3-(4,4,5,5-tetramethyl-1,3,2-di-oxaborolan-2-yl)-10-(2-ethylhexyl)phenothiazine | 1624271-67-5
中文名称
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中文别名
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英文名称
3-(4,4,5,5-tetramethyl-1,3,2-di-oxaborolan-2-yl)-10-(2-ethylhexyl)phenothiazine
英文别名
10-(2-ethylhexyl)-3-(4,4,5,5-tetramethyl-1,3,2-dioxaborolane-2-yl)-10H-phenothiazine;3-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)-N-(2-ethylhexyl)phenothiazine;10-(2-Ethylhexyl)-3-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)-10h-phenothiazine;10-(2-ethylhexyl)-3-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)phenothiazine
CAS
1624271-67-5
化学式
C26H36BNO2S
mdl
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分子量
437.454
InChiKey
LEZHVWQJMZCDEN-UHFFFAOYSA-N
BEILSTEIN
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EINECS
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物化性质
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计算性质
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ADMET
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安全信息
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SDS
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制备方法与用途
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上下游信息
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文献信息
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表征谱图
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同类化合物
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相关功能分类
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相关结构分类
计算性质
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辛醇/水分配系数(LogP):6.8
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重原子数:31
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可旋转键数:7
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环数:4.0
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sp3杂化的碳原子比例:0.54
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拓扑面积:47
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氢给体数:0
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氢受体数:4
上下游信息
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上游原料
中文名称 英文名称 CAS号 化学式 分子量 10-(2-乙基己基)吩噻嗪 N-(2-ethylhexyl)phenothiazine 264264-00-8 C20H25NS 311.491 —— 3-bromo-10-(2-ethylhexyl)-10H-phenothiazine 1046416-34-5 C20H24BrNS 390.387
反应信息
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作为反应物:描述:3-(4,4,5,5-tetramethyl-1,3,2-di-oxaborolan-2-yl)-10-(2-ethylhexyl)phenothiazine 在 N-溴代丁二酰亚胺(NBS) 、 四(三苯基膦)钯 、 caesium carbonate 作用下, 以 二氯甲烷 、 N,N-二甲基甲酰胺 、 甲苯 为溶剂, 反应 8.0h, 生成参考文献:名称:吩噻嗪官能化的推挽式锌卟啉光敏剂,用于有效的染料敏化太阳能电池†摘要:已经合成了一系列具有吩噻嗪部分特征的锌卟啉染料(JY24–27),并将其用作染料敏化太阳能电池中的光敏剂。吩噻嗪供体直接连接到卟啉的介孔上,并应用不同的π-连接基(苯,噻吩和乙炔基苯)和受体基团(羧酸和氰基丙烯酸)来调节这些推挽式卟啉的光电性能。染料。光物理,电化学和理论研究表明,合成的卟啉染料均可用作光敏剂。染料JY27与其他三种染料相比,通过引入乙炔基进行扩展的共轭显示出更宽的吸收区域,并且在550至750 nm之间的IPCE值显着提高,从而确保了良好的光收集能力和15.3 mA cm的高短路电流密度−2。最终,基于JY27的电池在标准模拟辐射下达到了6.25%的高效率。DOI:10.1039/c5ra26754d
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作为产物:参考文献:名称:一种含吡啶并喹唑啉酮的吩噻嗪类阻聚剂及其制备方法和应用摘要:本发明公开了一种含吡啶并喹唑啉酮的吩噻嗪类阻聚剂及其制备方法和应用,该阻聚剂的结构通式如下:#imgabs0#或#imgabs1#其中取代基R1基团独立地选自氢原子,C1~C20的直链烷基、C1~C20的支链烷基。该类阻聚剂反应条件温和、合成路径简便、危害性小且阻聚效果好,有效缓解了复配型阻聚剂在现有工艺生产过程中造成的操作不便、成本高及使用量大的问题,用在苯乙烯的生产过程中,可有效防止聚苯乙烯的生成以及缓解反应器和管线间的堵塞问题,为苯乙烯阻聚剂的筛选提供了新的可利用物质。公开号:CN117659004A
文献信息
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Effect of structural modification on the performances of phenothiazine-dye sensitized solar cells作者:Xuxu Liu、Jun Long、Guo Wang、Yong Pei、Bin Zhao、Songting TanDOI:10.1016/j.dyepig.2015.05.012日期:2015.10photocurrent density (Jsc) of the devices are decreased due to the blocked electron transfer, so the DSSC device based on DX2 only obtains the PCE of 3.43%. Furthermore, a triphenylamine (TPA) unit with high electron-donating ability is joined onto the nitrogen atom of phenothiazine donor in DX3, which enhances the electron injection efficiency and reduces the dye aggregation. Thus, the Jsc is improved, resulting设计并合成了三种含吩噻嗪的新型染料DX1,DX2和DX3,用于染料敏化太阳能电池(DSSC)。三种染料的光物理,电化学和光伏性质已得到系统地研究。结果表明,具有0.5 mM鹅去氧胆酸(CDCA)的基于DX1的DSSC可获得5.69%的功率转换效率(PCE)。当将另一个缺电子的苯并噻二唑(BT)单元引入染料DX2和DX3的分子结构中时,吸收光谱将变宽。但是短路光电流密度(J sc由于电子传输受阻,器件的)降低,因此基于DX2的DSSC器件仅获得3.43%的PCE。此外,在DX3的吩噻嗪供体的氮原子上连接了具有高供电子能力的三苯胺(TPA)单元,从而提高了电子注入效率并减少了染料聚集。因此,改善了J sc,与基于DX2的染料相比,基于DX3的染料的PCE更高,为4.41%。
