu^3＋和Sm^3＋激活的硫氧化物^[2]，Pr^3＋激活的Ca0.8Zn0.2Ti03^[3]以及Eu^2＋和Mn^2＋掺杂的SrY2S4^[4]都是重要的红色发光材料。然而，这些红色荧光粉的发射峰波长都短于650nm，对于农用日光转换材料^[5]，红色发射峰波长达到660nm才能与叶绿素的红区吸收相吻合。     

BaBrCl：Eu^2＋：一类新型X射线影像存储材料

在Eu^2＋掺杂的BaBrCl中，发现经X射线辐照后的光激励发光。BaClCl：Eu^2＋的发光峰位于413nm，两个差吸收带分别位于-550nm和675nm。激励光能量较BaFX：Eu^2＋（X=Cl，Br）低，与通常用作读出光源的HeNe激光器更为匹配。实验结果表明BaClCl：Eu^2＋有望成为一类新型的X射线影像存储材料。     

LaPO4:Eu3+纳米粒子的多醇法合成及其光致发光性能研究

以一缩二乙二醇为溶剂，采用多醇法（polyol method）合成LaPO4：Eu^3＋纳米发光材料，利用XRD、FE．SEM、TG-DTA、Uv-vis光谱、光致发光光谱（PL）及寿命等手段进行了表征。结果表明：所得到的材料结晶完好，具有LaPO4的独居石型结构；粒子的形貌为球形，其粒径约为25nm；在波长为258nm的紫外光激发下，其发射光谱由Eu^3＋的5D0^-7FJ（J=1，2，3，4）特征发射组成，在592nm处的磁偶极跃迁（5D0^-7F1）最强，表现为Eu^3＋的橙-红特征发射；LaP04：Eu^3＋纳米粒子中Eu^3＋的最佳掺杂浓度为5％（摩尔比）；Eu^3＋的光致发光衰减曲线符合单指数行为，其寿命（τ）为3．9ms。     

二氧化碳和丙烯直接合成甲基丙烯酸的NiPMo/TiO2催化剂的研究

用溶胶-凝胶法以磷钼酸(MPA)的镍盐溶液水解钛酸四丁酯制备了NiPMo/TiO2催化剂.使用ICP、 XRD、 TG-DTA、 IR、 TPD-MS和微反应技术研究了催化剂的化学组成、热稳定性、化学吸附性质和催化反应性能.杂多钼酸盐与TiO2通过O2-在TiO2表面发生了键合.在623 K下,杂多阴离子仍保持原有的Keggin结构.CO2在Lewis酸位Ni(Ⅱ)和Lewis碱位Ni-O-Mo的桥氧协同作用下生成CO2卧式吸附态Ni(Ⅱ)←O-(CO)←(O--Ni).丙烯有多种吸附态在催化剂上吸附.在563 K、 1 MPa和空速1500 h-1的反应条件下,丙烯的摩尔转化率为3.2%,产物MAA选择性为95%.     

CoFe2O4自形成磁性液体场致结构化对磁化的影响

The Langevin paramagnetic theory can’t describe the relation between magnetization of ferrofluids and applied magnetic field. The structuralization of ferrofluids, which is considered the main influence factor of the magnetization, is regarded. The part of magnetization works is deposited when the structure is forming. This action influences the magnetization of ferrofluids directly or indirectly. On the base of the “compressing” model, the Langevin function that usually describes the magnetization of ferrofluid is modified, and a well-fitted curve is obtained. An equation of the relation between the equivalent volume fraction after being “compressed” and the intensity of magnetic field is discovered, which approximately describes the process of magnetization. The relation between the approximate initial susceptibility and the volume fraction can be obtained from modified formula.     

Highly regioselective Buchwald–Hartwig amination at C-2 of 2,4-dichloropyridine enabling a novel approach to 2,4-bisanilinopyridine (BAPyd) libraries

The highly regioselective Buchwald–Hartwig amination at C-2 of the cheap and readily accessible reagent, 2,4-dichloropyridine with a range of anilines and heterocyclic amines is described. This new methodology is robust and provides a facile access to 4-chloro-N-phenylpyridin-2-amines on 0.25 mol scale. These intermediates undergo a further Buchwald–Hartwig amination at higher temperature to enable rapid exploration of the chemical space at C-4 and to provide a library of 2,4-bisaminopyridines.     

Sulfur-directed metal-free and regiospecific methyl C(sp3)–H imidation of thioanisoles

Regiospecific and direct imidation of the methyl C(sp³)–H bond of thioanisoles is realized under mild and metal-free conditions with N-fluorobis(benzenesulfonyl)imide as an oxidant and nitrogen source. Proposed mechanism suggests that thionium ion intermediates and a Pummerer-type reaction are involved. The imidation has advantages such as high step-economy, excellent functionality tolerance, and regiospecificity, giving structurally diverse imidation products.     

