A review.Oily wastewater is recognized as a significant environmental pollutant due to its diverse sources and harmful impacts on ecosystems, human health, and water resources.Electrospun nanofibrous membranes (ENMs) have emerged as a promising solution, offering high separation efficiency and ease of operation for oily water treatment.Despite these advantages, achieving consistent and effective oil-water separation remains challenging due to fouling, where oil mols. adhere to membrane surfaces, reducing water flux and rejection capabilities.This review addresses gaps in the literature by highlighting recent advancements in ENMs, specifically membranes with tailored superwetting properties (superhydrophobic/superoleophobic or superhydrophilic/superoleophobic), to enhance antifouling performance and improve separation efficiency.This review examines the latest advancements in ENM fabrication, including optimizing electrospinning parameters such as voltage, flow rate, and fiber morphol. to elevate membrane performance.Critical developments in incorporating advanced nanomaterials, such as graphene-based composites and metal oxides, are discussed, highlighting their role in enhancing membrane wettability and durability.This review offers a distinct perspective by providing an in-depth anal. of how ENMs surpass conventional membranes, particularly in terms of water flux, oil rejection rate, and fouling resistance, offering new insights into their performance and potential applications.Addnl., we highlight ENM-based systems designed explicitly for oil-water emulsions, emphasizing the importance of surface properties in maintaining stable separationOverall, this comprehensive anal. aims to advance the development of ENM technologies to meet the increasing demands of oily wastewater treatment.

28 Feb 2025·Cureus

Advances in Regenerative Medicine for Orthopedic Injuries: A Comprehensive Review

Review

Author: Sah, Ashok K ; Sahoo, Ayaskant ; Das, Samyabrata ; Thakur, Amit ; Datta, Anupam ; Bandyopadhyay, Sukanta

Orthopedics is one field that greatly benefits from the new ideas provided by regenerative medicine. This review pulls together the most recent publications involving stem cell therapy, platelet-rich plasma, growth factor, gene therapy, tissue engineering, stem cell-derived extracellular vesicles, and other regenerative technologies in the context of bone, cartilage, tendon, and ligament healing. Recent studies show that these new therapies can alter cell development, division, and production of fiber and ground substance to remodel tissues. Nevertheless, the clinical application has several issues such as the standardization of cell procurement and preparation, the control of cytokine/gene delivery, the revascularization of tissues, and the requirements of large samples, positively controlled clinical trials. More research must be conducted to overcome such barriers and make practicing more applicable in real life.

01 Jan 2025·IEEE Open Journal of Intelligent Transportation Systems

Harnessing Machine Learning for Intelligent Networking in 5G Technology and Beyond: Advancements, Applications and Challenges

Author: Shayea, Ibraheem ; Dulaj, Kristi ; Alhammadi, Abdulraqeb ; Alnakhli, Mohammad ; El-Saleh, Ayman A.

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100 Translational Medicine associated with ASharqiyah University

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