Palladium-Catalyzed Three-Component Cascade Carbonylation Reaction to Construct Benzofuran Derivatives

A novel three-component cyclization carbonylation reaction of iodoarene-tethered propargyl ethers with amine and CO is reported. This palladium-catalyzed cascade reaction undergoes a sequence of oxidative addition, unsaturated bond migration, carbonyl insertion, and nucleophilic attack to deliver the benzofuran skeleton. Both aromatic amines and aliphatic amines could proceed smoothly in this transformation under one atm of CO.

Optimizing the molecular structure of 1,1,7,7-tetramethyl julolidine fused furan based chromophores by introducing a heterocycle ring to achieve high electro-optic activity

Developing new organic chromophores with a large electro-optic coefficient (r₃₃) is highly desirable for fabricating electro-optic (EO) materials.

One “Click” access to self-complementary molecular modules for halogen bonding

The application of “click chemistry” has proved its efficacy for the construction of novel molecular modules for halogen bonding driven self-assembly.

A study of two thermostable NLO chromophores with different π-electron bridges using fluorene as the donor

Chromophore C2 (below) has a better electrooptic performance than chromophore C1 (above).

Comparison of nonlinear optical chromophores containing different conjugated electron-bridges: the relationship between molecular structure-properties and macroscopic electro-optic activities of materials

In electro-optic (EO) materials, realization of large EO coefficients for organic EO materials requires the simultaneous optimization of chromophore first hyperpolarizability, acentric order, molecular shape etc.