Browsing by Author "Malik Nasibullah"
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Item Anticancer potential of spirooxindole derivatives(Elsevier, 2024) Malik Nasibullah; Mohd Faiyyaz, Akanksha Tiwari, Saud Nusrat Ali, Neda Afreen, Firoz Hassan,Mohd AsifItem Fundamentals of Metal Organic Frameworks(Elsevier, 2023) Atif Husain; Malik NasibullahGreen synthetic pathways are a prerequisite for a larger implementation of metal–organic frameworks (MOFs) towards a sustainable approach leading to the better reproducibility of the novel, selective and efficient MOFs. Advancing progress in the synthesis of MOFs proceeding through greener and water-based pathways will not only overcome the pertaining challenges erupting from the traditional conventional synthetic procedures but will provide a brighter scope in the betterment of the environment and economic impacts. The last three decades have seen a rapid increase in the study of MOFs especially focused on the synthetic pathways and industrial applications and commercialization of desired MOFs. To familiarize with the developed and emerging synthetic procedures, one needs to have a very clear and distinct understanding of the fundamentals of MOF. This chapter presents a concise study of multiple concepts which are essential to apprehend all the necessary points associated with the detailed study of the fundamentals of MOF. The essential parameters around which the MOF chemistry is based are discussed ranging from the introductory part and past trends to the categoric selection of specific properties leading to the development of newer and advanced applications in the same field.Item Industrial aspects of water-based metal–organic frameworks(Elsevier, 2024) Malik Nasibullah; Atif Husain , Farrukh AqilThe intrinsic potential leading to different functional properties and applications is due to the scope of controlled morphology and modifiable modular structure of metal–organic frameworks (MOFs). The prerequisite for the employment of these MOFs in industrial applications is their synthetic procedures by considering method optimization and structural characterization including morphological characterization and stability. During the past few decades, a paradigm shift is seen in the construction of these MOFs encompassing research to material, energy, environmental research, and green chemical engineering from a standard laboratory scale. In the current scenario of globalization and the consequences erupting from it, the adoption of a greener preparation pathway for the synthesis of MOFs is the need of the hour. For the same, the employment of water both as a reaction media and additive as either of them is progressively moving toward greener and sustainable pathways considering the related safety and environmental impacts. These water-based MOFs could provide a better and more efficient pathway leading to the related industrial implementation and commercial applications like efficient fuel storage, pollutant removal, water harvesting, and other adsorption-based technologies which will significantly contribute to clean energy exploitation and environmental protection leading to a future based on green production. The versatility of water as compared with other organic solvents in terms of its non-toxic nature, easy stability and disposability, handling, environment friendliness, and easy scale-up techniques leads to a crucial need for upcoming investigations of water-based MOFs by optimizing its structures or properties to develop its potential applications in energy conversions, catalysis, drug delivery, chemical sensors, supercapacitors, etc. From a future perspective the development of green synthetic routes by minimal usage of organic solvents that pose safety and environmental risk wherever technically and economically practicable is a progressive task of utmost importance.Item Medicinal and Environmental Chemistry: Experimental Advances and Simulations (Part I)(Bentham Science, 2021) Khan, Tahmeena ed.; Khan, Abdul Rahman ed.; Iqbal Azad ed.; Malik Nasibullah; Qazi Inamur RahmanItem Recent Trends in Antimicrobial Drug Resistance and Implications for the Needs of Microbial Toxicology Research(CRC Press, 2024) Rida Sagheer; Malik Nasibullah; Nazia Iqbal