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7-bromo-10-(4-(hexyloxy)phenyl)-10H-phenothiazine-3-carbaldehyde is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

1403613-86-4

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1403613-86-4 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1403613-86-4 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 1,4,0,3,6,1 and 3 respectively; the second part has 2 digits, 8 and 6 respectively.
Calculate Digit Verification of CAS Registry Number 1403613-86:
(9*1)+(8*4)+(7*0)+(6*3)+(5*6)+(4*1)+(3*3)+(2*8)+(1*6)=124
124 % 10 = 4
So 1403613-86-4 is a valid CAS Registry Number.

1403613-86-4Relevant academic research and scientific papers

Phenothiazine based co-crystals with enhanced luminescence

Marin, Luminita,Bejan, Andrei,Shova, Sergiu

, (2020)

A series of binary phenothiazine based co-crystals were designed with the aim to reach materials with improved quantum efficiency in solid state. To this end, a host dibromine functionalized phenothiazine was mixed with a guest formyl based phenothiazine

Phenothiazine based nanocrystals with enhanced solid state emission

Bejan, Andrei,Marin, Luminita

, p. 299 - 306 (2018)

The paper focuses on the preparation of phenothiazine based nanoparticles, both in liquid and solid states, by reprecipitation in water and solvent induced phase separation respectively. Polymethylmethacrylate was used as an inert matrix and polyfluorene

Phenothiazine dye featuring encapsulated insulated molecular wire as auxiliary donor for high photovoltage of dye-sensitized solar cells by suppression of aggregation

Hua, Tao,Huang, Zu-Sheng,Cai, Ke,Wang, Lingyun,Tang, Hao,Meier, Herbert,Cao, Derong

, p. 225 - 233 (2019/03/04)

Two efficient dye-sensitized solar cells have been fabricated by two novel D–D–π–A phenothiazine-based organic dyes (PH2 and PH3) with an encapsulated insulated molecular wire (EIMW) as an auxiliary donor. The cell sensitized by PH2 with EIMW as an auxiliary donor shows a much higher photovoltage (Voc) relative to the reference dye PH1 without EIMW, because the former dye can inhibit dye aggregation and suppress the charge recombination effectively. The results show that the cell sensitized by PH2 with co-adsorption of chenodeoxycholic acid obtains a high power conversion efficiency, even higher than that of the cell based on N719. Thus, an effective way to increase the photovoltage and efficiency of the DSSCs has been developed by introducing the EIMW into the organic dyes due to the effective inhibition of dye aggregation and charge recombination.

Bridged-ring dithiophene-phenothiazine dye and application thereof in dye-sensitized solar cell

-

Paragraph 0022; 0025; 0026; 0028, (2018/07/30)

The invention discloses a bridged-ring dithiophene-phenothiazine dye and application thereof in a dye-sensitized solar cell. The bridged-ring dithiophene-phenothiazine dye is a pure organic dye by taking phenothiazine as an electron donor, wherein the phe

Structure-Directed Functional Properties of Phenothiazine Brominated Dyes: Morphology and Photophysical and Electrochemical Properties

Bejan, Andrei,Shova, Sergiu,Damaceanu, Mariana-Dana,Simionescu, Bogdan C.,Marin, Luminita

, p. 3716 - 3730 (2016/07/19)

A series of nine dyes based on electron-donating phenothiazine core functionalized with various carbonyl containing electron-withdrawing moieties as primary end group and with or without bromine as a second heavy end group were designed and synthesized to generate variable supramolecular architectures with distinct thermotropic, photophysical, and electrochemical properties. The supramolecular architecture of the obtained dyes was studied in detail by single crystal X-ray diffraction and polarized light microscopy, while optoelectronic properties were investigated by UV-vis and photoluminescence spectroscopy and cyclic voltammetry measurements. The phenothiazine dyes emit light from UV to orange domain, depending on the electron-withdrawing substituent, with great quantum yield reaching up to 71% and high color purity. The introduction of the bromine as a second substituent produced a nearly 2-fold increase of the quantum yield, compared with their counterparts. It was settled that this major benefit of the bromine on the improvement of the quantum yield happened because by its presence some molecular orbital interactions were generated. An interesting and challenging achievement was evidenced in the case of the direct connection of the formyl group to the phenothiazine ring when an unexpected planarization of the dye, unknown up to now in the literature, with drastic consequences on the photophysical and electrochemical behavior was attained. It was concluded that there is a close relationship between the nature of the building blocks of the phenothiazine dyes and their ability to promote favorable properties for different optoelectronic applications.

Co-sensitization of 3D bulky phenothiazine-cored photosensitizers with planar squaraine dyes for efficient dye-sensitized solar cells

Hua, Yong,Lin Lee, Lawrence Tien,Zhang, Caishun,Zhao, Jianzhang,Chen, Tao,Wong, Wai-Yeung,Wong, Wai-Kwok,Zhu, Xunjin

supporting information, p. 13848 - 13855 (2015/06/30)

A series of new phenothiazine-cored 3D bulky organic sensitizers TP1-TP4 have been prepared and employed in dye-sensitized solar cells (DSSCs). The 3D bulky configuration of these molecules can effectively retard the charge recombination at the TiO2/electrolyte interface. Amongst the four dyes, the co-adsorbent-free DSSC based on the dye TP3 exhibited the best conversion efficiency (η) of 8.00%. Subsequently, the photosensitizer TP3 with strong UV-visible absorption and excellent performance in adsorbent-free DSSCs was co-sensitized with a near-infrared (NIR) absorbing squaraine dye YR6 to realize a UV-visible-NIR light-harvesting capability, which can effectively suppress the dye aggregation of YR6 with a planar structure and retard the charge recombination in the as prepared DSSC. Upon optimization, the co-sensitized DSSCs exhibited remarkable overall efficiency enhancements of 33% and 356% as compared with the devices based on TP3 and YR6 alone, respectively, and a high efficiency up to 9.84% was achieved at the TP3/YR6 molar ratio of 25 : 1.

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