Abhai Mansingh

What is he best known for?

The fields of study he is best known for:

• Oxygen
• Semiconductor
• Optics

Abhai Mansingh mainly focuses on Dielectric, Ferroelectricity, Annealing, Amorphous solid and Analytical chemistry. His Ferroelectricity research includes elements of Silicon, Permittivity, Sol-gel, Mineralogy and Composite material. His Annealing research is multidisciplinary, incorporating perspectives in Indium tin oxide and Sputtering.

Abhai Mansingh has included themes like Barium titanate, Activation energy and Infrared spectroscopy in his Amorphous solid study. His research on Analytical chemistry frequently links to adjacent areas such as Relaxation. His Condensed matter physics research is multidisciplinary, relying on both Conductivity, Electrical resistivity and conductivity and Optics.

His most cited work include:

• Influence of postdeposition annealing on the structural and optical properties of sputtered zinc oxide film (525 citations)
• Growth and characterization of tin oxide films prepared by chemical vapour deposition (185 citations)
• DC conduvtivity of V2O5TeO2 glasses (181 citations)

What are the main themes of his work throughout his whole career to date?

Abhai Mansingh focuses on Dielectric, Analytical chemistry, Condensed matter physics, Ferroelectricity and Atmospheric temperature range. His Dielectric research incorporates themes from Composite material, Relaxation, Mineralogy and Conductivity. His research in Analytical chemistry intersects with topics in Relaxation, Amorphous solid, Annealing, Refractive index and Substrate.

His Condensed matter physics research incorporates elements of Activation energy, Optics, Surface layer, Electrode and Thermal conduction. His research in Ferroelectricity focuses on subjects like Sol-gel, which are connected to Barium acetate and Ceramic. His study looks at the intersection of Atmospheric temperature range and topics like Nuclear magnetic resonance with Dielectric loss.

He most often published in these fields:

• Dielectric (47.59%)
• Analytical chemistry (37.95%)
• Condensed matter physics (25.90%)

What were the highlights of his more recent work (between 1998-2008)?

• Analytical chemistry (37.95%)
• Dielectric (47.59%)
• Optics (15.06%)

In recent papers he was focusing on the following fields of study:

Abhai Mansingh mainly investigates Analytical chemistry, Dielectric, Optics, Ferroelectricity and Condensed matter physics. His research integrates issues of Refractive index, Spontaneous emission, Annealing and Ceramic in his study of Analytical chemistry. Abhai Mansingh combines subjects such as Capacitance and Atmospheric temperature range with his study of Dielectric.

His Optics study combines topics from a wide range of disciplines, such as Layer and Substrate. His studies deal with areas such as Amorphous solid, Dielectric loss and Barium titanate as well as Ferroelectricity. His study looks at the relationship between Condensed matter physics and fields such as Activation energy, as well as how they intersect with chemical problems.

Between 1998 and 2008, his most popular works were:

• Optical properties and spectroscopic parameters of Nd3+-doped phosphate and borate glasses (66 citations)
• Mechanism of dc conduction in polyaniline doped with sulfuric acid (66 citations)
• Ferroelectric and dielectric properties of sol-gel processed barium titanate ceramics and thin films (63 citations)

In his most recent research, the most cited papers focused on:

• Oxygen
• Semiconductor
• Condensed matter physics

His scientific interests lie mostly in Analytical chemistry, Dielectric, Ferroelectricity, Permittivity and Amorphous solid. As part of one scientific family, he deals mainly with the area of Analytical chemistry, narrowing it down to issues related to the Annealing, and often Gas composition, Optics, Lattice constant, Zinc and Refractive index. His study in Dielectric is interdisciplinary in nature, drawing from both Modulus, Atmospheric temperature range and Conductivity.

Abhai Mansingh works mostly in the field of Ferroelectricity, limiting it down to concerns involving Barium titanate and, occasionally, Space charge and Dissipation factor. His Permittivity research includes themes of Dielectric loss, Composite material and Strontium titanate. His Amorphous solid study incorporates themes from Sol-gel, Barium acetate, Mineralogy and Ceramic.

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