Photopolymerization of Bio-Based Polymers in a Biomedical Engineering Perspective

Chiulan, Ioana; Heggset, Ellinor B.; Voicu, Ştefan Ioan; Chinga-Carrasco, Gary

doi:10.1021/acs.biomac.0c01745

Cited by 63 publications

(47 citation statements)

References 181 publications

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“…Membrane materials, initially widely used for water filtration and drinkable water production [ 4 , 5 , 6 ], have found widespread applicability in the last 50 years in other areas, such as filtering in the food industry, the energy industry [ 7 , 8 ], catalysis [ 9 ], sensors [ 10 ], etc. One of the areas in which the importance of membrane materials has grown exponentially lately, is biomedical sciences [ 11 ]. Thus, membranes emerged for filtering and concentrating proteins, both by manipulating porosity [ 12 ] and by the modification of the active surface, as well as by the synthesis of composite membranes.…”

Section: Introductionmentioning

confidence: 99%

Functionalized Hemodialysis Polysulfone Membranes with Improved Hemocompatibility

Radu

Voicu

2022

Polymers

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The field of membrane materials is one of the most dynamic due to the continuously changing requirements regarding the selectivity and the upgradation of the materials developed with the constantly changing needs. Two membrane processes are essential at present, not for development, but for everyday life—desalination and hemodialysis. Hemodialysis has preserved life and increased life expectancy over the past 60–70 years for tens of millions of people with chronic kidney dysfunction. In addition to the challenges related to the efficiency and separative properties of the membranes, the biggest challenge remained and still remains the assurance of hemocompatibility—not affecting the blood during its recirculation outside the body for 4 h once every two days. This review presents the latest research carried out in the field of functionalization of polysulfone membranes (the most used polymer in the preparation of membranes for hemodialysis) with the purpose of increasing the hemocompatibility and efficiency of the separation process itself with a decreasing impact on the body.

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Section: Introductionmentioning

confidence: 99%

Functionalized Hemodialysis Polysulfone Membranes with Improved Hemocompatibility

Radu

Voicu

2022

Polymers

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“…The first large-scale industrial applications emerged after the Second World War when large amounts of nitrocellulose leftover from unused bombs were transformed into membranes for water filtration and purification to make it drinkable, under the guardianship of the Marshall Plan, thus giving birth to the company Millipore [3]. From the point of view of polymers used in the manufacturing of membranes, virtually any polymer that can dissolve in a solvent, for which the solvent exists a total non-solvent miscible with it, can lead to the preparation of polymer membranes by phase inversion technique [4][5][6]. The most commonly used polymers for membrane synthesis are cellulose derivatives, polysulfones and polyethersulfones, polyamide, etc.…”

Section: Introductionmentioning

confidence: 99%

Graphene-based composite membranes for nanofiltration: performances and future perspectives

Voicu

Thakur

2021

emergent mater.

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Nanofiltration is one of the most widely used membrane processes for water purification with high practical value because of a large number of chemical species that are separated through this process. Usually, for nanofiltration, high energy–consuming operations are involved including the generation of enough pressure for the rejection of jumps and lower molecular weight chemicals at the surface of the membrane. Recent developments in the synthesis of nanocomposite membranes with graphene and graphene derivatives have led to an increase in energy requirements and the increase in membranes performances. In the present review, we have presented the recent advances in the field of graphene-based composite membranes for nanofiltration with applications for both types of based solvents—aqueous solutions and organic solvents. The presentation will be focused especially on the performances of membranes and applications of these materials for the rejection of salts (Na+, Mg2+), heavy metals (Li2+), and lower molecular weight organic compounds (methylene blue, Congo red, Direct Red, Methyl orange, Reactive green 13, etc.). Modern synthesis methods like interfacial polymerization for obtaining thin-film composite nanofiltration membranes are also presented.

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“…Membrane materials have proven their usefulness and necessity due to their selectivity and large number of practical employments such as water purification by retention of heavy metal ions [ 30 , 31 , 32 ] and pollutants from the pharmaceutical industry [ 33 , 34 , 35 ], or biomedical applications [ 36 , 37 , 38 , 39 ]. According to various studies, the incorporation of carbonaceous compounds into polymeric membranes increases their thermal stability, improves bioactivity and mechanical properties [ 4 ].…”

Section: Introductionmentioning

confidence: 99%

A Novel Generation of Polysulfone/Crown Ether-Functionalized Reduced Graphene Oxide Membranes with Potential Applications in Hemodialysis

et al. 2021

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Heavy metal poisoning is a rare health condition caused by the accumulation of toxic metal ions in the soft tissues of the human body that can be life threatening if left untreated. In the case of severe intoxications, hemodialysis is the most effective method for a rapid clearance of the metal ions from the bloodstream, therefore, the development of hemodialysis membranes with superior metal ions retention ability is of great research interest. In the present study, synthetic polysulfone membranes were modified with reduced graphene oxide functionalized with crown ether, an organic compound with high metal ions complexation capacity. The physico-chemical characteristics of the composite membranes were determined by FT-IR, Raman, XPS and SEM analysis while their efficiency in retaining metal ions was evaluated via ICP-MS analysis. The obtained results showed that the thermal stability of reduced graphene oxide was improved after functionalization with crown ether and that the presence of the carbonaceous filler influenced the membranes morphology in terms of pore dimensions and membrane thickness. Moreover, the ability of Cu2+ ions retention from synthetic feed solution was up to three times higher in the case of the composite membranes compared to the neat ones.

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Photopolymerization of Bio-Based Polymers in a Biomedical Engineering Perspective

Cited by 63 publications

References 181 publications

Functionalized Hemodialysis Polysulfone Membranes with Improved Hemocompatibility

Functionalized Hemodialysis Polysulfone Membranes with Improved Hemocompatibility

Graphene-based composite membranes for nanofiltration: performances and future perspectives

A Novel Generation of Polysulfone/Crown Ether-Functionalized Reduced Graphene Oxide Membranes with Potential Applications in Hemodialysis

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