Synthesis and Improvement of Activity of Cobalt Organic Salts as Drier

Organic salts of cobalt were synthesized in the presence of amine, ethanol, and ethyl methyl ketoxime and were used as drier for alkyd resin. Considering the drying time of alkyd resin containing synthesized compound showed that amines, as electron releasing groups (ERG), increased the oxidizing activity of drier and shortened drying time about an hour, whereas ethyl methyl ketoxime delayed the drying of resin 2 hours. Two methods of synthesis, including solution and precipitation processes of synthesis, were compared in terms of convenience, cost, and environmental aspects.


Introduction
Metal alkanoates, metallic soaps, possessing interesting structural, and magnetic and photochemical properties have variety of applications in important areas such as material science, catalysis, and paint industries [1].Among them, metal 2-ethyl hexanoates and their analogues are also used as fungicide, lubricating agents, plastic stabilizers, waterproof agents, and fuel additives [2].As a catalyst, they are used in Ziegler nickel catalyst [3], stereoselective Diels-Alder reactions [4], and especially for oxidation and oligomerization of unsaturated chain of alkyd resin in paint industries [5].
Driers are a group of metallic soaps or salts containing either alkaline-earth metals or heavy metals.Common organic acids used are linolenic acid, rosin acids, tall fatty acid, naphthenic acid, and 2-ethyl hexanoic acid (2-EHA) [6].Driers are added to air-drying coating systems to catalyze the oxidative cross-linking reactions [7].Most of drier metals are in the oxidation state of +2 and usually dissolved in hydrocarbon solvents such as mineral spirit (clear liquid including a mixture of typically >65% C10 or higher of aliphatic and aromatic hydrocarbons) or aliphatic solvents.
Driers are oen divided into two categories: primary and secondary driers.Primary (catalytic, surface, or oxidative) driers promote rapid surface drying [7].Cobalt, manganese, vanadium, cerium, and iron-based catalysts belong to this group.Several physical and chemical experiments have been done to understand the nature of paint �lms during drying process [8].Generally, evaporation of volatile materials, absorption of oxygen from the air, and formation of larger molecules from smaller ones take place to form dried �lm of paint [9].Driers promote oxygen uptake, peroxide formation, and decomposition at ambient temperature.Free radicals produced in the process lead to the formation of polymerpolymer cross-links.
Drier accelerators such as 2,2-bipyridine (bpy) and 1,10-phenantroline are also extensively used.ey function as chelating agents to form complexes with the primary driers.ey apparently increase the activity of the metal towards decomposing peroxides [7].Other chelating agents such as 2-aminomethylpyridine (amp) and 2hydroxymethylpyridine (hmp) were recently reported in combination with manganese-based catalysts [10].
Cobalt-based driers are oen used in combination with other metals such as zirconium and calcium to obtain uniform drying.Bismuth soaps combined with cobalt driers were found to shorten the drying time of alkyd paints particularly under adverse conditions such as low temperature and high humidity [11].It has also been reported that combination of aluminium compounds with cobalt driers leads to a signi�cant increase in the hardness of the alkyd paint �lms [12].Risk analysis studies showed that inhalation exposure to cobalt in humans has been reported to result in cough, dyspnea, decreased pulmonary function, weight loss, diffuse nodular �brosis, and respiratory hypersensitivity.Contact with cobalt in humans has resulted in dermatitis, with eruptions of the erythematous papular type on the ankles, elbows, and neck [13].Chronic exposure to cobalt by inhalation in humans results in effects on the respiratory system, such as respiratory irritation, wheezing, asthma, pneumonia, and �brosis.Other effects include cardiac effects, such as functional effects on the ventricles and enlargement of the heart; congestion of the liver, kidneys, and conjunctiva; and immunological effects that include cobalt sensitization, which can precipitate an asthmatic attack in sensitized individuals [14].
However the increase in environmental regulations makes the knowledge of cobalt drier chemistry of the utmost importance.Replacement of the toxic cobalt salts as driers in alkyd paint still poses a challenge [15].Although exclusion of cobalt drier is an ultimate favourite method to eliminate its environmental risks in resin and paint industries, reduction of its consumption may be an alternate to diminish resulting hazards.In this paper we try to use some electron donating ligands to improve the drying activity of cobalt octoate, and consequently decrease dosage of cobalt drier in alkyd resins and paints.

Experimental
Long oil alkyd (60% in mineral spirit) was used as blank resin.Aniline, ethanolamine, ethyl amine, ethyl methyl ketoxime, cobalt sulfate, and cobalt hydroxide were purchased from �uka and were used without further puri�cation.

