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Get A QuoteFormamidinium hexafluorophosphate (FAPF6) is a pseudo-halide salt used as precursor in the preparation of perovskite-based optoelectronic systems. The incorporation of Formamidinium hexafluorophosphate to the precursor solution of formamidinium lead iodide (FAPbI3) perovskites resulted in perovskite photodetectors exhibiting better stability and enhanced device performance (Li et al., 2020).
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Get A QuoteMethylammonium acetate (MAAc; CAS Number: 6998-30-7) is a precursor used in the preparation of perovskite solar cells (PSCs). The incorporation of the additive methylammonium acetate to the perovskite precursor solution leads to the improved photovoltaic performance of organic-inorganic PSCs (Xiao et al., 2019; Yan et al., 2019).
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Get A QuoteThe addition of Formamidinium Chloride (FACl; CAS Number 6313-33-3) into the perovskite precursor solution provides a perovskite film with enhanced power conversion efficiencies and improved operational stability (Suzuki et al., 2019; Tavakoli et al., 2019).
Get A QuoteMethylammonium Chloride (MACl; CAS Number: 593-51-1) is used as an additive to control the crystallisation of hybrid organic-inorganic perovskites leading to record efficiencies and stability of the resultant devices (Kim et al., 2019; Kosmatos et al., 2019). It has recently been successfully employed as a dopant to reduce bandgap width and trap densities for efficient perovskite photodetectors (Zhao et al., 2021).
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Get A QuoteFormamidinium Bromide (FABr; CAS # 146958-06-7) is a popular precursor salt used in the preparation of organometal halide perovskite-based solar cells (PSCs). High solar cell efficiencies have been realised with mixed perovskites where the bromides and the formamidinium cations subsitute iodides and the methylammonium cations (Jacobsson et al., 2016). Zhang et al. (2018) also showed that formamidinium lead trihalide (FAPbBr3) photodetector shows good responsivity, external quantum efficiency, and detectivity.
Get A QuoteMethylammonium Bromide (MABr; MAB; CAS 6876-37-5) is a common precursor used in the preparation of perovskite-based opto-electronic systems including perovskite solar cells (Wang et al., 2022) and perovskite Light-Emitting Diodes (Lai et al., 2020). Methylammonium Bromide is used to form methylammonium lead tribromide (MAPbBr3) perovskites as well as mixed cation and mixed halide perovskites (Günzler et al., 2021). MAB was added to the precursor solution of an organic–inorganic metal halide perovskite for gas sensor applications to detect NO2 gas (Duong et al., 2022).
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Get A QuotePhenethylammonium bromide or phenylethylammonium bromide (PEABr; CAS No: 53916-94-2) is a precursor used in the preparation of perovskite-based optoelectronic devices. PEABr was added in combination with n-BABr to prepare a blue-emitting n=2 Ruddlesden-Popper halide perovskite LED showing improved stability and brighter light emission (Leung et al., 2020). The incorporation of Phenethylammonium bromide in formamidinium lead bromide perovskite improved the crystal orientation of quasi-2D perovskite, resulting in a highly performing non-volatile flash photomemory device (Chao et al., 2022).
Get A QuoteEthylammonium bromide (EABr; CAS Number: 593-55-5) is an organic halide salt used in perovskite-based systems. Addition of ethylammonium bromide to the perovskite precursor solution was shown to increase the photoluminescence quantum yield and stability of perovskites-based light-emitting devices (Xiao et al., 2020). Efficient and spectra stable blue perovskite light-emitting diodes were recently obtained by optimizing the content of ethylammonium bromide of the perovskite precursor solution (Chu et al., 2020).
Get A QuoteDimethylammonium Bromide (DMABr; CAS No: 6912-12-5) is an organic halide used in the preparation of perovskite optoelectronic systems. Dimethylammonium Bromide was added as a precursor to form a water-stable tin halide perovskite, DMASnBr3 for photocatalysis applications (Romani et al., 2021).
Get A QuoteRecent research has found that aliphatic bulky alkylammonium cations such n-butylammonium, i-butylammonium, t-butylammonium, can be used as organic Spacers between inorganic sheets to form quasi-2D perovskites. Duong et al. (2020) used n-butylammonium bromide (n-BABr; CAS Number: 15567-09-6) as a 2D precursor to fabricate highly performant perovskite-silicon tandem solar cells achieving record efficiencies. Use Borun New Material - ChemBorun's high quality n-butylammonium bromide (purity level > 99%) for ultimate device performance.
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Get A Quote4-Methylphenethylammonium iodide (4-MePEAI) is a novel perovskite precursor complementing Borun New Material - ChemBorun's Phenethylammonium precursor series, which includes the popular Phenethylammonium iodide.
