benign by design: development and ... - answer-itn€¦ · chelation may also accelerate the...
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Benign by design: Development and
applications of new Fenton-like catalysts
Raffaele Cucciniello [email protected]
Post-Doc Researcher
University of Salerno, ITALY
Dep. Chemistry and Biology
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Environmental Chemistry and Complex System Research group directed by Prof. Antonio Proto
The research group is active in the field of environmental chemistry. The main focus is the
design and development of sustainable process for green-chemicals production and pollutants
removal through catalysis, following the twelve principles of Green Chemistry.
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Advanced oxidation processes (AOP): Fenton process
The history of Fenton chemistry dates to 1894, when Henry J. Fenton reported that H2O2
could be activated by Fe(II) salts to oxidize tartaric acid (Fenton, 1894).
About 1000 papers in 2016! (Scopus 3/9/2017)
In 1934 Haber and Weiss proposed that the active
oxidant generated by the Fenton reaction is the
hydroxyl radical (HO· ), one of the most
powerful oxidants known (E ◦ = 2.73 V).
The Fenton and related reactions are viewed as
potentially convenient and economical ways to
generate oxidizing species for treating chemical
wastes.
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Fenton process: an overview
J. J. Pignatello et al., Critical Reviews in Environmental Science and Technology (2006) 36:1, 1-84
H2O2 and Fe(II) salts are both environmental friendly compounds.
Oxidant for degrading the target pollutant
The neat reaction is the iron catalyzed conversion of H2O2
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The hydroxyl radical may be generated stoichiometrically simply by combining an Fe(II) salt with H2O2.
This produces stoichiometric amount of Fe(III) which later precipitates to amorphous ferric
oxyhydroxides as the pH is increased from strongly acidic to neutral.
Generation of HO· is catalytic in iron, which can therefore be used in relatively low concentration.
Peroxide-to-iron molar ratios employed in water treatment typically lie in the range 100 to 1000.
The use of iron catalytically helps to minimize scavenging of HO· by Fe(II) and also minimizes ferric oxyhydroxides production.
Mechanicistic aspects
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Organic molecules degradation
In the presence of air, radicals may react with O2 to give HO·2 (O2 ·−),
peroxyl radicals R–OO·, or oxyl radicals R–O·
Stable molecules
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Fenton and Fenton like catalysts
Generally, Fenton catalyst consists of Fe(II) salts (mainly FeSO4).
How to improve the catalyst activity? Use of ligands 1. Chelation extends the pH range over which iron is
soluble because the chelating ligand competes
favorably with hydroxide ion for coordination, and
chelated complexes typically are soluble.
2. Chelation may also accelerate the production of
OH radicals but may scavenge it.
Acc. Chem. Res. (2002) 35, 782-790
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NTA = Nitriloacetic acid
Recently published applications of iron complexes for Fenton process
EDDS = ethylendiamine-N,N’-disuccinic acid
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Iron free Fenton like catalytic systems
J. Hazardous Materials (2014) 275, 121-135.
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Application of the Fenton reactions
Limitations of Fenton-based AOPs for wastewater treatment stem mainly from the need for
pH control and the problem of sludge generation.
Dye wastes
Pulp bleaching wastes
Agricultural effluents
Landfill leachates
Surfactants
Industrial wastewater
Water treatment
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New research perspecitives: Development of
Bio-degradable ligands
11
n
(PASP)
(IDS)
(EDDS) -Kołodynska et al, Expanding Issues in Desalination, (2011) 17, 339-370.