Selective syntheses of 2H-1,3-oxazines and 1H-pyrrol-3(2H)-ones via temperature-dependent Rh(II)-carbenoid-mediated 2H-azirine-ring expansion

The Rh(II)-catalyzed reaction of 2-carbonyl-substituted 2H-azirines with ethyl 2-cyano-2-diazoacetate or 2-diazo-3,3,3-trifluoropropionate provides an easy access to 2H-1,3-oxazines and 1H-pyrrol-3(2H)-ones. These compounds can be selectively prepared from the same starting material using temperature as the only varied parameter. The 2-azabuta-1,3-diene intermediate, a common precursor for both heterocyclic products, isomerizes into 2H-1,3-oxazine under kinetic control, while 1H-pyrrol-3(2H)-one is the sole product of the reaction at elevated temperatures. According to DFT-calculations a one-atom oxazine ring contraction involving ring-opening to a 2-azabuta-1,3-diene intermediate, followed by a 1,5- and 1,2-prototropic shift leads to the consecutive formation of imidoylketene and azomethine ylide, which then further undergo cyclization to the pyrrole derivative.     

Copper catalyzed/mediated synthetic methodology for ebselen and related isoselenazolones

Scope of the copper catalyzed/mediated selenium-nitrogen coupling reaction has been studied for the synthesis of isoselenazolones. It is noticed that the 2-chloro, 2-bromo-, and 2-iodo-aryl amides substrates can be exploited in the selenium-nitrogen coupling reaction by employing 25-100 mol % of CuI/1,10-phenanthroline (L) and potassium carbonate as a base in DMF. Furthermore, electron rich 2-chloro-arylamides also underwent selenium-nitrogen coupling reaction to give biologically important selenium-nitrogen heterocycles. Also, copper-catalyzed selenium-nitrogen coupling reaction has been meticulously applied for the synthesis of diaryl diselenides having methoxy, amine, and amide functionality from respective aryl iodides in the presence of stoichiometric amount of succinimide as an external Se-N coupling partner.     

Knoevenagel condensation catalyzed by novel Nmm-based ionic liquids in water

A series of novel N-methyl morpholine (Nmm) based ionic liquids with 1,2-propanediol group were synthesized and used as catalysts for Knoevenagel condensation at room temperature in water. Under the effect of the catalyst, various aldehydes or aliphatic ketones could react with a wide range of activated methylene compounds well, including malononitrile, alkyl cyanoacetate, cyanoacetamide, β-diketone, barbituric acid, 2-arylacetonitrile and thiazolidinedione. Furthermore, most of the products could be separated just by filtrating and washing with water. Additionally, the catalyst is recyclable and applicable for the large-scale synthesis.     

Construction of polyheterocyclic spirotetrahydrothiophene derivatives via sulfa-Michael/aldol cascade reaction

A series of polyheterocyclic spirotetrahydrothiophene derivatives were obtained in moderate to excellent yields via a catalyst-free sulfa-Michael/aldol cascade reaction of chalcones 1 and commercially available 1,4-dithiane-2,5-diol 2 under mild conditions. We also present the first asymmetric sulfa-Michael/aldol cascade reaction of chalcones 1 and commercially available 1,4-dithiane-2,5-diol 2 with moderate to good enantioselectivities catalyzed by readily available chiral phase-transfer catalysts (PTCs).     

Suzuki-Miyaura reactions of the soluble guanylate cyclase inhibitor NS2028: a non-product specific route to C-8 substituted analogues

Both soluble guanylate cyclase (sGC) inhibitors ODQ 1 and NS2028 2 are synthesized via improved protocols. In the former case treating 3,4-dihydroquinoxalin-2(1H)-one oxime 8, which can be prepared in two steps from 1,2-benzenediamine, with 1,1′-carbonyldiimidazole (CDI) gives the dihydro-ODQ 10 that in the presence of KMnO₄ oxidises to give ODQ 1 in an overall yield of 46% starting from 1,2-benzenediamine. In the latter case, the synthesis affords NS2028 2 from 2-amino-4-bromophenol 3 in three steps with an overall yield of 85% and avoids the need for chromatography. Furthermore, Suzuki-Miyaura reaction conditions are described that enable the preparation of 8-aryl and 8-heteroaryl derivatives of NS2028 directly from NS2028 2. Finally, demethylation of the 8-(methoxyphenyl) substituted analogues afforded the 8-(hydroxyphenyl) derivatives 40-42. All new products are fully characterised.