Get A QuoteMethylammonium thiocyanate (MASCN; CAS Number: 61540-63-4) is an organic salt used in the preparation of perovskite-based systems. Methylammonium thiocyanate has been used to promote the formation and stabilization of α-FAPbI3 peroskite solar cells (Lu et al., 2020).
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Get A QuoteThe K19 Ligand or 2,2’-Bipyridine, 4,4’-bis[2-[4-(hexyloxy)phenyl]ethenyl] is a ligand (CAS Number: 874628-17-8) used for the synthesis of K19 ruthenium-based dye. The K19 ligand is a hydrophobic ligand comprised of styrene moieties donation ether functionalities providing greater Pi conjugation to enhance its optical absorption.
Get A QuoteMethylammonium Iodide (MAI; CAS No: 14965-49-2) is one of the most common precursors used in the preparation of perovskite-based opto-electronic systems, including perovskite solar cells (Nath et al., 2022). Since the seminal work by Kojima et al (2009) which demonstrated the use of the organolead halide perovskite CH3NH3PbI3 as a photoactive material in solar cells, methylammonium lead triiodide perovskites have been extensively studied. Recent work has provided valuable insights into their properties and optoelectronic performance (Reichert et al., 2020). MAI has also been recently used in the precursor solution of an all-perovskite tandem solar cell (Lin et al., 2022).
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Get A QuotePhenethylammonium thiocyanate (PEASCN) has been used with success as a 2D additive mixed with Phenethylammonium Iodide (PEAI; CAS Number: 151059-43-7) to develop a 2D-3D mixed wide-bandgap perovskite (Kim et al., 2020). The addition of phenethylammonium thiocyanate enables an efficient stable perovskite/silicon tandem solar cell validating the use of perovskites for highly performing Si-based tandems.
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Get A Quote4-Fluorobenzylammonium bromide is a precursor in the synthesis of perovskite-based opto-electronic systems. 4-Fluorobenzylammonium iodide was used to prepare bright green perovskite light emitting diodes, which reached a maximum external quantum efficiency of 8.55% (Yan et al., 2019).
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Get A QuoteThe DNBP Hydrophobic Ligand or 4,4'-dinonyl-2,2'-bipyridine is a bipyridine ligand (CAS Number: 142646-58-0) used for the synthesis of ruthenium-based dyes and general metallo-organic complexes.
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Get A QuoteThe DMBP Building Block Ligand or 4,4'-dimethyl-2,2'-bipyridine is a bipyridine ligand (CAS Number: 1134-35-6) used for the synthesis of ruthenium-based dyes and general metallo-organic complexes.
Get A QuoteButane-1,4-diammonium iodide (BDAI2; CAS Number: 916849-52-0) is used as a precursor for the synthesis of perovskite semiconductors. The addition of butane-1,4-diammonium iodide to the precursor solution has been shown to result in efficient and stable reduced-dimensional perovskite solar cells (Niu et al., 2019).
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Get A Quote4-trifluoromethyl-phenylammonium chloride (CF3-PACl; CAS Number: 90774-69-9) is a precursor used in the preparation of perovskite-based opto-electronic systems. A small amount of 4-trifluoromethyl-phenylammonium added to the precursor solution of an all-perovskite tandem solar cell resulted in 26.4% efficiency exceeding that of the best-performing single-junction perovskite solar cells (Lin et al., 2022).
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Get A QuoteThe DCBP Anchoring Ligand or 2,2'-bipyridine-4,4'-dicarboxylic acid is a bipyridine ligand (CAS Number: 6813-38-3) used for the synthesis of ruthenium-based dyes and general metallo-organic complexes. The DCBP Anchoring Ligand can also be used as a starting block to synthesise more complex ligands.
Get A Quote4‐methoxyphenethylammonium (MeO‐PEA) is a Spacer cation used in the preparation of quasi‐2D perovskite solar cells (Fu et al., 2019). The latter can be prepared from the perovskite precursor 4-Methoxyphenethylammonium iodide (4MeO-PEAI) that Borun New Material - ChemBorun manufactures at a purity level >99%.
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Get A QuoteAcetamidinium iodide (CAS Number: 1452099-14-7) has been used as a precursor in the preparation of organic lead iodide perovskite solar cells. The replacement of methylammonium by acetamidinium leads to higher open-circuit voltage and greater stability of the resulting device (Singh et al., 2020).
