Intrazeolite Organometallics - ACS Publications - American Chemical

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15 Intrazeolite Organometallics Chemical and Spectroscopic Probes of Internal Versus External Confinement of Metal Guests

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Geoffrey A. Ozin and John Godber Lash Miller Chemical Laboratories, University of Toronto, Toronto, ON M5S 1A1 Canada The process of loading zeolites with organometallic complexes always brings to the forefront the question of internal versus external confinement of the metal guest. In this paper we present some experiments based on size exclusion, metal loading and intrazeolite chemistry which in conjunction with FT-FAR-IR, EPR and UV-visible reflectance spectroscopy, critically probe the question of internal versus external location for the case of five representative organometallics, (η -C H ) V, (η -C H )2Cr, (η -C H ) Fe, (C H CH ) Co, and Co (CO) . 6

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I t i s now w i d e l y a c c e p t e d t h a t c e r t a i n o r g a n o m e t a l l i c s can be an­ chored t o t h e s u r f a c e s of s u p p o r t s such a s , o x i d e s , c a r b o n s , p o l y ­ mers ( 1 ) . However*the placement of m e t a l g u e s t s i n t o the i n t e r n a l v o i d s of z e o l i t e h o s t s u s i n g o r g a n o m e t a l l i c p r e c u r s o r s , i s by com­ p a r i s o n a r a t h e r new f i e l d of i n v e s t i g a t i o n ( 2 - 4 ) . These i n t r a z e o l i t i c g u e s t s may be the o r i g i n a l o r g a n o m e t a l l i c i t s e l f , or some ag­ g l o m e r a t e d and/or o x i d i z e d form, the l a t t e r b e i n g c o n t i n g e n t upon the c h o i c e of z e o l i t e and p r e - and p o s t - t r e a t m e n t c o n d i t i o n s . What­ ever the c h e m i c a l f a t e of the m e t a l , an i n t i m a t e knowledge of the p h y s i c a l l o c a t i o n , geometry, d i s t o r t i o n s and s u p p o r t - i n t e r a c t i o n s of the m e t a l guest i n the z e o l i t e i s a p r e r e q u i s i t e of any subsequent a p p l i c a t i o n of the m e t a l - z e o l i t e c o m p o s i t i o n . In the one-to-one replacement of i n t r a z e o l i t e m e t a l c a t i o n s by ion-exchange l o a d i n g p r o c e d u r e s , the d i s t r i b u t i o n of c a t i o n i c g u e s t s a t i n t e r n a l l a t t i c e s i t e s i s w e l l e s t a b l i s h e d (_5) . However, the i n t r u s i o n of uncharged, o r g a n o m e t a l l i c m o l e c u l e s to the i n t e r n a l l a t t i c e of a z e o l i t e i s not so c l e a r c u t and s p e c i a l p r o c e d u r e s a r e r e q u i r e d to probe the phenomenom. An e l e g a n t r e c e n t example of t h i s i s Schwartz's R h ( n - C H ) / HY system, i n which the p r e s e n c e of supercage Z O - R h ( n - C H ) H s p e c i e s was demonstrated by s i z e s e l e c t i v e o l e f i n hydrogénation and phosphine poisoning experiments; o n l y those o l e f i n s t h a t were s m a l l enough t o pass through the 8A twelve r i n g window and e n t e r the supercage were h y d r o g e n a t e d (6,_7) ; moreover, o n l y those phosphines t h a t were s t e r i c a l l y a c c e s s i b l e to the supercage were a b l e to p o i s o n the a c t i v e 3

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In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

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rhodium s i t e (j6,_7) . Some o t h e r approaches which a r e e q u a l l y as e f ­ f e c t i v e f o r e s t a b l i s h i n g t h e outcome o f a z e o l i t i c organometallic i m p r e g n a t i o n a r e d e s c r i b e d i n t h i s paper. A. M e t a l L o a d i n g S t u d i e s :

