E-ISSN: 3049-4427 | Peer-Reviewed Journal (Refereed Journal) | Hybrid Open Access
International Journal of Membranes [3049-4427(e)] is a peer-reviewed online journal launched in 2024 that aims to publish high-quality research articles, reviews, and communications related to membrane science and technology. The focus of this journal is on membrane materials, …
The International Journal of Membranes invites original research articles, reviews, and communications that report novel and significant findings in the above-mentioned areas. The journal aims to provide a platform for researchers, scientists, and engineers to exchange ideas, knowledge, and expertise in the field of membrane science and technology.
The intended audience for the journal includes researchers, academics, engineers, and students working in the field of membrane science and technology, as well as professionals in industries such as water treatment, chemical processing, and pharmaceuticals.
ijm maintains an Editorial Board of practicing researchers from around the world, to ensure manuscripts are handled by editors who are experts in the field of study.
Institutional Profile Link: https://yvu.edu.in/home/ksvkrishnarao
Journal: International Journal of Membranes
This is a review of the crucial role played by cell membranes in health and disease with respect to their contribution to infectious and metabolic diseases.
Traditionally, finding and improving membrane materials has depended on trial-and-error experiments, which can take a long time, cost a lot of money, and only cover a small area.
Membrane-based separation technologies have emerged as indispensable tools in water purification, biomedical engineering, pharmaceutical processing, and environmental protection.
Biological membranes are important structures that control cellular work, signal transmission, transport, and communication.
Cell membranes represent dynamic structural and functional platforms that integrate nutritional signals with cellular metabolism, immune competence, and physiological adaptation in food animals.
Advanced membrane materials are better than regular polymers because they are more selective, permeable, and stable.