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Get A QuoteThe C106 Ligand or 4,4’-Bis[5-(hexylsulfanyl)-2-thienyl]-2,2’-bipyridine is a ligand (CAS Number: 1146182-96-8) used for the synthesis of C106 ruthenium-based dye. The C106 Ligand is a hydrophobic ligand comprised of thiophene moity and thio-ether extending the p-conjugation functionalities providing greater Pi conjugation to enhance its optical absorption propensity.
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Get A QuoteAcetamidinium bromide (AABr; CAS Number: 1040352-82-6) is a precursor used in the preparation of perovskite-based optoelectronic systems. Incorporating acetamidinium bromide as an additive into the MAPbI3 lattice led to a superior power conversion efficiency of the resulting device compared to a pristine MAPbI3-based perovskite solar cell as well as excellent long-term stability (Jung et al., 2020).
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Get A Quoten-propylammonium iodide (PAI; CAS Number: 14488-45-0) is a salt used in the formation of two-dimensional hybrid perovskites. The incorporation of n-propylammonium iodide additives to the precursor solution induced enhanced efficiency and stability of 2D–3D mixed organic–inorganic perovskite solar cells (Fei et al., 2019; Yao et al., 2019). The propylammonium cation induces passivation of grain boundaries and film surface and is one of the most effective organic Spacers at mitigating instability issues (Fei et al., 2019).
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Get A QuotePropane‐1,3‐diammonium iodide (PDAI; CAS Number: 120675-53-8) is a precursor in the preparation of perovskite solar cells. The incorporation of propane‐1,3‐diammonium cations led to higher power conversion efficiencies and a superior stability in 3D Cesium–Formamidinium Mixed‐Cation Perovskite Solar Cells (Xu et al., 2019).
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Get A QuotePhenethylammonium iodide (PEAI; CAS Number: 151059-43-7) is an effective passivation agent used in the preparation of perovskite-based opto-electronic systems (Li et al., 2020). The cation PEA+ is a common organic Spacer used to form quasi-2D perovskites resulting in efficient solar cells exhibiting an improved tolerance to moisture provided by the bulky hydrophobic aromatic ring (Ye et al., 2021). The introduction of Phenethylammonium iodide into the precursor solution consisting of methylammonium iodide (MAI) and lead iodide (PbI2) to form a perovskite LED led to a ~50-fold enhancement in the quantum efficiency of the resulting device (Lee et al., 2021).
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Get A QuoteThe precursor n-octylammonium iodide (OAI; CAS Number: 60734-63-6) is used in the preparation of perovskite solar cells. Octylammonium cations have been used as encapsulating agents to produce modified methylammonium lead iodide perovskites resulting in highly efficient and stable solar cells (Jung et al., 2018).
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Get A QuoteRecent research has shown that substitution of A-site cations in the generic perovskite structure ABX3 allows bandgap tuning and results in improved solar cell stability. Guanidinium is a larger A-site cation than formamidinium and methylammonium, yet can effectively substitute FA and MA cations while preserving the 3D perovskite structure. Guanidinium substitution is known to improve the photovoltaic performance and stability of perovskite solar cells (Jodlowski et al, 2017). Partial guanidinium substitution also reduces iodide ion transport in lead iodide PSCs (Ferdani et al., 2019).
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Get A QuoteEthylammonium iodide (EAI; CAS Number: 506-58-1) is an organic halide salt used in perovskite-based systems. Highly efficient perovskite solar cells are obtained by treating the photovoltaic devices with ethylammonium iodide used as surface passivation agent (Alharbi et al., 2019).
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Get A QuoteEthane-1,2-diammonium iodide (CAS Number: 5700-49-2) is a diammonium halide salt used as a perovskite precursor in the preparation of perovskite-based opto-electronic devices. The introduction of ethane-1,2-diammonium cations into a methyl ammonium lead iodide perovskite led to highly performing perovskite solar cells with improved stability (Lu et al., 2017).
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Get A QuoteDimethylammonium Iodide (DMAI; CAS Number: 51066-74-1) is an organic halide salt used in the synthesis of perovskite optoelectronic systems including perovskite solar cells (PSCs). The incorporation of dimethylammonium iodide has been shown to enhance the efficiency of inorganic CsPbI3 perovskite solar cells (Meng et al., 2020). The addition of the cation Dimethylammonium to perovskite compositions causes a tilt in the perovskite octahedra, increasing the bandgap and resulting in efficient and stable PSCs (Eperon et al., 2020).
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Get A QuoteDiethylammonium Iodide (DAI; CAS Number: 19833-78-4) is a precursor in the synthesis of perovskite-based opto-electronic systems. Huang et al. (2019) incorporated Diethylammonium Iodide as an organic Spacer in the preparation of MAPbI3 perovskites, resulting in stable and efficient photovoltaic devices.