B i s ( t o l u e n e ) c o b a l t ( 0 ) , ( d e c o m p o s i t i o n temperature -50°C) was s y n t h e ­ s i z e d by d e p o s i t i n g c o b a l t vapour i n t o l i q u i d t o l u e n e h e l d a t around -90°C i n a m e t a l vapour r o t a r y r e a c t o r ( 8 ) . The s o l u t i o n c o n t a i n i n g (C H CH3)2Co was t r a n s f e r r e d a t -80°C to~"a S c h l e n k tube h e l d a t t h e same temperature. E q u a l volume a l i q u o t s o f ( C e H s C H s ^ C o were then t r a n s f e r r e d t o e q u a l w e i g h t s o f d e h y d r a t e d sodium and a c i d forms o f f o u r d i f f e r e n t f a u j a s i t e samples h a v i n g S i / A l r a t i o s o f 1.25, 2.5, 3.8, 6.3 ( a c i d o n l y ) and 18.0 (sodium o n l y ) . F o l l o w i n g a 36 hour i m p r e g n a t i o n , each sample was a n a e r o b i c a l l y f i l t e r e d a t -80°C, washed w i t h -80°C t o l u e n e , brought t o room temperature s l o w l y under a dynamic vacuum, and f l u s h e d w i t h d r y A r u n t i l f r e e o f r e s i d u a l t o l u e n e (GC a n a l y s i s ) . The c o b a l t l o a d i n g o f each sample was d e t e r ­ mined by NAA ( n e u t r o n a c t i v a t i o n a n a l y s i s ) and t h e r e s u l t s a r e d e ­ p i c t e d g r a p h i c a l l y i n F i g u r e 1. The key f e a t u r e s o f t h e s e d a t a a r e t h a t ( i ) t h e Co l o a d i n g o f the sodium f a u j a s i t e NàFAU i s e s s e n t i a l l y i n v a r i a n t t o t h e S i / A l r a t i o , ( i i ) t h e Co l o a d i n g o f t h e a c i d f a u j a s i t e HFAU analogues a r e c o n s i s t e n t l y h i g h e r than t h e i r sodium c o u n t e r p a r t s and m o n o t o n i c a l l y increase with the S i / A l r a t i o . An e x p l a n a t i o n o f these o b s e r v a t i o n s takes t h e f o l l o w i n g çack. The m o l e c u l a r dimensions e s t i m a t e d f o r ( 0 Η 0 Η ) Co, 5.85x7.08A ( 9 ) a r e such t h a t t h e r e i s no s t e r i c b a r r i e r t o passage through t h e 1 2 - r i n g window o f f a u j a s i t e , h a v i n g a k i n e t i c d i a m e t e r o f 8.1 A ( 1 0 ) . The r e s u l t s f o r sodium and a c i d f a u j a s i t e impregnated w i t h (C6HsCH3)2Co a r e f a s c i n a t i n g . Both show t h e p r e s e n c e o f c o b a l t b u t t h e t r e n d s are q u i t e d i s t i n c t . L e t us f i r s t c o n s i d e r t h e sodium forms. Here we know from C nmr, and n e u t r o n d i f f r a c t i o n (11-12) s t u d i e s t h a t a r o m a t i c s r e s i d e o v e r N a s i t e I I c a t i o n s i n t h e supercage (C3V axial interactions) of Y z e o l i t e . We a r e a l s o i n f o r m e d from c r y s t a l ­ l o g r a p h i c and FT-FAR-IR s t u d i e s (13) , t h a t t h e number o f a c c e s s i b l e Na s i t e I I c a t i o n s d i m i n i s h e s a t t h e expense o f i n a c c e s s i b l e N a s i t e I c a t i o n s , as t h e f a u j a s i t e s become more s i l i c i o u s . Concomi­ t a n t l y , t h e b a s i c i t y o f t h e l a t t i c e d e c r e a s e s w h i l e t h e hydrophob i c i t y increases. Thus one c a n argue t h a t d i m i n i s h i n g i n t e r a c t i o n s of t h e N a s i t e I I c a t i o n s w i t h t h e e l e c t r o n d e n s i t y o f t h e t o l u e n e l i g a n d s o f ( C R H S C H S ) 2 C 0 , ( o r d e c r e a s i n g Van d e r Waal i n t e r a c t i o n s w i t h t h e l a t t i c e oxygens) a r e a p p r o x i m a t e l y c o u n t e r b a l a n c e d by t h e i n c r e a s i n g hydrophobicity of the f a u j a s i t e s with i n c r e a s i n g S i / A l r a t i o s ; hence a r a t i o n a l e f o r t h e e s s e n t i a l l y i n v a r i a n t c o b a l t l o a d ­ i n g w i t h i n c r e a s i n g s i l i c o n c o n t e n t i n sodium f a u j a s i t e s impregnated with b i s ( t o l u e n e ) c o b a l t ( 0 ) . Thus t h e B r o n s t e d a c i d i t y and h y d r o ­ p h o b i c i t y o f t h e Η-faujasites b o t h i n c r e a s e w i t h t h e S i / A l r a t i o , p r o v i d i n g s o l v e n t c o m p a t i b i l i t y , f a v o u r a b l e i n t e r a c t i o n s between t h e supercage a c i d i c p r o t o n s and t h e charge d e n s i t y o f t h e c o o r d i n a t e d t o l u e n e , as w e l l as o x i d a t i o n o f t h e (C6H5CH3) Co(0) t o s t r o n g l y bound supercage l o c a t e d s i t e I I and I I I C o cations (optical ref­ l e c t a n c e and FT-FAR-IR s p e c t r o s c o p y , see l a t e r ) . These c h e m i c a l p o t e n t i a l s work t o g e t h e r t o enhance t h e c o b a l t l o a d i n g o f t h e a c i d f a u j a s i t e s with i n c r e a s i n g s i l i c o n content. 6