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Synthesis and Properties of New Low Band Gap Semiconducting Polymers作者:Ji-Hoon Kim、Jun Kang、Dongbo Mi、Fei Xu、Sung-Ho Jin、Ho-Hwan Chun、Do-Hoon HwangDOI:10.1166/jnn.2014.8426日期:2014.7.1Low band gap organic semiconducting polymers were prepared as p-type donors for organic photovoltaic devices. A novel dibrominated monomer composed of phenothiazine, thiophene, and benzothiadiazole (DPDTBT) was synthesized as a low band gap core block. DPDTBT was copolymerized with three different boronic esters of dithiophene, fluorene, and phenothiazine by the Suzuki coupling polycondensation reaction. The band gap energies of the synthesized polymers ranged between 2.05 and 2.11 eV, depending on the polymer structure. Bulk heterojunction solar cells fabricated using the polymers and [6,6]-phenyl C71-butyric acid methyl ester (PC70BM) as an acceptor were characterized. The best power conversion efficiency obtained from the fabricated devices under simulated AM 1.5 G solar irradiation of 100 mW/cm2 was 0.46%.
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Metal-free organic dyes with di(1-benzothieno)[3,2-b:2′,3′-d]pyrrole as an auxiliary donor for efficient dye-sensitized solar cells: Effect of the molecular engineering on the photovoltaic performance作者:Hanlun Wu、Chaoqiang Liao、Hao Tang、Lingyun Wang、Herbert Meier、Derong CaoDOI:10.1016/j.dyepig.2019.107676日期:2019.12phenothiazine as donor and DBTP as auxiliary donor and WL9-10 with D-D-A-π-A configuration incorporating benzothiadiazole as an auxiliary acceptor are synthesized to study the effect of the molecular engineering on the photovoltaic performance. WL5,7–8 exhibit similar absorption spectra and high molar extinction coefficient. Especially, the dye WL5 with phenothiazine as terminal donor displays a high一系列具有DD-π-A或DDA-π-A的新型二(1-苯并噻吩并)[3,2- b:2',3'- d ]吡咯(DBTP)基有机染料(WL5-10)设计了这些构型,并系统地研究了这些有机染料的性质与分子构型之间的关系。WL5,7-8与三苯胺掺入或吩噻嗪作为供体和DD-π-A结构DBTP作为辅助供体和WL9-10与掺入苯并噻二唑作为辅助受体DDA-π-A构型进行合成,以研究分子工程的效果在光伏性能上。WL5,7-8表现出相似的吸收光谱和较高的摩尔消光系数。特别地,以吩噻嗪为末端供体的染料WL5表现出6.75%的高PCE,这比具有D-π-A构型的染料WL1a的PCE高得多。WL9-10显示出最弱的性能,这归因于最强的吸电子基团苯并噻二唑,由于电子陷阱和能级失配。最后,以鹅去氧胆酸作为共吸收剂用于基于WL5的DSSC,可实现7.94%的高功率转换效率。结果表明,染料的分子工程对光伏性能有很大影响,而D
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Organic solution-processible electroluminescent molecular glasses for non-doped standard red OLEDs with electrically stable chromaticity作者:Xiaoman Bi、Weiwei Zuo、Yingliang Liu、Zhenru Zhang、Cen Zeng、Shengang Xu、Shaokui CaoDOI:10.1016/j.materresbull.2015.06.026日期:2015.10Organic light-emitting molecular glasses (OEMGs) are synthesized through the introduction of nonplanar donor and branched aliphatic chain into electroluminescent emitters. The target OEMGs are characterized by H-1 NMR,C-13 NMR, IR, UV-vis and fluorescent spectra as well as elemental analysis, TG and DSC. The results indicated that the optical, electrochemical and electroluminescent properties of OEMGs are adjusted successfully by the replacement of electron-donating group. The non-doped OLED device with a standard red electroluminescent emission is achieved by spin-coating the THF solution of OEMG with a triphenylamine moiety. This non-doped red OLED device takes on an electrically stable electroluminescent performance, including the stable maximum electroluminescent wavelength of 640 nm, the stable luminous efficiency of 2.4 cd/A and the stable CIE1931 coordinate of (x,y)= (0.64, 035), which is basically in accord with the CIE1931 coordinate (x, y) = (0.64, 033) of standard red light in PAL system. (C) 2015 Elsevier Ltd. All rights reserved.
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