New phthalonitrile/metal phthalocyanine-gold nanoparticle conjugates for biological applications.

The emergence of nanoscience and its effect on the development of diverse scientific fields, particularly materials chemistry, are well known today. In this study, a new di-substituted phthalonitrile derivative, namely 4,5-bis((4-(dimethylamino)phenyl)ethynyl)phthalonitrile (1), and its octa-substituted metal phthalocyanines {M = Co (2), Zn (3)} were prepared. All the newly synthesized compounds were characterized using a number of spectroscopic approaches, including FT-IR, mass, NMR, and UV-vis spectroscopy. The resultant compounds modified the surface of the gold nanoparticles (NG-1-3). Characterization of the newly synthesized conjugates was carried out by transmission electron microscopy. The antioxidant activity of compounds 1-3, NG-1-3, and NG was evaluated using the DPPH scavenging process and the highest radical scavenging activity was obtained with compounds 1, NG-1, 2, and NG-2 (100%). The antimicrobial activity of compounds 1-3, NG-1-3, and NG was studied using a microdilution assay and the most effective antimicrobial activity was obtained for NG-3 against all the tested microorganisms. The newly synthesized compounds demonstrated high DNA cleavage activity. Compounds 1-3, NG-1-3, and NG significantly inhibited the microbial cell viability of E. coli and exhibited perfect antimicrobial photodynamic therapeutic activity with 100% inhibition after 20 min LED irradiation. Besides, the biofilm inhibition activity of compounds 1-3, NG-1-3, and NG on the growth of S. aureus and P. aeruginosa were examined and compounds 1-3 and NG-1-3, especially NG-1-3, displayed high biofilm inhibition activities.

A survey on artificial intelligence approaches in supporting frontline workers and decision makers for the COVID-19 pandemic.

While the world has experience with many different types of infectious diseases, the current crisis related to the spread of COVID-19 has challenged epidemiologists and public health experts alike, leading to a rapid search for, and development of, new and innovative solutions to combat its spread. The transmission of this virus has infected more than 18.92 million people as of August 6, 2020, with over half a million deaths across the globe; the World Health Organization (WHO) has declared this a global pandemic. A multidisciplinary approach needs to be followed for diagnosis, treatment and tracking, especially between medical and computer sciences, so, a common ground is available to facilitate the research work at a faster pace. With this in mind, this survey paper aimed to explore and understand how and which different technological tools and techniques have been used within the context of COVID-19. The primary contribution of this paper is in its collation of the current state-of-the-art technological approaches applied to the context of COVID-19, and doing this in a holistic way, covering multiple disciplines and different perspectives. The analysis is widened by investigating Artificial Intelligence (AI) approaches for the diagnosis, anticipate infection and mortality rate by tracing contacts and targeted drug designing. Moreover, the impact of different kinds of medical data used in diagnosis, prognosis and pandemic analysis is also provided. This review paper covers both medical and technological perspectives to facilitate the virologists, AI researchers and policymakers while in combating the COVID-19 outbreak.