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F i g u r e 1. (C H CH3)2Co i m p r e g n a t i o n o f HFAU and NaFAU. l o a d i n g as a f u n c t i o n o f t h e S i / A l r a t i o ( s e e t e x t ) . 6

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M e t a l l o a d i n g s t u d i e s of t h i s type s e r v e to e n l i g h t e n the f a c ­ t o r s which c o n t r o l the i m p r e g n a t i o n of o r g a n o m e t a l l i c s i n t o z e o l i t e s , as w e l l as p r o v i d i n g an i n d i r e c t probe of i n t e r n a l v e r s u s e x t e r n a l l o c a t i o n o f the metal g u e s t s . I n the f o l l o w i n g , a d i r e c t s p e c t r o ­ s c o p i c probe o f t h i s k i n d o f p r o c e s s i s p r e s e n t e d .

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B. D i r e c t Probe FT-FAR-IR S p e c t r o s c o p y : D i c o b a l t O c t a c a r b o n y l I n a number o f r e c e n t p u b l i c a t i o n s (14-19) we demonstrated the g r e a t u t i l i t y o f the 30-350 cm"! r e g i o n o f the f a r - I R spectrum of f a u j a s i t e and A - t y p e z e o l i t e s f o r i d e n t i f y i n g m e t a l c a t i o n s and e s t a b l i s h i n g t h e i r s i t e d i s t r i b u t i o n s i n the l a t t i c e . The i m p r e s s i v e power o f the method stems from the r e a l i z a t i o n t h a t a b s o r p t i o n s between 30250 cm~l a r e e s s e n t i a l l y m e t a l l o c a l i z e d modes, whose number, f r e ­ q u e n c i e s and i n t e n s i t i e s a r e s t r a i g h t f o r w a r d s i g n a t u r e s of m e t a l c a t i o n t y p e , s i t e symmetry, s i t e l o c a t i o n and p o p u l a t i o n ( 2 0 ) . For d e t a i l s of t h i s work the r e a d e r i s r e f e r r e d to the o r i g i n a l p a p e r s . Thus i n F i g u r e s 2A and 2B, the f o u r and t h r e e c r y s t a l l o g r a p h i c a l l y l o c a t e d Na+ i o n s i t e s of NaY ( I I , I , I , I I I , ) and NaA (Α, Ε , H) a r e e a s i l y i d e n t i f i e d , as i n d i c a t e d by the r e s p e c t i v e l e t t e r d e s i g n a ­ t i o n s i n the F i g u r e s . A b s o r p t i o n s to h i g h e r energy than 250 airf­ a r e a s s i g n e d to pore opening modes (21) and w i l l not be f u r t h e r d i s ­ cussed here. Bands marked w i t h an a s t e r i s k denote the IR a c t i v e symmetric c o u n t e r p a r t N a i o n modes t h a t accompany the more i n t e n s e asymmetric modes i n d i c a t e d i n F i g u r e s 2A, 2B. B e f o r e d e s c r i b i n g the Co2(CO) i m p r e g n a t i o n experiments some p r e l i m i n a r y remarks a r e ne­ c e s s a r y c o n c e r n i n g the assignment of r e s i d u a l N a i o n modes i n de­ h y d r a t e d sodium and a c i d f a u j a s i t e s and Α-zeolites w i t h i n c r e a s i n g Si/Al ratio. A summary of the f a r - I R d a t a f o r such samples i s shown i n F i g u r e s 3 and 4. From these t r a c e s , i t i s p o s s i b l e t o a s ­ sess c a t i o n s i t e o c c u p a n c i e s and e s t i m a t e r e l a t i v e s i t e p o p u l a t i o n s as the sodium, B r o n s t e d a c i d and s i l i c o n c o n t e n t i s a l t e r e d w i t h i n a f a u j a s i t e and an Α-zeolite s e r i e s . The f a r - I R s p e c t r a of the C o + ion-exchanged v e r s i o n s of the above samples a r e e q u a l l y i n f o r m a t i v e concerning C o s i t e l o c a t i o n s . Some of t h i s d a t a i s summarized i n F i g u r e 5 and 6 which show the e f f e c t of i n c r e a s i n g Co l o a d i n g and S i / A l r a t i o , on the d i s t r i b u t i o n s of C o i o n s i t e s i n a s e r i e s of sodium f a u j a s i t e s . An a c c u m u l a t i o n of and e v a l u a t i o n o f d a t a of t h i s k i n d a l l o w s one to ( i ) p i n p o i n t the c h a r a c t e r i s t i c f a r - I R s i g ­ natures of Co + ions i n s i t e s I I , I, I I I and I , ( i i ) i d e n t i f y residual Na i o n s i t e s , ( i i i ) e s t a b l i s h any o v e r l a p s between the a b s o r p t i o n s o f C o + and N a s i t e II cations (iv) evaluate s i t e pre­ f e r e n c e s and d i s t r i b u t i o n s f o r Co + and N a i o n s and (v) probe c r y s ­ t a l - f i e l d e f f e c t s and m e t a l - s u p p o r t i n t e r a c t i o n s f o r C o sites. The r e a d e r i s r e f e r r e d to the o r i g i n a l papers f o r d e t a i l s of the above (13-20). 1

