Waseem Haider scite author profile

There has been a considerable amount of research in the development of sustainable water treatment techniques capable of improving the quality of water. Unavailability of drinkable water is a crucial issue especially in regions where conventional drinking water treatment systems fail to eradicate aquatic pathogens, toxic metal ions and industrial waste. The research and development in this area have given rise to a new class of processes called advanced oxidation processes, particularly in the form of heterogeneous photocatalysis, which converts photon energy into chemical energy. Advances in nanotechnology have improved the ability to develop and specifically tailor the properties of photocatalytic materials used in this area. This paper discusses many of those photocatalytic nanomaterials, both metal-based and metal-free, which have been studied for water and waste water purification and treatment in recent years. It also discusses the design and performance of the recently studied photocatalytic reactors, along with the recent advancements in the visible-light photocatalysis. Additionally, the effects of the fundamental parameters such as temperature, pH, catalyst-loading and reaction time have also been reviewed. Moreover, different techniques that can increase the photocatalytic efficiency as well as recyclability have been systematically presented, followed by a discussion on the photocatalytic treatment of actual wastewater samples and the future challenges associated with it.

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Additively manufactured 316L stainless steel with improved corrosion resistance and biological response for biomedical applications

Lodhi

Deen

Greenlee‐Wacker

et al. 2019

Additive Manufacturing

142

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The current trends of Mg alloys in biomedical applications—A review

2018

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Magnesium (Mg) has emerged as an ideal alternative to the permanent implant materials owing to its enhanced properties such as biodegradation, better mechanical strengths than polymeric biodegradable materials and biocompatibility. It has been under investigation as an implant material both in cardiovascular and orthopedic applications. The use of Mg as an implant material reduces the risk of long-term incompatible interaction of implant with tissues and eliminates the second surgical procedure to remove the implant, thus minimizes the complications. The hurdle in the extensive use of Mg implants is its fast degradation rate, which consequently reduces the mechanical strength to support the implant site. Alloy development, surface treatment, and design modification of implants are the routes that can lead to the improved corrosion resistance of Mg implants and extensive research is going on in all three directions. In this review, the recent trends in the alloying and surface treatment of Mg have been discussed in detail. Additionally, the recent progress in the use of computational models to analyze Mg bioimplants has been given special consideration.

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Corrosion behavior of additively manufactured 316L stainless steel in acidic media

2018

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Recent Advancements in Bulk Metallic Glasses and Their Applications: A Review

Khan

Nemati

Rahman

et al. 2017

Critical Reviews in Solid State and Materials Sciences

206

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Waseem Haider

Heterogeneous photocatalysis and its potential applications in water and wastewater treatment: a review

Additively manufactured 316L stainless steel with improved corrosion resistance and biological response for biomedical applications

The current trends of Mg alloys in biomedical applications—A review

Corrosion behavior of additively manufactured 316L stainless steel in acidic media

Recent Advancements in Bulk Metallic Glasses and Their Applications: A Review

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