Anu Mohandas scite author profile

Atomization is an intricate operation involving unstable and complex networks with rupture and fusion of liquid molecules. There are diverse details that typify the spray formation, which are the technique and configuration of the atomization process, dimension and structure of the nozzle, experimental parameters, etc. Ultimately, the process generates fine sprays from the bulk of a liquid. Some examples of atomization that we come across in our day-to-day life are antiperspirant or hair spray, shower head, garden sprinkler, or cologne mist. In this review paper we are briefly discussing the theoretical steps taking place in an atomization technique. The instabilities of the jet and sheet are explained to understand the underlying theory that breaks the jet or sheet into droplets. Different types of atomization processes based on the energy sources are also summarized to give an idea about the advantages and disadvantages of these techniques. We are also discussing the various biomedical applications of the electrohydrodynamic atomization and its potential to use as a drug delivery system. In short, this paper is trying to demonstrate the diverse applications of atomization to show its potency as a user friendly and cost-effective technique for various purposes.

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COVID-19: A Comprehensive View of Diverse Mitigation Measures, Biomaterials and Outlook

Mohandas

Shi

Ramakrishna

2021

Nanoarchitectonics

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COVID-19 the existing contagion is caused by SARS-CoV-2 (Severe Acute Respiratory Syndrome Coronavirus 2). As of 1st March, 2021, the statistical study shows, 114 million people all over the world have been affected by COVID-19 and in this about 2.53 million deaths have been reported with a recovery of 64.4 million cases. The most commonly testified signs of COVID-19 infection are pyrexia, tussis and tiredness; other symptoms that are less common include deprivation in senses (odor or flavor), pharyngitis, stuffy nose, cephalgia, gastroenteritis etc. Among the reported cases, approximately 10-15% progress to severe disease and 5% becomes critically ill. Most people recover at 2-6 weeks after exposure to the virus, but it is reported that there are some patients who may recur some symptoms for weeks or months after initial recovery although they are not infectious during this period. In this review article, we have briefly discussed the different diagnostic and detection measures that are being clinically practiced and the treatment methods including medicines and vaccines which has been undertaken in the fight against COVID-19. Recent advances in various regulatory measures comprising the application of biomaterials engineering (nanomaterials, biosensors, quantum dots, polymeric array-based vaccines, etc.) and the digital technologies are also discussed. Organoid cultures are also used against SARS-CoV-2 to understand the biological phenomena taking place in the human body through infection, and thereby establishing the necessary trials to control the infection. In short, there is a requirement of the combination of study from multidisciplinary areas to understand the virus better and develop more effective mitigation measures. There are still studies under examination to improve the public health and to have complete control over this novel virus.

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Anu Mohandas

Antibacterial and cytocompatible nanotextured Ti surface incorporating silver via single step hydrothermal processing

An Overview on Atomization and Its Drug Delivery and Biomedical Applications

COVID-19: A Comprehensive View of Diverse Mitigation Measures, Biomaterials and Outlook

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