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With a l l o f these p r e l i m i n a r i e s a t hand, l e t us now move to the q u e s t i o n of probing i n t e r n a l versus e x t e r n a l metal guests, f o l l o w i n g f o r example, s u b l i m a t i o n o f Co2(C0)e i n t o f a u j a s i t e and A - z e o l i t e s u s i n g FT-FAR-IR s p e c t r o s c o p y . The m o l e c u l a r dimensions of C o ( C 0 ) a r e e s t i m a t e d to be 9.76 χ 6.29 χ 5.45 A f o r the n o n - b r i d g e d form and 8.72 χ 5.95 χ 5.92 A f o r the b r i d g e d isomer (31) ; hence t h i s m o l e c u l e s h o u l d be e x c l u d e d from e n t e r i n g A z e o l i t e s but s h o u l d be a b l e to e n t e r the pores o f f a u j a s i t e z e o l i t e s . C o n s i d e r f i r s t , the f a r - I R spectrum of dehydrated N a H Y d e p i c t e d i n F i g u r e 7. Because 2

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F i g u r e 2A. I n s i t u FT-FAR-IR spectrum o f vacuum t h e r m a l l y dehy­ d r a t e d Na 6Y. I n s e r t shows t h e f a u j a s i t e u n i t c e l l , framework oxygen numbering and c a t i o n s i t e d e s i g n a t i o n s . (Asterisks refer to symmetric m e t a l c a t i o n modes - see t e x t ) . 5

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F i g u r e 2B. I n s i t u FT-FAR-IR spectrum o f vacuum t h e r m a l l y dehy­ drated Na A. I n s e r t shows the Α-zeolite pseudo u n i t c e l l and cation s i t e designations. 1 2

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F i g u r e 3. I n s i t u FT-FAR-IR spectrum o f vacuum t h e r m a l l y dehy­ d r a t e d NaFAU f o r S i / A l = 1.25, 2.5 and 3.8. Sodium c a t i o n s i t e s a r e d e s i g n a t e d , I I , I , I I I and I . 1

