Provided are a manufacturing method for an amino-substituted phosphazene compound including reacting a fluorinated phosphazene compound and an amine compound in presence of a compound having a fluorine trapping function; and synthesizing a compound obtained by substituting the amine compound for the fluorinated phosphazene compound, a manufacturing method for an electrolyte solution for a nonaqueous secondary battery using this, and a manufacturing method for a nonaqueous secondary battery.

An object of the present invention is to provide a mixture of cyclophosphazenes suitably substituted with phenoxy having a polymerizable functional group, such as allyl, on the phenyl ring and a production method for the mixture. The invention relates to a mixture of cyclophosphazene compounds that each contain a plurality of constituent units linked to each other, each constituent unit being represented by formula (I):

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wherein R.sup.1 and R.sup.2 are identical or different and represent C.sub.1-4 alkyl or the like, the mixture containing cyclophosphazene compounds in which 3, 4, and 5 constituent units represented by formula (I) are linked, wherein the cyclophosphazene compound containing 3 linked constituent units is cyclophosphazene compound (I-A) with a specific structure, compound (I-A) includes cyclophosphazene compounds (I-A2) and (I-A3) having a specific structure, and compounds (I-A2) and (I-A3) are present in an amount of 80 wt % or more in total in cyclophosphazene compound (I-A).

A method of manufacturing cyclophosphazenes PFPE derivatives to be used in the lubrication of magnetic recording media is herein provided. The method comprises: a) a (per)fluoropolyether (PFPE) polyol [PFPE (P.sub.pol)] comprising a fluoropolyoxyalkylene chain (R.sub.f) having two chain ends, each chain end comprising at least one hydroxy group, and b) the corresponding alkoxide of perfluoropolyether (P.sub.pol) [PFPE (P.sub.alk)] wherein the equivalent concentration of PFPE (P.sub.alk) in PFPE (P.sub.pol) is lower than 30%, preferably ranging from 5% to 15%; 2) contacting mixture (M) with a perhalocyclophosphazene (CP.sub.halo) to provide a mixture (M1) containing an equivalent ratio of PFPE (P.sub.alk)/(CP.sub.halo) of at least 1; 3) allowing mixture (M1) to react until complete disappearance of PCl groups to provide a mixture (M2); 4) submitting mixture (M2) to hydrolysis to provide a mixture (M3); 5) optionally removing (P.sub.pol) from mixture (M3) to provide a mixture (M4). A method of purifying mixture (M4) is also herein provided.

Provided are a manufacturing method for an amino-substituted phosphazene compound including reacting a fluorinated phosphazene compound and an amine compound in presence of a compound having a fluorine trapping function; and synthesizing a compound obtained by substituting the amine compound for the fluorinated phosphazene compound, a manufacturing method for an electrolyte solution for a nonaqueous secondary battery using this, and a manufacturing method for a nonaqueous secondary battery.

Provided is a manufacturing method for an amino-substituted phosphazene compound, including: reacting a fluorinated phosphazene compound and an amine compound in presence of a catalyst consisting of a compound consisting of a specific element M below and an oxygen atom as constituent elements; and obtaining an amino-substituted phosphazene compound by substitution reaction between a fluorine atom of the fluorinated phosphazene compound and an amino group of the amine compound. Specific element M: At least one selected from magnesium, titanium, zirconium, vanadium, lithium, calcium, aluminum, manganese, molybdenum, silicon, or boron.

A layered semiconductor device comprising a patterning coating deposited on an exposed layer surface of an underlying layer in a first portion of a lateral aspect is adapted to impact a propensity of a vapor flux of a deposited material to be condensed thereon, the patterning coating comprising a first and a second material exhibiting a respective first and second at least one material property. The patterning coating exhibits a third at least one material property that is different from at least one of the first and second at least one material property in terms of at least one of: a combination and a value thereof. The third at least one material property differentiates the exposed layer surface of the underlying layer from the exposed layer surface of the patterning coating.