Patent Application: US-200913123694-A

Abstract:
the present invention provides a method to effectively inhibit the oxidization of vo 2 in solution for months . it is believed that vo 2 forms a π - complex with as many as three allylic alcohols which precludes reaction with any oxygen in the system . although saturated and homo - allylic alcohols were also tested , this effect appears only in the allylic - alcohol based solutions . this ability to inhibit oxidation of vo 2 allows these solutions to be used for making thermochromic vo 2 film much more easily and economically as it avoids the requirement of operating under low oxygen level conditions . thus the present invention provides a method of stabilizing vanadium oxyacetylacetonate 2 ) in solution against oxidation for extended periods of time , comprising the steps of mixing the oxyacetylacetonate precursor in an allylic alcohol prior to spin - coating for vo 2 film formation . the allylic alcohol may be ( β - methallyl alcohol . alternatively , the allylic alcohol may be any one of 4 - buten - 2 - ol , 2 - buten - 1 - ol , 1 - penten - 3 - ol , 2 - hexen - 1 - ol and 1 - hexen - 3 - ol .

Description:
generally speaking , the embodiments described herein are directed to a method to inhibit the oxidization of vo ( acac ) 2 in solution for extended periods of time . as required , embodiments of the present invention are disclosed herein . however , the disclosed embodiments are merely exemplary , and it should be understood that the invention may be embodied in many various and alternative forms . the figures are not to scale and some features may be exaggerated or minimized to show details of particular elements while related elements may have been eliminated to prevent obscuring novel aspects . therefore , specific structural and functional details disclosed herein are not to be interpreted as limiting but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention . for purposes of teaching and not limitation , a method to inhibit the oxidization of vo ( acac ) 2 in solution for extended periods of time is disclosed herein . as used herein , the terms “ about ”, and “ approximately ” when used in conjunction with ranges of concentrations , temperatures or other physical or chemical properties or characteristics is meant to cover slight variations that may exist in the upper and lower limits of the ranges of properties / characteristics . the vo ( acac ) 2 molecule has c 2v geometry . spectroscopic studies have shown that the vanadium atom is chemically accessible at the sixth position leading to the formation of adducts with different solvent molecules . the resultant octahedral complex is easily oxidized by atmospheric oxygen to vanadium ( v ) species in many solvents such as water and alcohols via a previously disclosed mechanism ( see references 9 and 10 ). given the important role that solvation adducts play in the oxidation of vo ( acac ) 2 , the inventors studied different solvents that could bind to vo ( acac ) 2 while at the same time inhibiting the oxidation of v ( iv ) to v ( v ). one very promising candidate in this regard are allylic alcohols which have c ═ c and — oh functional groups at α , β position respectively . the alcohols used during these experiments and listed in table 1 can be categorized into three groups : saturated alcohols , allylic alcohols and homo - allylic alcohols . each was commercially available with chemical reagent purity , and used as received . vo ( acac ) 2 was dissolved in each solvent to form 0 . 05 mol / l solutions . the oxidization of vo ( acac ) 2 leads to a distinct solution color change . absorption spectra of the precursor solutions between 400 nm and 900 nm were recorded using a cary 50 spectrometer having a wavelength resolution of 1 nm , and using methanol as a reference . powder x - ray diffraction ( xrd ) data were collected using a rigaku ru - 200bvh rotating anode diffractometer employing a co kα source ( λ = 1 . 