Structure and magnetic susceptibility of (PhCH 2 NEt 3 ) 2 Cu 2 Br 6 : Unprecedented similarity to the Haldane state with potential competing interactions

“…In addition to their pertinent magnetic, 1–8 catalytic 9–12 and biological 9,13–15 properties, organic–inorganic molecular hybrid materials (OIMHMs) exhibit excellent performance in solid-state emitter sources 16,17 as well as in photovoltaic solar cells. 18–21 Due to their wide band gap energy, low dimensional hybrid compounds are effectively used for optoelectronic devices such as light emitting and diode photo-detectors.…”

Organically tuned white-light emission from two zero-dimensional Cd-based hybrids

“…In addition to their pertinent magnetic, 1–8 catalytic 9–12 and biological 9,13–15 properties, organic–inorganic molecular hybrid materials (OIMHMs) exhibit excellent performance in solid-state emitter sources 16,17 as well as in photovoltaic solar cells. 18–21 Due to their wide band gap energy, low dimensional hybrid compounds are effectively used for optoelectronic devices such as light emitting and diode photo-detectors.…”

Organically tuned white-light emission from two zero-dimensional Cd-based hybrids

“…[37][38][39] Combined with the stability and rigidity of the inorganic framework and the flexibility of organic molecules, organic-inorganic hybrid has been highly made attractive in novel functional materials such as ferroelectric, ferroelastric and dielectric switchable material. [40][41][42][43] However, to design and synthesize a switchable dielectric material is not easy, due to still little knowledge on the origin of the microstructure transition of newly proposed stimuli-responsive dielectric material. On the one hand, a series of pioneering studies on the organic-inorganic hybrids involving the change of dipolar reorientation have been documented by our group, which display multiple physical properties such as piezoelectricity, multiferroicity, luminescence, nonlinear optical responses and switchable dielectricity.…”

“…The dipolar reorientation, as one of possible intrinsic origins of dielectric response, usually makes a major contribution to the changes in dielectric constant . Combined with the stability and rigidity of the inorganic framework and the flexibility of organic molecules, organic‐inorganic hybrid has been highly made attractive in novel functional materials such as ferroelectric, ferroelastric and dielectric switchable material . However, to design and synthesize a switchable dielectric material is not easy, due to still little knowledge on the origin of the microstructure transition of newly proposed stimuli‐responsive dielectric material.…”

Unprecedented Dielectric Bistable Switching in a Binuclear Hg^II Based Hybrid Compound

Electronic studies, biological activities and nonlinear optical properties of a new non-centrosymmetric piperazinediium tetrabromidozincate(II)