258 research outputs found

    New synthesis of benzo[1,2-b:4,5-b′]dithiophene (BDT)

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    Thiophene-containing polycondensed aromatic compounds are important source of functional organic materials for different applications. Within this class of molecules, benzo[1,2-b:4,5-b\u2032]dithiophene (BDT, figure 1) is recognized as one of the most successful building blocks in the synthesis of highly efficient photovoltaic and semiconducting materials.1 In fact the rigid and planar conjugated structure of BDT makes it attractive for achieving highly tunable molecular energy levels and optical band gaps as well as high hole mobilities. In recent years, benzannulation and thieannulation approaches, involving several steps, have been applied to the synthesis of BDT and of \uf070-extended thienoacenes,2 but the search of alternative easy access to this class of heterocycles is always a valuable synthetic target. We present here a new two-step synthesis of BDT, starting from 3-thiophene carbaldehyde as unique thiophene precursor. Although the second step of the synthesis needs to be optimized, this new methodology is certainly competitive to the classical approach3 which involves four steps, more expensive reagents and gives a comparable overall yield. In addition, the use of different hetero/aromatic aldehydes in the reaction with intermediate 2 gives access to a series of thiophene benzocondensed heterocycles

    Fascist Italy’s Aerial Defense in the Second World War

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    This article focuses on Fascist Italy's active air defenses during the Second World War. It analyzes a number of crucial factors: mass production of antiaircraft weapons and fighters; detection of enemy aircraft by deploying radar; coordination between the Air Ministry and the other ministries involved, as well as between the Air Force and the other armed services. The relationship between the government and industrialists, as well as that between the regime and its German ally, are also crucial elements of the story. The article argues that the history of Italian air defenses reflected many of the failures of the Fascist regime itself. Mussolini's strategy forced Italy to assume military responsibilities and economic commitments which it could not hope to meet. Moreover, industrial self-interest and inter-service rivalry combined to inhibit even more the efforts of the regime to protect its population, maintain adequate armaments output, and compete in technical terms with the Allies

    Axially chiral benzo[1,2-b:4,3-b’]dithiophene derivatives: a new route to tetrathiahelicenes

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    Thiophene-containing fused aromatic compounds represent an interesting class of \u3c0-conjugated systems in functional organic materials [1]. Among them, benzo[1,2-b:4,3-b\u2019]dithiophene (BDT) and its derivatives are by far the most widely studied, especially as units in mono and polydisperse oligomers in the field of the materials science [2], and as \u3c0-spacers in push-pull organic chromophores for photovoltaic applications [3]. Moreover, BDT is a key intermediate for the synthesis of inherently chiral helical systems such as tetrathia[7]helicenes 3 [4]. For all these reasons, BDT can be identified as a key starting molecule that, through a judicious functionalization of the \u3b1-positions of the thiophene rings, can allow access to more complex and interesting systems. Exploiting the experience acquired in our laboratories on the synthesis and functionalization of BDT derivatives [5,6], we have studied a novel and simple synthetic route to prepare bis(benzo[1,2-b:4,3-b\u2019]dithiophene) systems 2, through Pd-catalyzed cross coupling reactions, starting from bromides 1 (Figure 1).This strategy provides a convenient route to an interesting class of chiral atropisomeric heterobiaryl derivatives 2 with C2-symmetry, which can be used as starting reagents for an innovative non-photochemical synthesis of tetrathiahelicenes exploiting a Suzuki-Miyaura cross coupling and a Pd-catalyzed annulation with internal alkynes as key steps.. Asymmetric versions of this synthesis is under study

    CHiral bis-benzo[1,2-b:4,3-b’]dithiophenes : synthesis and stereochemical properties

