M. S. Jayalakshmy scite author profile

It is known that the thermal properties of a material influence the temperature around it. Once heated, the rate at which a material transfers the absorbed heat into the surroundings is determined by the thermal effusivity (or thermal inertia) of the material, and it depends on the well-known thermal properties, thermal conductivity, and specific heat capacity. Since a direct measurement of these properties is rather difficult for thin biological specimens such as plant leaves, a photothermal technique is used to measure the thermal effusivity, thermal diffusivity, thermal conductivity, and specific heat capacity for a few representative species of plant leaves. Measurements have been carried out on fresh as well as dry leaves to estimate the differences in their properties. Thermal properties of plant leaves are compared with the corresponding properties of two materials abundant in the environment and discussed. The influence of thermal properties, particularly the thermal effusivity and specific heat capacity, of plant leaves on controlling the temperature of the environment around them is discussed.

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Dopamine functionalization of BaTiO₃: an effective strategy for the enhancement of electrical, magnetoelectric and thermal properties of BaTiO₃-PVDF-TrFE nanocomposites

Mayeen

Kala²,

Jayalakshmy

et al. 2018

Dalton Trans.

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Electro-active polymer-ceramic composite systems are emerging materials in the fields of nanoelectronic, microelectromechanical and macroelectronic device applications. Still more precise and concise research studies have yet to come in the areas of energy storage, harvesting, energy conversion, etc. In line with this, we have synthesized and analyzed PVDF-TrFE based nanocomposites of both functionalized and non-functionalized BaTiO (BTO). All the samples were prepared as free standing films by employing a solvent cast method. A systematic study of structural, morphological, thermal, dielectric, ferroelectric, piezoelectric and magnetoelectric (ME) properties has been carried out. It has been reported that the addition of BTO nanoparticles (with and without functionalization) into a polymer matrix substantially improved the properties of the nanocomposite. By performing the above mentioned characterization, it could be proved that dopamine functionalized BTO (DBTO) samples are better choices for the above mentioned applications including magnetoelectric applications, than the non-functionalized ones.

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Flexible and self-standing nickel ferrite–PVDF-TrFE cast films: promising candidates for high-end magnetoelectric applications

Mayeen

Kala²,

Jayalakshmy

et al. 2019

Dalton Trans.

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M. S. Jayalakshmy

Thermophysical Properties of Plant Leaves and Their Influence on the Environment Temperature

Dopamine functionalization of BaTiO₃: an effective strategy for the enhancement of electrical, magnetoelectric and thermal properties of BaTiO₃-PVDF-TrFE nanocomposites

Flexible and self-standing nickel ferrite–PVDF-TrFE cast films: promising candidates for high-end magnetoelectric applications

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M. S. Jayalakshmy

Thermophysical Properties of Plant Leaves and Their Influence on the Environment Temperature

Dopamine functionalization of BaTiO3: an effective strategy for the enhancement of electrical, magnetoelectric and thermal properties of BaTiO3-PVDF-TrFE nanocomposites

Flexible and self-standing nickel ferrite–PVDF-TrFE cast films: promising candidates for high-end magnetoelectric applications

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Dopamine functionalization of BaTiO₃: an effective strategy for the enhancement of electrical, magnetoelectric and thermal properties of BaTiO₃-PVDF-TrFE nanocomposites