Vikram Mittal scite author profile

Lithium-ion batteries have enabled electric vehicles to achieve a foothold in the automobile market. Due to an increasing environmental consciousness, electric vehicles are expected to take a larger portion of the market, with the ultimate goal of supplanting traditional vehicles. However, the involved costs, sustainability, and technical limitations of lithium-ion batteries do create substantial obstacles to this goal. Therefore, this article aims at presenting magnesium-ion batteries as a potential replacement for lithium-ion batteries. Though still under development, magnesium-ion batteries show promise in achieving similar volumetric and specific capacities to lithium-ion batteries. Additionally, magnesium is substantially more abundant than lithium, allowing for the batteries to be cheaper and more sustainable. Numerous technical challenges related to cathode and electrolyte selection are yet to be solved for magnesium-ion batteries. This paper discusses the current state-of-the-art of magnesium-ion batteries with a particular emphasis on the material selection. Although, current research indicates that sulfur-based cathodes coupled with a (HMDS)2Mg-based electrolyte shows substantial promise, other options could allow for a better performing battery. This paper addresses the challenges (materials and costs) and benefits associated with developing these batteries. When overcoming these challenges, magnesium-ion batteries are posed to be a groundbreaking technology potentially revolutionizing the vehicle industry.

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The Underlying Physics and Chemistry behind Fuel Sensitivity

Mittal¹,

Heywood²,

Green³

2010

SAE Int. J. Fuels Lubr.

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Phenomena that Determine Knock Onset in Spark-Ignition Engines

Mittal¹,

Revier²,

Heywood³

2007

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Model-based systems engineering: application and lessons from a technology maturation project

Cole

Mittal

Gillespie

et al. 2019

Procedia Computer Science

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Pretreatment dose verification in volumetric modulated arc therapy using liquid ionization chamber

et al. 2019

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Purpose: The purpose of the present study was to evaluate the practicability of liquid ionization chamber (LIC) for pretreatment dose verification of the advanced radiotherapy techniques such as volumetric modulated arc therapy (VMAT). Materials and Methods: The dosimetric characteristics of LIC such as repeatability, sensitivity, monitor unit linearity, dose rate dependence, angular dependence, voltage-current response, and output factors were investigated in 6 MV therapeutic X-ray beams. The LIC was cross-calibrated against 0.125-cc air-filled thimble ionization chamber. A dedicated dosimetry insert made up of Perspex to incorporate the LIC at proper location in the intensity-modulated radiation therapy thorax phantom was locally fabricated. The collection efficiency and ion recombination correction factor was determined using the two-dose rate method. Pretreatment dose verification measurement of VMAT treatment plans were carried out using the liquid ionization chamber as well as small volume (0.125 cc) air-filled thimble ionization chamber. The measured dose values by the two dosimeters and TPS calculated dose at a given point were compared. Results: The relative percentage differences between the TPS calculated and measured doses were within ± 1.57% for LIC and ± 2.21% for 0.125 cc ionization chamber, respectively. Conclusions: The measured dose values by the two dosimeters and TPS calculated dose at a given point were found comparable suggesting that the LIC could be a good choice of dosimeter for pretreatment dose verification in VMAT.

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Combining Wargaming With Modeling and Simulation to Project Future Military Technology Requirements

Mittal

Davidson

2021

IEEE Trans. Eng. Manage.

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Vikram Mittal

The Shift in Relevance of Fuel RON and MON to Knock Onset in Modern SI Engines Over the Last 70 Years

The Relevance of Fuel RON and MON to Knock Onset in Modern SI Engines

Magnesium-ion batteries for electric vehicles: Current trends and future perspectives

The Underlying Physics and Chemistry behind Fuel Sensitivity

Phenomena that Determine Knock Onset in Spark-Ignition Engines

Model-based systems engineering: application and lessons from a technology maturation project

Pretreatment dose verification in volumetric modulated arc therapy using liquid ionization chamber

Combining Wargaming With Modeling and Simulation to Project Future Military Technology Requirements

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