Amir A. Asif scite author profile

Material and processing issues in the Japanese thin film Si solar cell program AIP Conf. Proc. 462, 73 (1999); 10.1063/1.57953Modeling and manufacturability assessment of bistable quantum-dot cellsIn this paper, we have carried out detailed technical and economic assessment of perovskite solar cells for large scale manufacturing. For ultra-small area of the order of 0.1 cm 2 , efficiency of 20% or so are reported. However, for area of 25 cm 2 , the efficiency is about 10%. Based on the photovoltaic module manufacturing requirements of no constraint on the supply of raw materials, low variability of every key process and process-induced defects, low cost of manufacturing, prospects for further cost reduction in the future, green manufacturing, and long-term reliability, there are absolutely no prospects of manufacturing perovskite solar cells. No one has commercialized perovskite solar cells. Thus, contrary to hype in the literature, there is no truth that perovskite solar cells will replace silicon solar cells. We have also examined the role of perovskite solar cells for increasing the efficiency of silicon solar cells and found unsuitable both for two and four terminal device architectures. V C 2015 AIP Publishing LLC. [http://dx.

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Further Cost Reduction of Battery Manufacturing

Asif

Singh

2017

Batteries

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Abstract:The demand for batteries for energy storage is growing with the rapid increase in photovoltaics (PV) and wind energy installation as well as electric vehicle (EV), hybrid electric vehicle (HEV) and plug-in hybrid electric vehicle (PHEV). Electrochemical batteries have emerged as the preferred choice for most of the consumer product applications. Cost reduction of batteries will accelerate the growth in all of these sectors. Lithium-ion (Li-ion) and solid-state batteries are showing promise through their downward price and upward performance trends. We may achieve further performance improvement and cost reduction for Li-ion and solid-state batteries through reduction of the variation in physical and electrical properties. These properties can be improved and made uniform by considering the electrical model of batteries and adopting novel manufacturing approaches. Using quantum-photo effect, the incorporation of ultra-violet (UV) assisted photo-thermal processing can reduce metal surface roughness. Using in-situ measurements, advanced process control (APC) can help ensure uniformity among the constituent electrochemical cells. Industrial internet of things (IIoT) can streamline the production flow. In this article, we have examined the issue of electrochemical battery manufacturing of Li-ion and solid-state type from cell-level to battery-level process variability, and proposed potential areas where improvements in the manufacturing process can be made. By incorporating these practices in the manufacturing process we expect reduced cost of energy management system, improved reliability and yield gain with the net saving of manufacturing cost being at least 20%.

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Transformative and disruptive role of local direct current power networks in power and transportation sectors

et al. 2019

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The power sector is about to undergo a major disruptive transformation. In this paper, we have discussed the best possible energy solution for addressing the challenges of climate change and eradication of energy poverty. This paper focusses on the decentralized power generation, storage and distribution through photovoltaics and lithium batteries. It encompasses the need for local direct current (DC) power through the factors driving this change. The importance of local DC power in the transportation sector is also established. Finally, we conclude with data bolstering our argument towards the paradigm shift in the power network.

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Ultra-low cost and solar storm secured local DC electricity to address climate change challenges for all economies

Asif

Singh

Venayagamoorthy

2016

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Ultra Large Scale Manufacturing Challenges of Silicon Carbide and Gallium Nitride Based Power Devices and Systems

Singh

Asif

2016

ECS Trans.

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Both silicon carbide (SiC) and gallium nitride (GaN) have the potential of developing transformative power electronics for future needs. The defect density of current devices is quite high and only niche applications will continue to evolve unless major changes are made in the manufacturing process. In this paper we have proposed advanced process control (APC) based single wafer processing (SWP) tools for manufacturing SiC and GaN power devices. New manufacturing tools have the potential of realizing full potential of these materials.

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Amir A. Asif

Technical and economic assessment of perovskite solar cells for large scale manufacturing

Further Cost Reduction of Battery Manufacturing

Transformative and disruptive role of local direct current power networks in power and transportation sectors

Ultra-low cost and solar storm secured local DC electricity to address climate change challenges for all economies

Ultra Large Scale Manufacturing Challenges of Silicon Carbide and Gallium Nitride Based Power Devices and Systems

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