7892 å ). in fig1 trace a is a visible - near infrared ( ir ) spectrum of a freshly prepared vo ( acac ) 2 methanol solution . the well - known energy level scheme for v ( iv ) o 2 + complexes ( see references 11 , 12 , 13 and 14 ) reproduced in fig2 allow the main features to be readily assigned . specific d - d transitions involving the single v 3d electron come at ˜ 780 nm ( d xy , d yz , d x 2 − t 2 ← d xy ) and ˜ 570 nm ( d z 2 ← d xy ). each newly - prepared solution is blue - colored but these maxima shift slightly in different solvents due to the adduct formation . there are also intense charge - transfer absorption bands , due primarily to electron transfer from orbitals located primarily on the vanadyl oxygen to orbitals primarily located on v , in the near uv (& lt ; 500 nm ) ( see references 11 and 13 ) which were not recorded to allow the longer wavelength visible - near ir features to be shown on scale . the color of vo ( acac ) 2 / methanol solution standing in air was found to gradually change from blue to green to yellow and finally to orange over several days which is attributed to the oxidation of v ( iv ) to v ( v ). in fig1 ( traces a - c ) clearly shows these changes spectroscopically . the d - d transition bands at 780 nm and 570 nm decrease in intensity while the strong first charge transition band persists , although a distinct red shift is observed over time . the disappearance of the d - d bands indicates that oxidation process involves the lone 3d electron on vanadium . the red shift in the charge transfer band over time is expected because the repulsion experienced by the ligand electron with the half - filled 3d orbital on the v is removed by the oxidation step ( see reference 13 ). the solution turned orange immediately if it was initially saturated with o 2 gas ( fig1 trace d ) which confirms that o 2 from the atmosphere is the oxidant involved . this spectrum strongly resembles that obtained for a v ( v ) o ( i - opr ) 3 / methanol solution ( fig1 trace e ). similar spectra were recorded using other saturated alcohols such as ethanol and i - propanol , which strongly suggests that this class of alcohol cannot inhibit the oxidation of vo ( acac ) 2 . allylic alcohols were then examined . β - methallyl alcohol ( bma , 2 - methyl - 2 - propen - 1 - ol ) is described here as a typical example . similar results were found for the other allylic alcohols listed in table 1 . a vo ( acac ) 2 / bma solution was found to retain its original blue color for months . fig3 shows its absorption spectrum at different time . not surprisingly , the absorption spectrum of a freshly made solution resembles that obtained for a freshly made vo ( acac ) 2 / methanol solution . the spectra in fig3 confirm that the d - d transitions persist over time although the long wavelength band was found to continuously shift to the blue while the near - uv first charge transfer band exhibited no change in wavelength . in addition , the intensity of the peak centered at 780 nm ( d xy , d yz , d x 2 − t 2 ← d xy ) decreased while the peak centered at 570 nm ( d z 2 ← d xy ) increased . after 6 months , the peaks became overlapped and solution exhibited a darker blue color . there also appears to be an isosbetic point near 700 nm that suggests that over time a second species forms most likely by an additional ligand exchange . however , the vanadium center does not become oxidized . the similarity of the vo ( acac ) 2 / methanol and vo ( acac ) 2 / bma solutions suggests that ligation of a solvent molecule at the open position of the vo ( acac ) 2 molecule does not have profound effect on the energy levels . the vo ( acca ) 2 is readily oxidized in methanol presumably because an o 2 molecule can displace the alcohol from the coordination sphere . the fact that the vanadium complex is resistant to oxidation by o 2 in allylic alcohols indicates that not only is the oxygen of the hydroxyl moiety involved in coordination to the central vanadium atom , but also the π - system of the β - unsaturated bond . one possible structure is of the form : without being bound by any theory or theorem , it is believed that the unsaturated double bond of an allylic alcohol can function as electron donor in the pd ( ii )/ alyllic alcohol system . inhibition of oxidation was not found for the homo - allylic alcohols , which may be due to additional methylene group in these compounds which makes it sterically difficult for the alcohol to act in a bidentate fashion . stabilized solutions of the allylic alcohol were obtained with concentrations of vanadium oxyacetylacetonate ( vo ( acac ) 2 ) in the allylic alcohol spanning a range over which the vanadium oxyacetylacetonate is soluble in the allylic alcohol . thin films of vo 2 made from vo ( acac ) 2 methanol