Multifunctional nanoparticles based on magnetite/silica core-shell, consisting of iron oxides coated with silica matrix doped with fluorescent components such as organic dyes (fluorescein isothiocyanate - FITC, Rhodamine 6G) or quantum dots, have drawn remarkable attention in the last years. Due to the bi-functionality of these types of nanoparticles (simultaneously having magnetic and fluorescent properties), they are successfully used in highly efficient human stem cell labeling, magnetic carrier for photodynamic therapy, drug delivery, hyperthermia and other biomedical applications. Another application of core-shell-based nanoparticles, in which the silica is functionalized with aminosilanes, is for immobilization and separation of various biological entities such as proteins, antibodies, enzymes etc. as well as in environmental applications, as adsorbents for heavy metal ions. In vitro tests on human cancerous cells, such as A549 (human lung carcinoma), breast, human cervical cancer, THP-1 (human acute monocytic leukaemia) etc. , were conducted to assess the potential cytotoxic effects that may occur upon contact of nanoparticles with cancerous tissue. Results show that core-shell nanoparticles doped with cytostatics (cisplatin, doxorubicin, etc.), are easily adsorbed by affected tissue and in some cases lead to an inhibition of cell proliferation and induce cell death by apoptosis. The goal of this review is to summarize the advances in the field of core-shell materials, particularly those based on magnetite/silica with applicability in medicine and environmental protection. This paper briefly describes synthesis methods of silica-coated magnetite nanoparticles (Stöber method and microemulsion), the method of encapsulating functional groups based on aminosilanes in silica shell, as well as applications in medicine of these types of simple or modified nanoparticles for cancer therapy, MRI, biomarker immobilization, drug delivery, biocatalysis etc., and in environmental applications (removal of heavy metal ions and catalysis).
ABSTRACT. Leather industry has to cope nowadays with major environmental problems because of the polluting processes. Therefore, increasing the environmental efficiency in the leather sector is the major aim of leather, auxiliary materials and equipment manufacturers. The development of new tanning agents and new technologies is required to cope with the increasingly higher environmental pressure on the current tanning materials and processes such as tanning with chromium salts. This paper presents the main results obtained in the framework of INNOVA LEATHER project. The original contribution of this project in solving the above problems has involved the use of solid titanium wastes (cuttings) resulting from the process of obtaining highly pure titanium (ingots) in the preparation of new tanning compounds intended to increase the environmental efficiency of the leather sector. Also, within the above line, the aim is to obtain wetwhite leather by an organic tanning process in order to reduce chromium in tannery effluent. Another result obtained in the project is valorization of wet white leather waste as raw material for obtaining new biodegradable auxiliaries with application in agriculture, cosmetics and chemicals. KEY WORDS: tanning agents, wet white, FOC leather, waste valorization, cosmetics, soil remediation, sustainable development MATERIALE ªI TEHNOLOGII INOVATOARE PENTRU O PRODUCÞIE DURABILÃ ÎN SECTORUL PIELÃRIE-ÎNCÃLÞÃMINTE REZUMAT. Industria de pielãrie trebuie sã facã faþã în prezent unor probleme de mediu majore datorate proceselor poluante. Prin urmare, creºterea eficienþei de mediu în sectorul de pielãrie este obiectivul major al producãtorilor de piele, materiale auxiliare ºi echipamente. Este necesarã dezvoltarea unor noi agenþi de tãbãcire ºi noi tehnologii pentru a face faþã presiunii de mediu din ce în ce mai mare asupra materialelor ºi proceselor de tãbãcire actuale, cum ar fi tãbãcirea cu sãruri de crom. Aceastã lucrare prezintã principalele rezultate obþinute în cadrul proiectului INNOVA-LEATHER. Contribuþia originalã a acestui proiect la rezolvarea problemelor menþionate mai sus a implicat utilizarea deºeurilor solide de titan (ºpan) rezultate din procesul de obþinere a titanului foarte pur (lingouri) în prepararea unor noi compuºi tananþi cu scopul de a creºte eficienþa ecologicã a sectorului de pielãrie. De asemenea, în acelaºi context, scopul a fost de a obþine piele wet-white printr-un proces de tãbãcire organicã, pentru a reduce cantitatea de crom din efluenþii din tãbãcãrie. Alte rezultate obþinute în cadrul proiectului sunt valorificarea deºeurilor de piele wet-white ca materie primã pentru obþinerea unor noi auxiliari biodegradabili cu aplicaþii în agriculturã, produse cosmetice ºi substanþe chimice. CUVINTE CHEIE: agenþi tananþi, wet white, piele fãrã crom, valorificarea deºeurilor, cosmetice, remedierea solului, dezvoltare durabilã DES MATÉRIAUX ET DES TECHNOLOGIES INNOVANTES POUR LA PRODUCTION DURABLE DANS LE SECTEUR DU CUIR ET DES CHAUSSURESRÉSUMÉ. L'industrie du cuir doit main...
This paper presents the improvement of the antimicrobial character of woven fabrics based on cotton. The woven fabrics were cleaned in oxygen plasma and treated by padding with silver chloride and titanium dioxide particles. The existence of silver and titanium on woven fabrics was evidenced by electronic microscope images (SEM, EDAX) and by flame atomic absorption spectrophotometry. The antimicrobial tests were performed with two fungi: Candida albicans and Trichophyton interdigitale. The obtained antimicrobial effect was considerably higher compared to the raw fabrics. Treatment of dyed fabrics with a colloidal solution based on silver chloride and titanium dioxide particles does not considerably influence colour resistance of dyes.
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