619-44-3Relevant articles and documents
Flexible bifunctional monoethylphosphonate/carboxylates of Zn(ii) and Co(ii) reinforced with DABCO co-ligand: paradigmatic structural organization withpcutopology
Boldog, Ishtvan,G?kpinar, Serkan,Gil-Hernández, Beatriz,Goldman, Anna,Heering, Christian,Janiak, Christoph,Millan, Simon
, p. 2933 - 2944 (2020)
Two novel isostructural phosphonate-monoethylcarboxylate MOFs with the structural formula of [M2(EtBCP)2(DABCO)0.5]·2DMA (M = Zn (2), Co (3); H2EtBCP =O-ethyl-P-(4-carboxyphenyl)phosphonic acid, DABCO = 1,4-diazabicyclo[2.2.2]octane, DMA =N,N-dimethylacetamide) were synthesized and characterized. The frameworks of2and3are sustained by {Zn2(PO2(OEt))2}nmetal-phosphonate- and DABCO-extended {Zn2(COO)4(DABCO)}npaddle-wheel carboxylate chain-SBUs. The chains providing connectivity in three, mutually orthogonal directions are running parallel and are combined in a framework, which could be interpreted as having apcutopology. The simple structure-organization principle, which suggests the possibility of the elongation of the bifunctional ligand with scaling in two directions, allows to view the structures of2and3as prototypes for an isoreticular series. The porosity of both compounds, based on a relatively short ligand, is low: no adsorption of N2was registered, however, CO2is adsorbed readily allowing to estimate the surface area at ~330 m2g?1(~900-1060 m2g?1geometric estimate). The compounds demonstrate a two-step CO2adsorption isotherm both at 195 K (0-1 bar) and 298 K (0-20 bar). The adsorption isotherms are characterized by a gradual (type “F-I”), albeit still relatively steep onset of the second step, associated with structural flexibility/bistability. The estimated pore volumes at the start of the transformation (195 K) for2and3are ~0.11 (0.08P/P0) and 0.12 cm3g?1(0.12P/P0) respectively, which corresponds considerably well to the geometrically calculated accessible volume of ~0.07 cm3g?1for the experimental structure (3.3 ? probe diameter). The structural prerequisites of the observed flexibility of the framework, which might be associated with the non-planarity of the metal-phosphonate moieties, acting as ‘levers’ for propagating mechanical stress, are discussed.
Palladium-Catalyzed Decarbonylative Iodination of Aryl Carboxylic Acids Enabled by Ligand-Assisted Halide Exchange
Boehm, Philip,Cacherat, Bastien,Lee, Yong Ho,Martini, Tristano,Morandi, Bill
supporting information, p. 17211 - 17217 (2021/07/02)
We report an efficient and broadly applicable palladium-catalyzed iodination of inexpensive and abundant aryl and vinyl carboxylic acids via in situ activation to the acid chloride and formation of a phosphonium salt. The use of 1-iodobutane as iodide source in combination with a base and a deoxychlorinating reagent gives access to a wide range of aryl and vinyl iodides under Pd/Xantphos catalysis, including complex drug-like scaffolds. Stoichiometric experiments and kinetic analysis suggest a unique mechanism involving C?P reductive elimination to form the Xantphos phosphonium chloride, which subsequently initiates an unusual halogen exchange by outer sphere nucleophilic substitution.
BODIPY compounds containing 8-(diphenylethynyl)-ester groups as well as synthesis and application thereof
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Paragraph 0034-0038, (2021/02/06)
The invention discloses BODIPY compounds containing 8-(diphenylethynyl)-ester groups as well as a preparation method and application thereof. The BODIPY compounds have a structure A. According to theinvention, BODIPY is used as a matrix, a diphenylacetylene rigid structure and an ester-based alkyl chain flexible structure are introduced to the No. 8 site through the Sonogashira coupling reaction,and a series of 8-(diphenylethynyl)-ester-based BODIPY dichroic dyes are designed and synthesized. The maximum emission wavelength of the compounds in dichloromethane is concentrated at about 518 nm,green fluorescence is shown, and good dichroic ratio and ordered parameters are shown in a liquid crystal E7; and the liquid crystal compounds provided by the invention have a liquid crystal mesophase within a temperature range of 50-100 DEG C, can be used for manufacturing liquid crystal display products, and particularly can be used as guest body dyes for guest-host mode liquid crystal displays; and when the compounds are added into the E7 liquid crystal and used in a guest-host display mode, response time can be prolonged, and the effect of quick response is achieved.