and bma solutions ( 3 days aged ) were obtained by spin casting onto and baking at 600 ° c . under an ar environment . the xrd profiles ( fig4 ) clearly reveal the differences in chemical identities of the species in the film : oxidized species such as v 2 o 5 and v 3 o 7 are present in films prepared from methanol - based precursor solutions , while mainly the vo 2 phase is formed when using bma solutions . these results confirm that the allylic alcohol prevents vo ( acac ) 2 from being oxidized . in an exemplary , non - limiting example , the process of spin coating was used to fabricate thin films of vo 2 from the precursor solutions described in this work . a typical spin coating process comprises four steps : dispensing , accelerating , spin coating and drying . in general , a small drop of the precursor solution is deposited on or near the center of a substrate while a supporting stage is rotated at a low angular speed of ˜ 500 rpm . this spreads the fluid evenly over the substrate . the substrate is then spun at a much higher rotation speed ( 1000 - 4000 rpm ). finally , the coated sample is placed into a convection oven maintained at ˜ 100 ° c . to evaporate any remaining solvent . this effectively solidifies the coating in place . the vo 2 films were formed by heating the sample between 500 - 650 ° c . under 10 torr partial pressure of oxygen . using lower pressures and longer heating times yielded vo 2 films with better crystallinity . the film thickness and other properties depend on the nature of the gel ( viscosity , concentration , surface tension , etc .) and the parameters chosen for spin coating and processing . the solution concentration , spinning speed and time need to be adjusted to obtain different film thicknesses . overall , the spin coating procedure is simple and repeatable . it will be appreciated that any liquid based film deposition technique may be used to deposit thermochromic vo 2 films using the stabilized vanadium oxyacetylacetonate ( vo ( acac ) 2 ) solutions disclosed herein . non - limiting examples include spin coating , screen printing , evaporation and spraying to mention just a few . in summary , the method disclosed herein provides a very economical and simple effective method for effectively inhibiting the oxidization of vo ( acac ) 2 in solution for extended periods of time . the choice of solvent for the sol - gel synthesis of vo 2 thin films has a profound effect on the oxidation of vo ( acac ) 2 precursor in solution . specifically , unlike solutions made with saturated and homo - allylic alcohols which oxidize within days , allylic alcohols effectively inhibit the oxidation of vo ( acac ) 2 for as long as six months . it is postulated that allylic alcohols are effective bidentate ligands which are not readily displaced by o 2 in solution thereby protecting the v ( iv ) metal center . this discovery will relax the chemical imperative to form vo 2 immediately after making up a precursor solution for a sol - gel synthesis . the method and results disclosed herein permits vo 2 thin films to be made easily and reproducibly , and the quality of the vo 2 thin films formed is excellent . since this material exhibits a low - temperature semiconductor - to - metal phase transition it will be appreciated that many devices based on vo 2 can now be more easily realized . it will be appreciated that while the above description has disclosed making pure vo 2 thin films to be made easily and reproducibly , it will be appreciated that doped vo 2 thin films can also be made with the purpose of the doping being to vary or tune the semiconductor - to - metal phase transition temperature . various dopants that can be used include al 3 + ( chen et al . solar energy materials and solar cells , 93 , 1550 ( 2009 )), w 6 + ( r . binions et al , surface coatings and technologies 201 , 9368 ( 2007 )), mo 6 + ( x . shi - qeng et al , chinese phys . lett . 20 , 148 ( 2003 )), and nb 5 + ( c . piccirillo et al , eur . j . inorg . chem . 