Navneet Singh scite author profile

Here we investigate the temperature evolution of the structural parameters of a potential magnetoelectric material, MnTiO3. The experimental results reveal interesting temperature dependence of the c/a ratio and the Mn-O bonds which can be divided into three regions. In region I (300 K to 200 K), the above parameters are seen to decrease with decrease in temperature due to thermal effect. In the region II (200 K to 95 K), the decrement in the structural parameters are reduced due the competing intra layer antiferromagnetic interaction setting in ∼ 200 K. The c/a ratio are seen to display a minima around 140 K. Below 140 K, the short Mn-O bonds increase suggesting the onset of inter layer antiferromagnetic interaction ∼ 100 K. In region III (95 K to 23 K), the antiferromagnetic interaction is fully established. The behaviour of the calculated Mn-O bonds based on first principle calculations are in line with the experimental results. This study demonstrates the importance of spin lattice coupling in understanding the magnetic properties of the compound which is expected to be helpful in revealing the origin of magnetically induced ferroelectricity.

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Utilization of wollastonite in cement manufacturing

Saxena

Kumar

Chundawat

et al. 2020

Materials Today: Proceedings

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The evolution of regulatory elements in the emerging promoter variant strains of HIV-1

Bhange

Prasad

Singh

et al. 2021

Preprint

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In a multicentric, observational, investigator-blinded, and longitudinal clinical study of 764 ART-naïve subjects, we identified nine different promoter-variant strains of HIV-1 subtype C (HIV-1C) emerging in the Indian population, with some of these variants being reported for the first time. Unlike several previous studies, our work here focuses on the evolving viral regulatory elements, not coding sequences. The emerging viral strains contain additional copies of the existing transcription factor binding sites (TFBS), including TCF-1α/LEF-1, RBEIII, AP-1, and NF-κB, created by sequence duplication. The additional TFBS are genetically diverse and may blur the distinction between the modulatory region of the promoter and the viral enhancer. In a follow-up analysis, we found trends, but not significant associations between any specific variant promoter and prognostic markers, probably because the emerging viral strains might not have established mono infections yet. Illumina sequencing of four clinical samples containing a co-infection indicated the domination of one strain over the other and establishing a stable ratio with the second strain at the follow-up time-points. Since a single promoter regulates viral gene expression and constitutes the master regulatory circuit with Tat, the acquisition of additional and variant copies of the TFBS may significantly impact viral latency and latent reservoir characteristics. Further studies are urgently warranted to understand how the diverse TFBS profiles of the viral promoter may modulate the characteristics of the latent reservoir, especially following the initiation of antiretroviral therapy.

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Cooperatively rearranging regions change shape near the mode-coupling crossover for colloidal liquids on a sphere

2020

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The structure and dynamics of liquids on curved surfaces are often studied through the lens of frustration-based approaches to the glass transition. Competing glass transition theories, however, remain largely untested on such surfaces and moreover, studies hitherto have been entirely theoretical/numerical. Here we carry out single particle-resolved imaging of dynamics of bi-disperse colloidal liquids confined to the surface of a sphere. We find that mode-coupling theory well captures the slowing down of dynamics in the moderate to deeply supercooled regime. Strikingly, the morphology of cooperatively rearranging regions changed from string-like to compact near the mode-coupling crossover—a prediction unique to the random first-order theory of glasses. Further, we find that in the limit of strong curvature, Mermin–Wagner long-wavelength fluctuations are irrelevant and liquids on a sphere behave like three-dimensional liquids. A comparative evaluation of competing mechanisms is thus an essential step towards uncovering the true nature of the glass transition.

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Evidence of nanoscale structural phase separation in large bandwidth La0.2Sr0.8MnO3
Bindu
¹
,
Singh
²
,
Singh
³

et al. 2012
Phys. Rev. B
10
0
7
0
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Navneet Singh

Evidence of spin lattice coupling in MnTiO ₃ : An x-ray diffraction study

Utilization of wollastonite in cement manufacturing

The evolution of regulatory elements in the emerging promoter variant strains of HIV-1

Cooperatively rearranging regions change shape near the mode-coupling crossover for colloidal liquids on a sphere

Evidence of nanoscale structural phase separation in large bandwidth La0.2Sr0.8MnO3
Bindu
¹
,
Singh
²
,
Singh
³

et al. 2012
Phys. Rev. B
10
0
7
0
View full text Add to dashboard Cite

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Navneet Singh

Evidence of spin lattice coupling in MnTiO 3 : An x-ray diffraction study

Utilization of wollastonite in cement manufacturing

The evolution of regulatory elements in the emerging promoter variant strains of HIV-1

Cooperatively rearranging regions change shape near the mode-coupling crossover for colloidal liquids on a sphere

Evidence of nanoscale structural phase separation in large bandwidth La0.2Sr0.8MnO3Bindu1, Singh2, Singh3 et al. 2012Phys. Rev. B10070View full textAdd to dashboardCite

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Product

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Evidence of spin lattice coupling in MnTiO ₃ : An x-ray diffraction study

Evidence of nanoscale structural phase separation in large bandwidth La0.2Sr0.8MnO3
Bindu
¹
,
Singh
²
,
Singh
³

et al. 2012
Phys. Rev. B
10
0
7
0
View full text Add to dashboard Cite