Dielectric and esr behaviour of the first mesogenic iron complex: Local ordering of dipole moments in the mesophase

“…This conclusion follows from the analogous behavior of the EPR lines integrated intensity observed in the liquid-crystalline state of the iron(III) complex . It has been shown in ref that the integrated intensity of Fe 3+ EPR lines in the ferroelectric mesophase is increased (as compared to that predicted by the Curie–Weiss law), and it has an anomalous behavior at the same temperature range as the static dielectric permittivity does . The observed anomaly arose due to action of the internal electric field (existing in the mesophase) on magnetic properties via the magnetoelectric effect.…”

“…40 It has been shown in ref 40 that the integrated intensity of Fe 3+ EPR lines in the ferroelectric mesophase is increased (as compared to that predicted by the Curie−Weiss law), and it has an anomalous behavior at the same temperature range as the static dielectric permittivity does. 43 The observed anomaly arose due to action of the internal electric field (existing in the mesophase) on magnetic properties via the magnetoelectric effect. The additional arguments for the existence of the internal electric field in our complex are the g(T) and D(T) dependencies of HS Fe III centers of the II-type.…”

Detailed EPR Study of Spin Crossover Dendrimeric Iron(III) Complex

“…This conclusion follows from the analogous behavior of the EPR lines integrated intensity observed in the liquid-crystalline state of the iron(III) complex . It has been shown in ref that the integrated intensity of Fe 3+ EPR lines in the ferroelectric mesophase is increased (as compared to that predicted by the Curie–Weiss law), and it has an anomalous behavior at the same temperature range as the static dielectric permittivity does . The observed anomaly arose due to action of the internal electric field (existing in the mesophase) on magnetic properties via the magnetoelectric effect.…”

“…40 It has been shown in ref 40 that the integrated intensity of Fe 3+ EPR lines in the ferroelectric mesophase is increased (as compared to that predicted by the Curie−Weiss law), and it has an anomalous behavior at the same temperature range as the static dielectric permittivity does. 43 The observed anomaly arose due to action of the internal electric field (existing in the mesophase) on magnetic properties via the magnetoelectric effect. The additional arguments for the existence of the internal electric field in our complex are the g(T) and D(T) dependencies of HS Fe III centers of the II-type.…”

Detailed EPR Study of Spin Crossover Dendrimeric Iron(III) Complex

“…Показано, что температурное поведение интегральной интенсив-ности и ширин этих линий можно объяснить в рамках концепции существования в системе спин-пайерлсовского перехода (возникновение димер-ных структурных единиц в одномерной цепочке) [63]. В смектической мезофазе ЖК-комплекса железа FeCl 2 обнаружены диэлектрическая аномалия, обусловленная локальным упорядочением диполь-ных моментов связей (FeCl) вдоль одномерных цепочек, заполняющих смектическую плоскость [64], и необычный способ ориентирования мезогенных молекул железа во внешнем магнитном поле, который вызван магнитоэлектрическим эффектом (перекрестным влиянием внутреннего электрического поля сегнетоэлектрической фазы на магнитные свойства комплексов). Установлено также, что парамагнитная восприимчивость металломезогенов железа в смектической фазе имеет возросшие значения и аномальное температурное поведение, аналогичное поведению статической диэлектрической проницаемости, что связано с возникновением добавочной намагни-ченности за счет действия внутреннего электри-ческого поля [65].…”

Metallomesogens: Retrospectives and Perspectives

EPR detection of presumable magnetoelectric interactions in the liquid-crystalline state of an iron mesogen