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1. Inherent rather than circumstantial;
2. Prevention instead treatment ;
3. Design for separation - Minimize energy
consumption and material use during separation
and purification procedures;
4. Maximize efficiency - Design products, processes
and systems in order to maximize mass, energy,
space and time efficiency,
5. Out-put versus Input-pushed;
6. Conserve complexity;
7. Durability rather than immortality;
8. Meet need, minimize excess;
9. Minimize material diversity;
10. Integrate material and energy flow ;
11. Design for commercial “afterlife” ;
12. Renewable rather than depleting.
1. Waste prevention and reduction;
2. Atom economy;
3. Generate substances with little or no toxicity to
human health;
4. Chemical products should be designed reducing
toxicity;
5. Use of auxuliary should be made unnecessary;
6. Energy requirements should be minimized;
7. Use renewables raw-materials as feedstocks;
8. Avoid unnecessary derivatization;
9. Use catalytic reagents instead stoichiometric;
10 . Less persistence in the environmental ;
11. Avoid the formation of hazardous substance;
12. Minimize chemical accidents (e.g. explosions).
P.T. Anastas, J. B. Zimmerman, Env. Sci. Tech., 2003, 37, 94-101. P. T. Anastas, J. C. Warner, Green Chemistry: Theory and Practice, Oxford, 1998
Green Chemistry Green Engineering
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13
1. NaOH 2. NH3, ∆
Baypure CX 100 Tetrasodium
Iminodisuccinate (Purity of 65%)
-Bayer, Baypure General product information
IDS industrial preparation, developd by BASF
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14
Reaction mechanism: what happen?
Process intensification…
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IDS isomers biodegradability
15
-Hyvönen, Green Chemistry, (2003) 5, 410-414
-Kołodynska et all, Expanding Issues in Desalination, (2011)
17, 339-370.
-Schowanek et all, Chemosphere, (1997) 34, N° 11, 2375-
2391
All the IDS isomers are fully biodegradable!
(EDDS)
[S,S] ≥ 90% [R,R] 0% Mix ≤ 35%
EDDS isomers show very different biodegradability
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IDS stability and biodegradability
16
0
20
40
60
80
100
1,5 4,0 7,0 11,0 13,5
Stab
ility
(%
)
pH
Stability of iminodisuccinic acid sodium salt (11% by wt.) in water solution at 100°C
Tempo: 5h
Tempo: 20h
0
20
40
60
80
100
0 5 10 15 20 25 30
Bio
deg
rad
atio
n (
%)
Time (days)
Biodegradation of Baypure® CX100
Test design OECD 302 B as a …
-Bayer, Baypure General product information -Cokesa et all, Biodegradation (2004) 15, 229-239
IDS is fully converted in NH3 and fumaric acid.
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17
13C-NMR characterization of the reaction products
Spectra are acquired using an NMR instrument 400 MHz, samples are prepared in D2O
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UV-VIS spectrophotometry analysis
18 -
-Hyvönen, Green Chemistry, (2003) 5, 410-414
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Cu-IDS complex purification
19
1. Cu (II) Cu-IDS complex 2. Chromatographic
separation
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20
Experimental conditions:
[Cu-IDS] = 6.2 mM
1.5<pH<8
T= 20°C
Experimental conditions:
[Cu-IDS] = 6.2 mM
pH=7
20°C<T<85°C
pH and T influences on Cu-IDS complex stability
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Conclusions and future perspectives
• A new Cu-based catalyst has been synthesized and tested in AOPs
• Cu-IDS catalyst shows an activity higher than classic Fenton catalysts (based on iron)
• New bio-degradable ligands for Fenton-based processes
• Design of Fe-based biodegradable catalysts
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“We have no desire to do Green Chemistry. We desire to do the best Chemistry, and it happens to be green.” P. T. Anastas, The father of Green Chemistry
Invited to held a plenary lecture at XXVI Congress of the Italian Chemical Society
14th September 2017 Hotel Ariston (Paestum, Salerno)
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Acknowledgements
Department of Chemistry and Biology - UNISA Environmental Chemistry and Complex System Group
Prof. Antonio Proto
Dr. Prisco Prete
Department of Civil Engineering – UNISA
Prof. Luigi Rizzo
Dr. Antonino Fiorentino
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