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Get A QuotePropane‐1,3‐diammonium bromide (PDAB; CAS Number: 18773-03-0) is a precursor in the preparation of perovskite-based opto-electronic systems. The precursor Propane‐1,3‐diammonium bromide was incorporated in combination with phenethylammonium bromide to prepare green-to-blue emitting CsPbBr3 quantum-dot films with enhanced optical performance (Jiang et al., 2019).
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Get A Quoten-butylammonium iodide (BAI; CAS Number 36945-08-1) is a popular salt precursor in the preparation of two-dimensional hybrid perovskites. n-butylammonium cations as organic Spacers act as moisture barriers increasing the stability of perovskite solar cells (Rolston et al., 2018). The addition of n-butylammonium iodide to the precursor solution also improved the device performance, shelf stability and operational stability of perovskite light-emitting diodes (Xiao et al., 2017).
Get A QuoteFormamidinium tetrafluoroborate (FABF4) is a pseudo-halide salt used as precursor in the preparation of perovskite-based optoelectronic systems. The incorporation of Formamidinium tetrafluoroborate to the precursor solution of formamidinium lead iodide (FAPbI3) perovskites resulted in perovskite photodetectors exhibiting better stability and enhanced device performance (Li et al., 2020).
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Get A QuoteThe organic halide salt, iso-butylammonium iodide (i-butylammonium iodide; iso-BAI; i-BAI; CAS Number: 205508-75-4), is used in the preparation of perovskite-based optoelectronic systems. The incorporation of iso-butylammonium iodide combined with methylammonium chloride to prepare quasi-2D/3D perovskite layers resulted in an enhanced power conversion efficiency of the perovskite solar cells (Zuo et al., 2020).
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Get A QuoteBenzylammonium iodide (BnAI; BzAI; CAS Number: 45579-91-7) is an organic salt used in the preparation of perovskite-based systems. Benzylammonium iodide (also known as phenylmethylamine iodide) was deposited as an additive to induce the self-crystallisation of 2D perovskite on top of a 3D perovskite light absorber resulting in high power conversion efficiency and long‐term stability of perovskite solar cells (Kim et al., 2020). Benzylammonium iodide was also used as a precursor for the synthesis of highly efficient and spectrally stable perovskite light‐emitting diodes (Tian et al., 2018).
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Get A Quote1,4-benzene diammonium iodide (BDI; CAS Number: 116469-02-4) is used as a perovskite precursor in the preparation of low-dimensional hybrid perovskite solar cells achieving high efficiencies and remarkable stability under continuous illumination and heating (Ma et al., 2019). Use Borun New Material - ChemBorun's high purity 1,4-benzene diammonium iodide for consistent results and optimal performance
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Get A QuotePyridinium iodide (PyI; CAS Number: 18820-83-2) is an organic halide salt used as precursor in the preparation of perovskite-based opto-electronic systems. Pyridinium iodide was used in cation–anion-mixed perovskite for surface defect passivation resulting in highly efficient planar perovskite solar cells (Du et al., 2021).
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Get A Quote4‐fluoro‐phenethylammonium iodide or 4-fluoro-phenylethylammonium iodide (4FPEAI or F-PEAI; CAS Number: 1413269-55-2) is used as a precursor in the preparation of perovskite-based opto-electronic systems including perovskite solar cells (Degani et al., 2021). The 4‐fluoro‐phenethylammonium cation is a fluorinated long-chain organic Spacer inducing a strong dipole field which facilitates charge dissociation (Shi et al., 2019).
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Get A Quote2-thiophenemethylammonium bromide (ThMABr; 2-TMABr) is a perovskite precursor used in the preparation of 2D/3D hybrid perovskite solar cells. Using 2-thiophenemethylammonium as the Spacer cation results in highly efficient and stable perovskite devices with excellent photovoltaic properties (Zhou et al., 2019).
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Get A Quote2-thiophenemethylammonium iodide (ThMAI; 2-TMAI) is used as a perovskite precursor in the preparation of perovskite-based opto-electronic systems including perovskite solar cells (Akin et al., 2021). Using 2-thiophenemethylammonium (ThMA) as a Spacer cation embedded into the FAI- and MAI-based 3D perovskite results in highly efficient and stable perovskite devices with excellent photovoltaic properties (Zhou et al., 2019).
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Get A Quote4-Chlorophenethylammonium iodide or 4-chlorophenylethylammonium iodide (Cl-PEAI; CAS Number: 1639014-61-1) is a precursor in the preparation of perovskite-based opto-electronic systems including perovskite solar cells (Degani et al., 2021). The 4-chlorophenylethylammonium is a large organic cation which helps induce efficient defect passivation at the perovskite/ETL interface (Degani et al., 2021).