25 , 4050 ( 2007 )), among others . previous work has shown that low - valent cations ( such as al 3 + and cr 3 + ) tend to raise the semiconductor - to - metal phase transition while high - valent cations ( nb 6 + , w 6 + , and mo 6 + ) have the opposite effect . this rule of thumb however is highly dependent on the concentration of cations . for example , adding 10 % al 3 + by content has been found to drop the phase transition down to 40 ° c . the thermochromic vo 2 films may be deposited on many types of substrate including crystalline solids , polymers and amorphous solids . the crystalline solids may be semiconductors , semimetals or metals . the substrate may be glass , silicon , quartz , and sapphire , polymers , and their chemically modified analogs . for example , the substrate may be a polyimide polymer with a high glass transition temperature . it will be understood the present invention is not restricted to using these substrates , they are meant to be non - limiting examples . the thermochromic vo 2 film may be coupled to means for inducing a semi - conductor to metal transition in the thermochromic vo 2 film . for example , the means for inducing a semi - conductor to metal transition in the thermochromic vo 2 film includes any one or combination of a temperature controller coupled to heater elements coupled to said substrate or said thermochromic vo 2 film , a voltage controller electrically coupled to said thermochromic vo 2 film for resistive heating of the thermochromic vo 2 film or resistive heating of a resistive heater film on the substrate , and a laser source for irradiating the thermochromic vo 2 film for radiative heating of the thermochromic vo 2 . as used herein , the terms “ comprises ”, “ comprising ”, “ includes ” and “ including ” are to be construed as being inclusive and open ended , and not exclusive . specifically , when used in this specification including claims , the terms “ comprises ”, “ comprising ”, “ includes ” and “ including ” and variations thereof mean the specified features , steps or components are included . these terms are not to be interpreted to exclude the presence of other features , steps or components . the foregoing description of the preferred embodiments of the invention has been presented to illustrate the principles of the invention and not to limit the invention to the particular embodiment illustrated . it is intended that the scope of the invention be defined by all of the embodiments encompassed within the following claims and their equivalents . 1 . morin , f . j ., oxides which show a metal - to - insulator transition at the neel temperature . phys . rev . lett . 1959 , 3 , 34 . 2 . tuchkevich , v . m . ; frenkel , v . y ., semiconductor physics . consultants bureau , new york , 1986 3 . biermann , s . ; poteryaev , a . ; lichtenstein , a . i . ; georges , a ., dynamical singlets and correlation - assisted peierls transition in vo 2 . phys . rev . lett . 2005 , 94 , 026404 - 026404 . 4 . manning , t . d . ; parkin , i . p . ; clark , r . j . h . ; sheel , d . ; pemble , m . e . ; vernadou , d ., intelligent window coatings : atmospheric pressure chemical vapour deposition of vanadium oxides . j . mater . chem . 2002 , 12 , 2936 - 2939 5 . lu , s . ; hou , l . ; gan , f ., surface analysis and phase transition of gel - derived vo 2 thin films . thin solid films 1999 , 353 , 40 - 44 6 . gurvitch , m . ; luryi , s . ; polyakov , a . ; shabalov , a . ; dudley , m . ; wang , g . ; ge , s . ; yakovlev , v ., vo 2 films with strong semiconductor to metal phase transition prepared by the precursor oxidation process . j . appl . phys . 2007 , 102 , 033504 - 033513 7 . yuan , n . ; li , j . ; lin , c ., valence reduction process from sol - gel v 2 o 5 to vo 2 thin films . appl . surf . sci . 2002 , 191 , 176 - 180 . 8 . pan , m . ; zhong , h . ; wang , s . ; liu , j . ; li , z . ; chen , x . ; lu , w ., properties of vo 2 thin film prepared with precursor vo ( acac ) 2 . j . cryst . growth 2004 , 265 , 121 - 126 . 9 . grybo , r . ; samotus , a . ; popova , n . ; bogolitsyn , k ., kinetics of oxidation of vanadyl acetylacetonate by oxygen in methanolic solution . transition met . chem . 1997 , 22 , 61 - 64 . 10 . datsko , o . r . ; belousov , v . m . ; fedevich , e . v ., liquid phase oxidation of allyl alcohol by air oxygen in acetic acid medium . react . kinet . catal . lett . 1982 , 19 , 255 - 258 11 . ballhausen , c . j . ; gray , h . b ., the electronic structure of the vanadyl ion . inorg . chem . 1962 , 1 , 111 - 122 . 12 . selbin , j . ; holmes , l . h . ; mcglynn , s . p ., electronic structure , spectra and magnetic properties of oxycations — iv ligation effects on the infra - 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