Magneto-transport in the monolayer MoS2 material system for high-performance field-effect transistor applications

Electronic transport in monolayer MoS2 is significantly constrained by several extrinsic factors despite showing good prospects as a transistor channel material. Our paper aims to unveil the underlying mechanisms of the electrical and magneto-transport in monolayer MoS2. In order to quantitatively interpret the magneto-transport behavior of monolayer MoS2 on different substrate materials, identify the underlying bottlenecks, and provide guidelines for subsequent improvements, we present a deep analysis of the magneto-transport properties in the diffusive limit. Our calculations are performed on suspended monolayer MoS2 and MoS2 on different substrate materials taking into account remote impurity and the intrinsic and extrinsic phonon scattering mechanisms. We calculate the crucial transport parameters such as the Hall mobility, the conductivity tensor elements, the Hall factor, and the magnetoresistance over a wide range of temperatures, carrier concentrations, and magnetic fields. The Hall factor being a key quantity for calculating the carrier concentration and drift mobility, we show that for suspended monolayer MoS2 at room temperature, the Hall factor value is around 1.43 for magnetic fields ranging from 0.001 to 1 Tesla, which deviates significantly from the usual value of unity. In contrast, the Hall factor for various substrates approaches the ideal value of unity and remains stable in response to the magnetic field and temperature. We also show that the MoS2 over an Al2O3 substrate is a good choice for the Hall effect detector. Moreover, the magnetoresistance increases with an increase in magnetic field strength for smaller magnetic fields before reaching saturation at higher magnetic fields. The presented theoretical model quantitatively captures the scaling of mobility and various magnetoresistance coefficients with temperature, carrier densities and magnetic fields.Comment: 12 pages, 12 figures. Comments welcom

Cellular landscaping of COVID-19 and gynaecological cancers: An infrequent correlation

COVID-19 resulted in a mortality rate of 3-6% caused by SARS-CoV-2 and its variant leading to unprecedented consequences of acute respiratory distress septic shock and multiorgan failure. In such a situation, evaluation, diagnosis, treatment, and care for cancer patients are difficult tasks faced by medical staff. Moreover, patients with gynaecological cancer appear to be more prone to severe infection and mortality from COVID-19 due to immunosuppression by chemotherapy and coexisting medical disorders. To deal with such a circumtances oncologists have been obliged to reconsider the entire diagnostic, treatment, and management approach. This review will provide and discuss the molecular link with gynaecological cancer under COVID-19 infection, providing a novel bilateral relationship between the two infections. Moreover, the authors have provided insights to discuss the pathobiology of COVID-19 in gynaecological cancer and their risks associated with such comorbidity. Furthermore, we have depicted the overall impact of host immunity along with guidelines for the treatment of patients with gynaecological cancer under COVID-19 infection. We have also discussed the feasible scope for the management of COVID-19 and gynaecological cancer

Creative Industries in India Mapping Study

No abstract available

Role of Experiential Trust in E-Shopping Behaviour: An Emerging Market Perspective

Addressing the limited research on online shopping trust in the emerging e-market context, this study examined how online experience affects experiential trust, attitude, perceived risk, perceived usefulness, and purchase intention. Further, experiential trust was tested as a mediator between online experience and attitude, perceived risk, and perceived usefulness. A structured questionnaire was administered to collect data from 583 respondents. The proposed hypotheses were tested through structural equation modeling using AMOS 23 and hierarchical regression analysis. The result indicates that online experience is significant in forming experiential trust. The findings also show that experiential trust plays an important role in influencing e-shoppers’ purchasing behavior. Furthermore, it has been found that online experience and experiential trust function as distinct predictors of perceived risk in online shopping behavior. This study provides new insights into online shopping behavior in emerging e-market scenarios. Practically, the findings suggest the strategic importance of generating experiential trust in the e-retailing context and indicate the utility of past online experiences

Modified Radical Mastoidectomy: Open Mastoid Cavity versus Cavity Obliteration Using Periosteal Temporofascial Flap - A Comparative Study

Introduction  The surgical treatment of Chronic Otitis Media by modified radical mastoidectomy usually results in an open cavity, with chronic discharge, hearing loss of 30 to 40 dB, frequent visits to OPD for debris removal and none the less dizziness on cold air exposure. One way to deal with these issues effectively is to obliterate the mastoid cavity. In our study we used vascularised periosteo-temporofascial swing flap with medicated bone dust to obliterate the mastoid cavity. Material and Methods In this prospective study, 50 patients who suffered from chronic otitis media, active squamous (cholesteatoma) disease, and underwent modified radical mastoidectomy with tympanoplasty procedure were and split between two equally sized groups. Group 1 had patients with open mastoid cavity and Group 2 had obliteration of mastoid cavity using vascularised periosteo-temporofascial swing flap with medicated bone dust. Patients were followed at  3rd week, 6th week, 3rd month and 6th month. Results  Patients with cavity obliteration had better and statistically significant outcomes in term of discharge status of cavity and epithelization at 3 weeks. Patients with obliteration also had positive and statistically significant results in hearing levels and hearing gain at 6 months follow up. Conclusion  Mastoid cavity obliteration with vascularised periosteo-temporofascial swing flap with medicated bone dust is a good and effective method for better post-operative outcomes and curtailing dependency on doctors for cavity care

Experimental Investigation of Detonation Re-initiation Mechanisms Following a Mach Reflection of a Quenched Detonation

Detonation waves are supersonic combustion waves that have a multi-shock front structure followed by a spatially non-uniform reaction zone. During propagation, a de-coupled shock-flame complex is periodically re-initiated into an overdriven detonation following a transient Mach reflection process. Past researchers have identified mechanisms that can increase combustion rates and cause localized hot spot re-ignition behind the Mach shock. But due to the small length scales and stochastic behaviour of detonation waves, the important mechanisms that can lead to re-initiation into a detonation requires further clarification. If a detonation is allowed to diffract behind an obstacle, it can quench to form a de-coupled shock-flame complex and if allowed to form a Mach reflection, re-initiation of a detonation can occur. The use of this approach permits the study of re-initiation mechanisms reproducibly with relatively large length scales. The objective of this study is to experimentally elucidate the key mechanisms that can increase chemical reaction rates and sequentially lead to re-initiation of a de-coupled shock-flame complex into an overdriven detonation wave following a Mach reflection. All experiments were carried out in a thin rectangular channel using a stoichiometric mixture of oxy-methane. Three different types of obstacles were used - a half-cylinder, a roughness plate along with the half-cylinder and a full-cylinder. Schlieren visualization was achieved by using a Z-configuration setup, a high speed camera and a high intensity light source. Results indicate that forward jetting of the slip line behind the Mach stem can potentially increase combustion rates by entraining hot burned gas into unburned gas. Following ignition and jet entrainment, a detonation wave first appears along the Mach stem. The transverse wave can form a detonation wave due to rapid combustion of unburned gas which may be attributed to shock interaction with the unburned gas. Alternatively, the Kelvin-Helmholtz instability can produce vortices along the slipline that may lead to mixing between burned-unburned gases and potentially increase combustion rates near the transverse wave. However, the mechanism(s) that causes the transverse wave to re-initiate into a detonation wave remains to be satisfactorily resolved