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Get A QuoteDi-propylammonium iodide (or di-n-propyl ammonium iodide; CAS Number: 14488-46-1) is a precursor used in the fabrication of perovskite-based optoelectronic systems. The addition of di-propylammonium, a bulky secondary ammonium cation of small size, resulted in efficient and thermally resistant 2D/3D layered perovskite solar cells (Rodríguez-Romero et al., 2020).
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Get A QuoteBis trimethyltin bis ethylhexyl thiophen 2 yl benzo dithiophene
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Get A QuoteDibromo bis ethylhexyl thiophen 2 yl benzo dithiophene
Get A QuoteBis ethylhexyl thiophen yl benzo dithiophene
Get A QuoteBis octyldecyl oxy benzo dithiophene diy Bis trimethylstannane
Get A QuoteDibromo bis octyldecyl oxy benzo dithiophene
Get A QuoteBis octyldodecyl oxy benzo dithiophene diyl Bis trimethylstannane
Get A QuoteBromo bis ctyldodecyl oxy benzo dithiophene
Get A QuoteBis octyldodecyl oxy benzo dithiophene
Get A QuoteBis hexyldecyl oxy benzo dithiophene diyl Bis trimethylstannane
Get A QuoteBis hexyldecyl oxy benzo dithiophene
Get A QuoteBis butyloctyl oxy benzo dithiophene diyl bis trimethylstannane
Get A QuoteDibromo bis butyloctyl oxy benzo dithiophene
Get A QuoteBis butyloctyl oxy benzo dithiophene
Get A QuoteBis octyloxy benzo dithiophen yl trimethylstannane
Get A QuoteDicarbaldehyde 4 8 dioctyloxybenzo dithiophene
Get A QuoteDibromo bis octyloxy benzo dithiophene
Get A QuoteBis bromothiophen yl bis 2 ethylhexyl oxy benzo dithiophene
Get A QuoteBis trimethyltin 4 8 bis 2 ethylhexyloxy benzo dithiophene
Get A QuoteDibromo 4 8 bis 2 ethylhexyloxy benzo dithiophene
Get A QuoteBis 2 ethylhexyloxy benzo dithiophene
Get A QuoteDibromo 4 8 bis hexyloxy benzo dithiophene
Get A QuotePoly bis octyldodecyl benzo lmn
Get A QuotePoly bis octyldodecyl benzo lmn phenanthroline
Get A QuotePoly octylnonyl 9H carbazole diyl thiophenediyl
Get A QuoteBis octyldecyl oxy benzo dithiophene diyl Bis trimethylstannane
Get A QuoteDibromo is 2 octyldecyl oxy benzo dithiophene
Get A QuoteBis 2 octyldecyl oxy benzo dithiophene
Get A QuoteBis 2 ethyl hexyl bis trimethyltin dithieno silole
Get A QuoteDibromo bis trimethylsilyl bithiophene
Get A QuoteTributyl dihydrothieno dioxin yl stannane
Get A QuoteDibromo fluorothieno thiophen yl octan one
Get A QuoteBis 5 bromothiophen dioctylpyrrolo pyrroledione
Get A QuoteDi thiophen yl pyrrolo pyrrole dione
Get A QuoteEthylhexyl dibromo fluorothieno thiophene carboxylate
Get A QuoteDibromothieno thiophen ethylhexan one
Get A QuoteBis 2 bromo 5 thienyl benzothiadiazole
Get A QuoteDihydrothieno thiophen ethylhexan 1 one
Get A QuoteDibromo 3 fluorothieno thiophen ethylhexan 1 one
Get A QuoteDibromo 5 octyl 4H thieno pyrrole dione
Get A QuoteOctyl 4 7 di 5 bromo thiophen 2 yl 2H benzo triazole
Get A QuoteBis bromothiophen bis octyloxy benzo thiadiazole
Get A QuoteDibromo thieno thiophene carboxylic acid
Get A QuoteDodecyl dibromothieno thiophene carboxylate
Get A Quoteheptadecan bis tetramethyl dioxaborolan carbazole
Get A Quotebis bromothiophen fluorobenzo thiadiazole
Get A Quotefluoro thiophen benzo thiadiazole
Get A Quotefluoro bis trimethylstannyl thiophen yl benzo thiadiazole
Get A QuoteBis 5 bromo octyldodecyl thiophen difluorobenzo thiadiazole
Get A QuoteBis difluorobenzo thiadiazole
Get A Quotebis difluorobenzo thiadiazole
Get A Quotedifluoro bis benzo thiadiazole
Get A Quote
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