Recent advances in nanomaterials for water protection and monitoring

Das, Rasel; Vecitis, Chad D.; Schulze, Agnes; Cao, Bin; Ismail, Ahmad Fauzi; Lu, Xianbo; Chen, Jiping; Ramakrishna, Seeram

doi:10.1039/c6cs00921b

Cited by 453 publications

(176 citation statements)

References 730 publications

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“…The difference between the two BET values was approximately 5.5 %, which can be attributed to nine years of storage that may have resulted in slight structural degradation, or a measurement error (human or instrumental). The average Barrett‐Joyner‐Halenda (BJH) specific pore volume of m‐Ag−SiO 2 was also higher (0.8 cm 3 g −1 ) than those reported in the literature for other (0.1–0.7 cm 3 g −1 ) SiO 2 −Ag products . The adsorbed volumes determined from the two isotherms lay between 250 and 500 cm 3 g −1 , which clearly demonstrated the higher specific surface area of the m‐Ag−SiO 2 sample compared to that of typical m‐SiO 2 prepared by the original TLCT method; the specific pore volume of a typical m‐SiO 2 sample is usually in the 200–350 cm 3 g −1 range.…”

Section: Resultsmentioning

confidence: 62%

“…Moreover, the pore distribution was unchanged after 9 y, as evidenced by Figure , insets (c) and (d), indicating that m‐Ag−SiO 2 has an ultrastable structure. The BET specific surface areas of the material determined in 2008 and after 9 y of storage were 1835 and 1735 m 2 g −1 , respectively, with an average value of 1785 m 2 g −1 , which is very high compared to that of mesoporous materials obtained by the original TLCT method, and superior to that of other mesoporous SiO 2 −Ag products reported in the literature . The difference between the two BET values was approximately 5.5 %, which can be attributed to nine years of storage that may have resulted in slight structural degradation, or a measurement error (human or instrumental).…”

Section: Resultsmentioning

confidence: 67%

“…These previous LCT syntheses produced materials that exhibited larger Ag‐particle sizes with undefined locations on/within the matrix and lower specific surface areas (1000 m 2 g −1[14] and 450 m 2 g −1[15] ), while the m‐SiO 2 framework lacked long‐range order . Other research groups have attempted to introduce Ag precursors by impregnating pre‐synthesised m‐SiO 2 structures . The average Ag nanoparticle sizes in these materials varied from 2 to 50 nm, and the Brunauer‐Emmett‐Teller (BET) specific surface areas ranged from 300–800 m 2 g −1 .…”

Section: Introductionmentioning

confidence: 99%

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Facile and Direct Preparation of Ultrastable Mesoporous Silica with Silver Nanoclusters: High Surface Area

Aqeel

Bumajdad

2020

ChemistryOpen

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We report the successful direct synthesis of an ultrastable mesoporous silicon dioxide framework containing silver nanoclusters using a modified true liquid crystal templating method. Our modification produced an extraordinary material with a high average Brunauer‐Emmett‐Teller specific surface area of 1785 m2 g−1 – the highest reported surface area to date – and an ultrastable mesoporous structure, which has been stable for nine years so far. This method eliminates the need for reduction of silver oxide into metallic silver and restricts the growth of silver clusters. The silver nanoclusters, with an average size of 1 nm, occupy the pores and walls of the framework. Analysis of the material using nitrogen adsorption/desorption method, high‐resolution transmission electron microscopy, X‐ray diffractometry, energy‐dispersive X‐ray diffractometry, X‐ray photoelectron spectroscopy, and scanning electron microscopy is discussed herein.

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Section: Resultsmentioning

confidence: 62%

Section: Resultsmentioning

confidence: 67%

Section: Introductionmentioning

confidence: 99%

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Facile and Direct Preparation of Ultrastable Mesoporous Silica with Silver Nanoclusters: High Surface Area

Aqeel

Bumajdad

2020

ChemistryOpen

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“…[105][106][107] Thinfilm nanofiber membranes have been developed for various water treatment processes. [105][106][107] Thinfilm nanofiber membranes have been developed for various water treatment processes.…”

Section: Water Treatmentmentioning

confidence: 99%

Electrospinning of Metal–Organic Frameworks for Energy and Environmental Applications