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F i g u r e 4. I n s i t u FT-FAR-IR s p e c t r a o f NHi+NaZ ( l o w e r ) and HNaZ (upper) f o r (A) z e o l i t e A (B-B) f a u j a s i t e , S i / A l = 1 . 2 5 , 2.5, 3.8. (F r e p r e s e n t s a framework mode, A i s a supercage NH^ c a t i o n mode and S a r e r e s i d u a l sodium c a t i o n modes). +

In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

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F i g u r e 5. I n s i t u FT-FAR-IR s p e c t r a o f Co + ion-exchanged N a Y c o n t a i n i n g 6, 14 and 17 Co + c a t i o n s p e r u n i t c e l l . (S r e p r e s e n t s a r e s i d u a l N a s i t e I I c a t i o n mode, I , I I I and I ' d e s i g n a t e t h e r e s p e c t i v e C o + c a t i o n s i t e modes. H i g h e r l o a d i n g s t u d i e s show t h a t s i t e I I C o + l i e s i n t h e same r e g i o n as s i t e I I N a ) . 5 6

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Figure 7 . I n s i t u FT-FAR-IR s p e c t r a o f (A) vacuum t h e r m a l l y deamminated/dehydrated NagHi+yY showing r e s i d u a l sodium s i t e s , (B-C) t h e outcome o f exposure t o C o ( C 0 ) vapour f o r 5 and 1 5 minutes r e s p e c t i v e l y , showing t h e f o r m a t i o n o f a c c e s s i b l e Co ' s i t e I I and I I I cations (see t e x t ) . 2

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of the low Na+ i o n c o n t e n t o f t h i s sample, the spectrum i s d i s p l a y e d on a x5 o r d i n a t e s c a l e e x p a n s i o n . The p r e s e n c e of r e s i d u a l Na+ i o n s i n s i t e I I and I* i s q u i t e a p p a r e n t , a l t h o u g h the band w i d t h s a r e such t h a t they do not u n e q u i v o c a l l y e x c l u d e the c o n t r i b u t i o n of some Na i o n s i n s i t e s I and I I I . F o l l o w i n g a c o n t r o l l e d i n s i t u s u b l i m a t i o n of C o ( C 0 ) i n t o the N a H Y z e o l i t e w a f e r , the f a r - I R spectrum f o r i n c r e a s i n g l o a d i n g s of C o ( C 0 ) c l e a r l y d e p i c t the growth of two new a b s o r p t i o n s a t 180 and 145 cm"-'-, f l a g g i n g the g e n e r a t i o n of C o + c a t i o n s o c c u p y i n g s i t e I I and I I I ' i n the supercage of the f a u j a s i t e . (Note t h a t i n sepa­ r a t e experiments, C o ( C O ) s u b l i m e d onto p o l y e t h y l e n e and ALPO-5 shows no a b s o r p t i o n s of any i n t e n s i t y i n the 350-30 cm~l r e g i o n of the f a r - I R ) . The sample changes from w h i t e t o b l u e f o l l o w i n g the i m p r e g n a t i o n of the C o ( C 0 ) i n t o NagHi+yY i n d i c a t i n g the p r e s e n c e o: C o + i o n s w i t h i n the z e o l i t e . The o b s e r v a t i o n of C o i C O K " i n the c o r r e s p o n d i n g mid-IR experiment s u g g e s t s the f o l l o w i n g i n t r a z e o l i t i * redox c h e m i s t r y : C o ( C 0 ) + Z 0 H — > Z 0 C o + + 4C0 + 1/2 H + Co(C0K~. S i m i l a r experiments performed w i t h N a Y and C o i 7 N a Y d i s p l a y o n l y C o ( C 0 ) a d s o r p t i o n - i n d u c e d c a t i o n v i b r a t i o n a l s h i f t s ( F i g u r e s 8A,B' comparable t o t h o s e r e p o r t e d f o r the a d s o r p t i o n of p y r i d i n e on the same f a u j a s i t e samples (13-22). I n c o n t r a s t , the s u b l i m a t i o n of Co (CO) onto sodium and a c i d Α-zeolites ( t h e former h a v i n g a k i n e ­ t i c d i a m e t e r o f 3.9A (10)) has e s s e n t i a l l y no e f f e c t on the f a r - I R spectra. The above o b s e r v a t i o n s a r e s i g n i f i c a n t f o r a number of r e a s o n s . F i r s t l y , they u n e q u i v o c a l l y demonstrate t h a t C o ( C 0 ) e n t e r s the supercages of NagHi+yY, f a c i l i t a t i n g i n t r a z e o l i t i c o x i d a t i o n by the a c i d s i t e s , to Co + i o n s l o c a t e d " e x c l u s i v e l y " i n a c c e s s i b l e s i t e s I I and I I I . T h i s i s t o be s h a r p l y c o n t r a s t e d w i t h C o ionexchanged and [ C o ( N H ) ] ion-exchanged/deamminated/autoreduced f a u j a s i t e samples ( t h e l a t t e r shown i n F i g u r e 9) which c l e a r l y i l ­ l u s t r a t e the p r e f e r e n c e of Co + i o n s f o r b o t h a c c e s s i b l e ( I I , I I I ) and i n a c c e s s i b l e ( I , I ) s i t e s , l o c a t e d throughout the z e o l i t e l a t ­ tice. Thus the C o ( C 0 ) e/NagHi+yY p r e p a r a t i o n y i e l d s a NaCoHY z e o l i t e i n which a l l o f the C o s i t e s a r e a c c e s s i b l e t o r e a g e n t s , whereas the [ C o ( N H ) ] + / N a Y r o u t e y i e l d s a NaCoHY z e o l i t e w i t h some of the C o + s i t e s l o c a t e d i n l a t t i c e r e g i o n s i n a c c e s s i b l e t o most c h e m i c a l r e a g e n t s , (namely s i t e s I , I ) . I n c a t a l y t i c a p p l i c a t i o n s f o r example, such d i f f e r e n c e s can o f t e n be e x p l o i t e d t o advantage. A second p o i n t t h a t emerges from t h i s s t u d y , i s t h a t i n t r a z e o l i t i c o x i d a t i o n of C o ( C 0 ) i s e n j o y e d o n l y by NagH^yY and not by N a Y , C o i N a Y , NaA o r HA. F o r the N a Y sample i n t r u s i o n o f the C o ( C O ) guest i n t o the supercage o f the f a u j a s i t e i s f l a g g e d by the o b s e r ­ ved f a r - I R a d s o r p t i o n i n d u c e d v i b r a t i o n a l s h i f t s of the N a ions. By c o n t r a s t , the e x c l u s i o n of C o ( C 0 ) from the i n t r a z e o l i t i c v o i d s of NaA and HA i s seen by i n v a r i a n c e of the f a r - I R c a t i o n s p e c t r a of t h e s e samples, when exposed t o the vapour o f C o ( C 0 ) . +