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    Thiophene-containing fused aromatic compounds are an interesting class of \u3c0-conjugated systems with applications in functional organic materials.1 Among them, benzo[1,2-b:4,3-b\u2019]dithiophene (BDT) and its derivatives are widely studied in the field of materials science,2 and for photovoltaic applications.3 Moreover, BDT is a key intermediate for the synthesis of inherently chiral helical systems such as tetrathia[7]helicenes.4 In our ongoing studies on the synthesis and functionalization of BDTs,5 we have developed a novel and convenient route to prepare an interesting class of chiral heterobiaryl bis(benzo[1,2-b:4,3-b\u2019]dithiophene) systems 2 and 3 (Figure 1). In this communication we will report the synthesis of compounds 2 and 3 along with the study of their chiroptical properties. Bromides 3 are also expected to have potential applications in asymmetric reactions, including the enantioselective synthesis of tetrathia[7]helicene derivatives

    Axially chiral benzo[1,2-b:4,3-b’]dithiophene derivatives as key intermediates for enantiopure tetrathia[7]helicenes

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    Thiophene-containing fused aromatic compounds are an interesting class of \u3c0-conjugated systems with applications in functional organic materials.1 Among them, benzo[1,2-b:4,3-b\u2019]dithiophene (BDT) and its derivatives are widely studied, for instance as units in mono and polydisperse oligomers in the field of materials science,2 and as \u3c0-spacers in push-pull organic chromophores for photovoltaic applications.3 Furthermore, BDT is a key intermediate for the synthesis of inherently chiral helical systems such as tetrathia[7]helicenes.4 Thus, BDT can be identified as a key starting molecule, which can allow access to more complex and interesting systems through a judicious functionalization of the \u3b1-position of the thiophene rings. In our ongoing studies on the synthesis and functionalization of BDTs,5 we have developed a novel synthesis to prepare systems 2, starting from bromides 1 (Figure 1). Compounds 2 are an interesting class of chiral atropisomeric heterobiaryl derivatives with C2-symmetry, which can be selectively functionalized into bromides 3, starting reagents for an innovative non-photochemical synthesis of tetrathiahelicenes through Pd-catalysed annulation with internal alkynes as key step. Asymmetric versions of this synthesis is under study thanks to the chiroptical properties of 3, which represent useful intermediates for the enantioselective synthesis of the corresponding tetrathiahelicene derivatives

    Chiral bis(benzo[1,2-b:4,3-b’]dithiophene)s: synthesis and stereochemical characterization

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    Thiophene-containing fused aromatic compounds are an interesting class of \uf070-conjugated systems in functional organic materials (1). Among them, benzo[1,2-b:4,3-b\u2019]dithiophene (BDT) and its derivatives are widely studied, for instance as units in mono and polydisperse oligomers in the field of the materials science (2), and as \uf070-spacers in push-pull organic chromophores for photovoltaic applications (3). Furthermore, BDT is a key intermediate for the synthesis of inherently chiral helical systems such as tetrathia[7]helicenes (4).Thus, BDT can be identified as a key starting molecule, which can allow access to more complex and interesting systems through a judicious functionalization of the \uf061-positions of the thiophene rings. In our ongoing studies on the synthesis and functionalization of BDTs (5,6), we have developed a novel synthesis to prepare bis(benzo[1,2-b:4,3-b\u2019]dithiophene) systems 2, starting from bromides 1 (Figure 1).Compounds 2 belong to an interesting class of chiral atropisomeric heterobiaryl derivatives with C2-symmetry, which can be selectively functionalized into bromides 3. The chiroptical properties of both systems 2 and 3 have been fully elucidated by experimental and theoretical studies. On the other hand, enantiopure bromides 3 represent useful intermediates for the enantioselective synthesis of the corresponding tetrathiahelicene derivatives

    A comparative study of electrochemical, spectroscopic and structural properties of phenyl, thienyl and furyl substituted ethylenes

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    a detailed electrochemical and photophysical comparative study of three parallel series of phenyl, thienyl and furyl substituted ethylenes has been carried out, implemented by the computational calculation of selected terms. Relationships have been highlighted between molecular structure (number and type of aromatic rings) and important functional properties (in particular, electronic features and oligomerization ability). Interestingly, some of the studied heteroaryl-ethylenes show emission in the solid state displaying an aggregation-induced emission behavior
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