2019

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organic linkers with a periodic, nanoscaled structure and ultrahigh surface areas. With their tunable pore/cage sizes, flexible skeleton, and large surface-to-volume ratio, [13][14][15][16][17][18][19] MOFs have a large potential for a wide range of applications, including gas storage and separation, rechargeable batteries, supercapacitors, solar cells, nanoreactors, heterogeneous catalysis, or drug delivery. [20][21][22][23][24][25][26][27] Recently, significant efforts have been devoted to the design and synthesis of new MOFs structures and the investigation of their physical or chemical properties. MOFs are generally prepared as bulk form through traditional hydrothermal or solvothermal synthesis. [28][29][30][31] In order to expand the application range, suitable pathways for the structuring of MOF powders into a functional architecture or devices are highly desirable.Currently, intensive efforts are focusing on the structuring of MOFs at the mesoscopic/macroscopic scale for the use as coatings, membranes, or sophisticated architectures in specific devices and applications. [32][33][34][35] A major difference in the structuring of MOFs into complex shapes compared to inorganic microporous materials, such as zeolites or silica, is the fact that most inorganic binders cannot be used for MOFs as these binders usually require heat treatment. The intrinsic fragility of MOFs needs to be considered which is related to the inorganic/organic hybrid character of this class of materials and the resulting limited thermal and mechanical stability. Alternatively, a more effective way to structure MOFs is the combination with polymer materials. The polymer which acts as a binder improves the mechanical flexibility and ensures chemical stability. Numerous methods have been developed for structuring MOF-polymer compositions including hard or soft templates, spin-or dip-coating, spray-drying, printing, or lithography approaches. [36][37][38] The integration of MOFs into a polymer matrix can result in poor MOF-polymer dispersion and compatibility issues owing to the different physical and chemical properties for the two kinds of materials and this is a challenge in some applications, e.g., in MOF-based mixed matrix membranes for gas separation. [39][40][41][42] The poor interfacial compatibility would lead to agglomeration of MOF particles, causing the formation of nonselective voids between the MOFs particles and the polymer.Electrospinning is a fabrication method to produce continuous ultrafine fibers with diameters in the range of a few tens of nanometers to a few micrometers in the form of nonwoven mats, yarns, etc. The mechanism of electrospinning is based Herein, recent developments of metal-organic frameworks (MOFs) structured into nanofibers by electrospinning are summarized, including the fabrication, post-treatment via pyrolysis, properties, and use of the resulting MOF nanofiber architectures. The fabrication and post-treatment of the MOF nanofiber architectures are described systematically by two routes: i) the dire...

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“…Reports have also shown that attachment of multiple, hydroxyl, carboxylic acid, and glycolic oxide on C 60 instigates photodynamic cycotoxicitly against pathogenic microorganisms including multi-antibiotic-resistant bacteria (Yamakoshi et al, 2003;Thota et al, 2012). The biocidal activity of C 60 is been mostly attributed to it's ability to generated reactive oxygen species (ROS) such as singlet oxygen and superoxide through photosensitization when it interacts with organic solvents (Das et al, 2017;Arbogast, Foote, & Kao, 1992;Barkry et al, 2007).…”

Section: A Antioxidant/biophamaleuticalsmentioning

confidence: 99%

Fullerenes: Synthesis and Applications

Nimibofa¹,

Newton²,

Cyprain³

et al. 2018

JMSR

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Fullerenes were initially found to be inert, but their unique cage structure and solubility in organic solvents opened up their susceptibility to functionalization via addition and redox reactions. Endohedral and exohedral derivatives of Buckminster fullerene [C 60 ] have created a niche in the application of carbon nanomaterials in the medical, electronics, energy and water treatment/conservation sectors.

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Recent advances in nanomaterials for water protection and monitoring

Cited by 453 publications

References 730 publications

Facile and Direct Preparation of Ultrastable Mesoporous Silica with Silver Nanoclusters: High Surface Area

Facile and Direct Preparation of Ultrastable Mesoporous Silica with Silver Nanoclusters: High Surface Area

Electrospinning of Metal–Organic Frameworks for Energy and Environmental Applications

Fullerenes: Synthesis and Applications

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