f

2

9

8

1+7

2

8

2

1

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2

8

2

8

2

2

2

8

2

5 6

2

2 2

8

2

8

2

8

2

1 1

2 +

3 +

3

6

2

1 1

1

2

2 +

3

3

6

2

1

2

8

5 6

7

5 6

2

8

+

2

8

2

Thus by u s i n g C o ( C 0 ) as a r e p r e s e n t a t i v e and a c o m b i n a t i o n of s i z e e x c l u s i o n experiments d a t i o n c h e m i s t r y , as probed through the f a r - I R sodium and a c i d f a u j a s i t e s and Α-zeolites, one u i s h between i n t e r n a l and e x t e r n a l confinement i n the z e o l i t e . 2

8

8

organometallic guest, and i n t r a z e o l i t e o x i ­ c a t i o n s p e c t r a of i s a b l e to d i s t i n g ­ of the m e t a l g u e s t ( s )

In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

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221

Intrazeolite Organometallics

Β

A

350

300

250

200

150

100

50

Wavenumber F i g u r e 8A. I n s i t u FT-FAR-IR s p e c t r a o f A) vacuum t h e r m a l l y d e ­ h y d r a t e d N a Y and B) t h e outcome o f exposure t o t h e vapour o f C o ( C 0 ) f o r 15 minutes ( s e e t e x t ) . 5 6

2

8

F i g u r e 8B. I n s i t u FT-FAR-IR s p e c t r a o f A) vacuum t h e r m a l l y dehy­ d r a t e d C o N a Y and B) t h e outcome o f exposure t o t h e vapour o f C o ( C 0 ) f o r 15 minutes ( s e e t e x t ) . 1 7

