Materials with spatially multiscaling inhomogeous structures usual exhibit unprecedented responses to external stimuli, [1] such as high-temperature superconductivity, [2] large electrocaloric effects, [3] and colossal magnetoresistance. [4] In turn, they promise revolutionary device applications, as a result of the coexistence and competition of energetically comparable states. [5] For piezoelectric solid solutions, ultra-high piezoelectric responses are well-known near morphotropic phase
Glycogen synthase kinase-3 (GSK-3) is a kind of serine-threonine protein kinase. It places important roles in several signaling pathways and it is a key therapeutic target for a number of diseases, such as diabetes, cancer, Alzheimer's disease and chronic inflammation. Mg(2+) ions which interact with ATP are conserved in GSK. They are important in phosphoryl transfer. Li(+) is an inhibitor for GSK-3. It is used to treat bipolar mood disorder. This paper illustrates the effect of Li(+) on GSK-3. When Mg(I)(2+) is replaced by Li(+), the atom fluctuation of GSK-3 will rise, and the in-line phosphoryl transfer mechanism is probably demolished and the binding of pre-phosphorylated substrates may be disturbed. All the results we obtained clearly suggest that inhibition to GSK-3 is caused by the Mg(I)(2+) replacement with Li(+).
In this paper, 0.7Pb(Mg 1/3 Nb 2/3)O 3-0.3PbTiO 3 (PMN-30%PT) single crystal samples were poled using an alternating current (electric field) poling (ACP) method. Compared to the traditional poling method, the piezoelectric coefficient, free and clamped dielectric constants were improved more than 21%. X-ray diffraction result suggests the existence of monoclinic phase (M A) in ACP samples and piezoresponse force microscopy (PFM) result further depicts the finer engineered domain structures. The ACP sample also showed the unique phase transition sequences during the depoling process. Our work could provide a novel domain engineered method to enhance piezoelectric properties of PMN-PT single crystal. IMPACT STATEMENT Piezoelectric and dielectric properties of relaxor-PT single crystals can be significantly enhanced by employing the new alternating current poling method, attributing to the unique heterogenous domain structure containing unprecedented domain wall density.
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