Sunil Kumar scite author profile

Crescent fracture dislocations are a well-recognised subset of pelvic ring injuries which result from a lateral compression force. They are characterised by disruption of the sacroiliac joint and extend proximally as a fracture of the posterior iliac wing. We describe a classification with three distinct types. Type I is characterised by a large crescent fragment and the dislocation comprises no more than one-third of the sacroiliac joint, which is typically inferior. Type II fractures are associated with an intermediate-size crescent fragment and the dislocation comprises between one- and two-thirds of the joint. Type III fractures are associated with a small crescent fragment where the dislocation comprises most, but not all of the joint. The principal goals of surgical intervention are the accurate and stable reduction of the sacroiliac joint. This classification proves useful in the selection of both the surgical approach and the reduction technique. A total of 16 patients were managed according to this classification and achieved good functional results approximately two years from the time of the index injury. Confounding factors compromise the summary short-form-36 and musculoskeletal functional assessment instrument scores, which is a well-recognised phenomenon when reporting the outcome of high-energy trauma.

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Bi2Te3-MWCNT nanocomposite: An efficient thermoelectric material

Kumar

Chaudhary

Dhawan

et al. 2017

Ceramics International

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Effect of graphene nanofillers on the enhanced thermoelectric properties of Bi₂Te₃ nanosheets: elucidating the role of interface in de-coupling the electrical and thermal characteristics

et al. 2018

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In this report, we investigate the effect of graphene nanofillers on the thermoelectric properties of BiTe nanosheets and demonstrate the role of interface for enhancing the overall figure of merit (ZT) ∼ 53%. The enhancement in the ZT is obtained due to an increase in the electrical conductivity (∼111%) and decrease in the thermal conductivity (∼12%) resulting from increased conducting channels and phonon scattering, respectively at the interfaces between graphene and BiTe nanosheets. A detailed analysis of the thermal conductivity reveals ∼4 times decrease in the lattice thermal conductivity in contrast to ∼2 times increase in the electronic thermal conductivity after the addition of graphene. Kelvin probe measurements have also been carried which reveals presence of low potential barrier at the interface between graphene and BiTe nanosheets which assist the flow of charge carriers thereby, increasing the mobility of the carriers. Thus, our results reveals a significant decrease in the lattice thermal conductivity (due to the formation of interfaces) and increase in the electron mobility (due to conducting paths at the interfaces) strongly participate in deciding observed enhancement in the thermoelectric figure of merit.

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Metal-semiconductor transition and Seebeck inversion in CoFe 2 O 4 nanoparticles

Kumar

Munjal

Khare

2017

Journal of Physics and Chemistry of Solids

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X-ray photoelectron spectroscopy characterization of radio frequency reactively sputtered carbon nitride thin films

Kumar

Butcher

Tansley

1996

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Pt:SnO2 thin films for gas sensor characterized by atomic force microscopy and xray photoemission spectromicroscopy J.Preparation of cubic boron nitride films by radio frequency bias sputtering Carbon nitride thin films prepared by radio frequency reactive sputtering of graphite in pure nitrogen plasma have been characterized by x-ray photoelectron spectroscopy ͑XPS͒ for probing the chemical bonding in the films. The multiple binding energy values obtained for the C 1s and N 1s photoelectrons in the film suggest that both the C and N atoms exhibit at least three types of chemical states, manifestative of different types of the C-N bonding present in the material. The presence of theoretically predicted ␤-C 3 N 4 phase in our C-N films has been suggested on the basis of XPS and optical data.

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Influence of compactness and formation of metallic secondary phase on the thermoelectric properties of Cu2ZnSnS4 thin films

2018

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Flexible hybrid piezoelectric-thermoelectric generator for harnessing electrical energy from mechanical and thermal energy

Kumar

Singh

Khare

2019

Energy Conversion and Management

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Sunil Kumar

Clinical presentation of retinoblastoma in Eastern Nepal

Crescent fracture-dislocation of the sacroiliac joint

Bi2Te3-MWCNT nanocomposite: An efficient thermoelectric material

Effect of graphene nanofillers on the enhanced thermoelectric properties of Bi₂Te₃ nanosheets: elucidating the role of interface in de-coupling the electrical and thermal characteristics

Metal-semiconductor transition and Seebeck inversion in CoFe 2 O 4 nanoparticles

X-ray photoelectron spectroscopy characterization of radio frequency reactively sputtered carbon nitride thin films

Influence of compactness and formation of metallic secondary phase on the thermoelectric properties of Cu2ZnSnS4 thin films

Flexible hybrid piezoelectric-thermoelectric generator for harnessing electrical energy from mechanical and thermal energy

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About

Sunil Kumar

Clinical presentation of retinoblastoma in Eastern Nepal

Crescent fracture-dislocation of the sacroiliac joint

Bi2Te3-MWCNT nanocomposite: An efficient thermoelectric material

Effect of graphene nanofillers on the enhanced thermoelectric properties of Bi2Te3 nanosheets: elucidating the role of interface in de-coupling the electrical and thermal characteristics

Metal-semiconductor transition and Seebeck inversion in CoFe 2 O 4 nanoparticles

X-ray photoelectron spectroscopy characterization of radio frequency reactively sputtered carbon nitride thin films

Influence of compactness and formation of metallic secondary phase on the thermoelectric properties of Cu2ZnSnS4 thin films

Flexible hybrid piezoelectric-thermoelectric generator for harnessing electrical energy from mechanical and thermal energy

Contact Info

Product

Resources

About

Effect of graphene nanofillers on the enhanced thermoelectric properties of Bi₂Te₃ nanosheets: elucidating the role of interface in de-coupling the electrical and thermal characteristics