Encapsulation of environmentally-friendly biocides in silica nanosystems for multifunctional coatings

被引:28
作者
Ruggiero, L. [1 ]
Bartoli, F. [1 ]
Fidanza, M. R. [1 ]
Zurlo, F. [2 ]
Marconi, E. [1 ]
Gasperi, T. [1 ]
Tuti, S. [1 ]
Crociani, L. [3 ]
Di Bartolomeo, E. [2 ]
Caneva, G. [1 ]
Ricci, M. A. [1 ]
Sodo, A. [1 ]
机构
[1] Univ Roma Tre, Dipartimento Sci, Rome, Italy
[2] Univ Roma Tor Vergata, Dipartimento Sci Chim & Tecnol, Rome, Italy
[3] CNR, ICMATE, Padua, Italy
关键词
Environmentally-friendly biocide; Usnic acid; Zosteric acid sodium salt; Encapsulation; Silica nanocontainers; MICROBIAL DETERIORATION; ZOSTERIC ACID; NANOCAPSULES; RAMAN; NANOPARTICLES; PERFORMANCE; PROTECTION; RELEASE; IR;
D O I
10.1016/j.apsusc.2020.145908
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
In cultural heritage field, significant research efforts have been recently made to improve the efficacy of anti-vegetative treatments and to reduce the environmental impact caused by biocides high concentration. According to the pro-ecological approach, this work reports a novel approach based on the encapsulation/incorporation of environmentally-friendly biocides in different silica nanosystems in order to control the development of biological patinas on outdoor cultural heritage. Two different green biocides have been selected and tested in silica nanosystems: the zosteric acid sodium salt (ZS), a natural antifoulant compound produced by Zostera marina (eelgrass), and the usnic acid (UA), a secondary metabolite produced by some saxicolous lichens. ZS was previously successfully encapsulated but never entrapped in mesoporous silica; instead, UA is, for the first time, encapsulated and in situ entrapped into the silica nanosystems in order to control the release over time. Both silica nanosystems have been characterized as far as their dimensions and superficial properties and loading capability. The antifouling activity was assessed against microorganisms from biopatinas colonising the Aurelian Walls in Rome. Our results have shown that the two nanosystems have complementary properties, thus it is possible to tune the antifouling efficiency by combining the two in different proportions.
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页数:9
相关论文
共 48 条
[1]   Surface enhanced Raman spectroscopy of phenolic antioxidants: A systematic evaluation of ferulic acid, p-coumaric acid, caffeic acid and sinapic acid [J].
Aguilar-Hernandez, Iris ;
Afseth, Nils Kristian ;
Lopez-Luke, Tzarara ;
Contreras-Torres, Flavio F. ;
Wold, Jens Petter ;
Ornelas-Soto, Nancy .
VIBRATIONAL SPECTROSCOPY, 2017, 89 :113-122
[2]   Structural properties of core and surface of silica nanoparticles investigated by Raman spectroscopy [J].
Alessi, A. ;
Agnello, S. ;
Buscarino, G. ;
Gelardi, F. M. .
JOURNAL OF RAMAN SPECTROSCOPY, 2013, 44 (06) :810-816
[3]   Raman and IR investigation of silica nanoparticles structure [J].
Alessi, A. ;
Agnello, S. ;
Buscarino, G. ;
Gelardi, F. M. .
JOURNAL OF NON-CRYSTALLINE SOLIDS, 2013, 362 :20-24
[4]  
[Anonymous], BIOCIDES MARKET REPO
[5]  
[Anonymous], 2007, ALGAEBASE VERSION 4
[6]  
[Anonymous], 10923 UNI
[7]   Studies on Biocide Free and Biocide Loaded Zeolite Hybrid Polymer Coatings on Zinc Phosphated Mild Steel for the Protection of Ships Hulls from Biofouling and Corrosion [J].
Boopalan, Mani ;
Sasikumar, Arumugam .
SILICON, 2011, 3 (04) :207-214
[8]  
Caneva G., 2008, PLANT BIOL CULTURAL
[9]   Infrared and Raman spectroscopic characterization of some organic substituted hybrid silicas [J].
Capeletti, Larissa B. ;
Baibich, Ione M. ;
Butler, Ian S. ;
dos Santos, Joao H. Z. .
SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY, 2014, 133 :619-625
[10]   Porous silica nanocapsules and nanospheres: Dynamic self-assembly synthesis and application in controlled release [J].
Chen, Hongmin ;
He, Junhui ;
Tang, Huamin ;
Yan, Chunxiao .
CHEMISTRY OF MATERIALS, 2008, 20 (18) :5894-5900