General Procedure for Synthesis of Cobalt Octoate (3) (Solution Method).
A mixture of Co(OH) 2 (1) (93 g, 1 mol) and 2-EHA (2) (288 g, 2 mol) in mineral spirit (1 L) was stirred magnetically and heated up to 150-160 ∘ C to separate the produced H 2 O (33.1 mL, 92%) by Dean-Stark apparatus.Aer departure of the H 2 O as by-product, the mixture was heated for an hour and the drier obtained as a deep violet solution.e metal content of drier was adjusted to 10% by adding adequate mineral spirit.

Technique to Evaluate Drier Activity.
Conventional methods used to determine drying time of oil or paint �lm oen involved a drying time recorder [16].Other methods for determining the activity of driers are included; for example, the measurement of viscosity change and sample weight increase over time [17] or more modern techniques such as 13 C NMR [18], GC [9], HPLC [19], FTIR [20], and MS [21] have been used to study the effects of drier on the paint �lm.However, in this project �nger touch method was employed for drying time study [22].
To have a blank sample, 1 kg of alkyd resin (60%) was mixed with calcium drier (5 g, 5% metal) and lead drier (5 g, 32% metal).Synthesized cobalt drier (3 or 6) (0.5 gr) was added to 100 g of prepared blank and stirred thoroughly to get homogeneous liquid.en a layer of resin (100 micron) was applied on the glass and the touch drying time of resin was measured according to ISO 9117-6 procedure.e results of touch drying time were summarized in Table 1.

Results and Discussions
ere are several methods for synthesis of metal alkanoates including metathesis reactions [23][24][25], ligand exchange reactions [7], and anodic dissolution of metal in alkanoic acid.In this project the reaction of CoSO 4 (1) with 2-EHA (2) in the presence of NaOH solution led to synthesis of cobalt octoate (3) (Scheme 1).
Comparison of drier production methods showed that solvent process was time consuming.In solution method, water was removed continuously using Dean-Stark, which could be used as an easy procedure for monitoring of the reaction progress.In solvent process, the product was homogeneous.Because of the lack of interfering by-product, there was no problem in production of insoluble salt.
In spite of difficulties of precipitation method such as �ltration and elution, it bene�ted from some advantages.Solid content of drier was 100%, which not only made the transportation easier and safer, but also provided the ability to produce driers with high metal content.
To investigate effects of organic ligands on the reactivity of cobalt drier, some ligands (L-H, 5) were added to cobalt octoate (3) solution and re�uxed at 150-160 ∘ C for 2 hrs (Scheme 3).
Resulted modi�ed driers (6) were added to alkyd resin, the drying time was measured according to �nger touch method and results and some explanations were summarized in Table 1.Comparison of behaviour and activity of ligands showed that amines, good electron donors, helped Co (II) to increase the rate of oxidation in unsaturated chains of alkyd resin.Aliphatic amine (5a) was more efficient than aromatic ones.Amine 3 ∘ was not suitable for this purpose because positive charge on nitrogen appeared as a result of attack of amine to cobalt (Scheme 4(a)).
Alcohols and amino alcohol were not efficient for this purpose either, because oxygen is more electronegative than nitrogen, so it does not have much nucleophilicity (Scheme 4(b)).
It seemed that Co (II) formed an unstable complex with oxime [26] and had not adequate tendency to react with polymer and delayed drying time (Scheme 4(c)).
Although various spectroscopic methods such as X-ray, crystallography, 1 H, 13 C NMR, EPR, and UV-Vis spectra have been employed for identi�cation and characterization of metal alkanoates, in this study, added ligands (5) changed the color of drier.So, UV-Vis spectrum was used to measure  max of drier (Table 1) [27].Cobalt octoate had  max = 625 nm and appropriate absorption ( = 3 mol −1 cm −1 ) in the visible region due to 4 T 1 g (F) to 4 T 2 g (F) transitions.e deep color of cobalt drier made it unsuitable for white paints.e visible spectrum of driers possessing oxime showed that the  max had shied to shorter wave length (618 nm) and molar absorption coefficient had reduced ( = 21 mol −1 cm −1 ) in the visible region.e visible spectra patterns of the driers except aniline were the same as the blank drier and showed that unpaired electrons of nitrogen participated in resonance with the ring instead of coordinating to cobalt.Visible spectrum of the drier including ethyl amine or ethanol amine showed that coordination of amine to Co (II) made  max shied to 690 and 688 nm, respectively, and caused an increase in the oxidizing ability of Co (II).

Conclusions
Comparison of drier production methods showed that selection of method depends on the raw materials, transportation, desire metal content of drier, and tendency to have a facility for production monitoring.anks to good electron releasing power of amines, they were the best choice for increasing the efficiency of driers.
Although modi�cation of cobalt drier reduced the amount of cobalt consumption and consequently could help environmental protection, many efforts are essential to use environmentally friendly driers instead of cobalt drier.

S 4 :
Effect of ligands on activity of Co 2+ .

T 1 :
Comparison of the effect of ligand on the activity of cobalt drier (3),  max and  of 6.