Chiral mesostructured hematite with temperature-independent magnetism due to spin confinement

Hematite(α-Fe_(2)O_(3))is known to undergo conversion from weak ferromagnetic to antiferromagnetic as the temperature decreases below the Morin temperature(TM=250 K)due to spin moment rotation occurring during the Morin transition(MT).Herein,we endowed hematite with mesostructured chirality to maintain weak ferromagnetism without MT.Chiral mesostructured hematite(CMH)nanoparticles were prepared by a hydrothermal method with glutamic acid(Glu)as the symmetry-breaking agent.The triangular bipyramidal CMH nanoparticles were composed of helically cleaved nanoflakes with twisted crystal lattice.Field-cooled(FC)magnetization measurements showed that the magnetic moments of CMH were stabilized without MT within the temperature range of 10–300 K.Hysteresis loop measurements confirmed the weak ferromagnetism of CMH.The enhanced Dzyaloshinskii–Moriya interaction(DMI)was speculated to be responsible for the temperature-independent weak ferromagnetism,in which the spin configuration would be confined with canted antiferromagnetic coupling due to the mesostructured chirality of CMH.

Novel Temperature-Independent FBG-type Pressure Sensor with Step-Coated Polymers

In this paper, a novel technique is presented for an FBG with the step-coated polymers, which can be used for the measurement of the temperature-independent pressure in the temperature range between 5 and 50℃.

TEMPERATURE-INDEPENDENT DIELECTRIC PROPERTIES OF 0.82[0.94Bi_(0.5)Na_(0.5)TiO_(3)-0.06BaTiO_(3)]-0.18K_(0.5)Na_(0.5)NbO_(3)CERAMICS

In order to explore the high temperature stability of ceramic capacitor,we present temperatureindependent dielectric properties of 0.82[0.94Bi_(0.5)Na_(0.5)TiO_(3)-0.06BaTiO_(3)]-0.18K_(0.5)Na_(0.5)NbO_(3)(BNT-BT-18KNN)ceramics.For different sintered temperature and annealing treatment,the pseudoternary system showed aεr of 2265 at 1 kHz at 35℃with a normalized permittivity ε/ε35℃varying less than±15%from 11℃to 382℃.This pure perovskite phase with slimmer and heat proof P
E loops possessed energy density of 0.616 J/cm^(3)with a tolerance of about3%in a temperature interval ranging from 20℃to 120℃,which is higher and more temperature stable than most ceramic capacitors,such as PLZST and 0.89BNT
0.06BT
0.05KNN.This relaxor ferroelectric(at room temperature)with parabolic bipolar strain
electric(S(E))curve showed a quite low temperature dependence of positive strain with less than±6.5%tolerance from the average value of 0.091%between 20℃and 120℃,which is also more temperature stable than the same composition Zhang et al.reported.These merits demonstrate that the newly produced BNT-BT-18KNN ceramics should be a promising candidate for the development of high-temperature capacitor and actuator materials.