2

2 2

8

In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

222

EXCITED STATES AND REACTIVE INTERMEDIATES

C. O r g a n o m e t a l l i c EPR S p i n Probes I. B i s ( b e n z e n e ) v a n a d i u m ( O ) : S i z e e x c l u s i o n and d i f f u s i o n s t u d i e s . The m o l e c u l a r dimensions o f (n -C6He)2V a r e e s t i m a t e d t o be 3.88A χ 5.24Â, ( 2 3 ) , hence i t s h o u l d be e s s e n t i a l l y e x c l u d e d from e n t e r i n g the supercages o f Α-zeolite b u t n o t Y - z e o l i t e . The c h o i c e o f (n -CeH6)2V f o r these z e o l i t e i m p r e g n a t i o n s t u d i e s was a l s o p r e d i ­ c a t e d on i t s i d e a l e p r p r o p e r t i e s , t h a t i s , a n o n - d e g e n e r a t e , t o t a l l y symmetrical A g e l e c t r o n i c ground s t a t e and a h i g h l y d i a g n o s t i c p a t t e r n o f V ( I = 7 / 2 ) h y p e r f i n e and H ( I = 1/2) s u p e r h y p e r f i n e l i n e s , whose c o u p l i n g c o n s t a n t s and l i n e shapes a r e q u i t e r e v e a l i n g as t o i t s i n t e r a c t i o n s w i t h i t s immediate s u r r o u n d i n g s , as w e l l as i t s r i n g and whole-molecule dynamical m o t i o n s . F o r d e t a i l s o f t h i s work t h e r e a d e r i s r e f e r r e d t o t h e o r i g i n a l .papers (24) . As a b r i e f preamble t o the e p r z e o l i t e work t h a t f o l l o w s , one f i n d s t h a t (n -C(>H6) 2V i n weakly i n t e r a c t i n g s o l v e n t s l i k e pentane, shows a t room temperature an i s o t r o p i c 8 - l i n e V h y p e r f i n e spectrum w i t h p a r ­ t i a l l y r e s o l v e d superimposed p r o t o n s u p e r h y p e r f i n e components ( F i g u r e 10). I n t h e r i g i d l i m i t below 123K t h i s e p r spectrum d r a m a t i c a l l y t r a n s f o r m s t o one d i s p l a y i n g a x i a l symmetry, w i t h f u l l r e s o l u t i o n of a 1 3 - l i n e i s o t r o p i c p r o t o n s u p e r h y p e r f i n e p a t t e r n on each o f t h e 8 p e r p e n d i c u l a r V - h y p e r f i n e l i n e s ( F i g u r e 10). The p a r a l l e l V-hyperf i n e components i n t h i s case have been proven t o have a much s m a l l e r s p l i t t i n g and g i v e r i s e t o t h e s m a l l c e n t r a l f e a t u r e i n t h e e p r spectrum ( 2 4 ) . The m a g n e t o g y r i c g, h y p e r f i n e a , and s u p e r h y p e r f i n e aH parameters which emerge from a l i n e shape s i m u l a t i o n o f t h e r i g i d l i m i t e p r spectrum a r e l i s t e d below: b

6

2

2

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5 1

1

6

v

g

xx

g

1.9810G

yy

1.9857G

ν a

x

ν

91.4955G 6.733G

Η a

1 Η

4.264G 4.264G

Thus t h e room temperature spectrum i n pentane c h a r a c t e r i z e s a f r e e l y tumbling ( n - C H ) V m o l e c u l e , w i t h c o o r d i n a t e d benzene r i n g r o t a ­ t i o n , b u t e x p e r i e n c i n g some e l e c t r o n s p i n exchange l i n e b r o a d e n i n g due t o f r e q u e n t m o l e c u l a r c o l l i s i o n s . I n t h e r i g i d l i m i t below 123K the a x i a l n a t u r e o f (η -0βΗ6)2ν i s r e v e a l e d i n t h e powder spectrum of t h e f r o z e n s o l i d ; however, t h e m o l e c u l e i s t r a p p e d i n a v o i d o f s o l i d pentane o f s u f f i c i e n t l y s p a c i o u s dimensions t h a t r i n g r o t a t i o n i s s t i l l p e r m i t t e d , as seen by t h e magnetic e q u i v a l e n c y o f t h e 12 p r o t o n s o f t h e c o o r d i n a t e d benzenes. The i n t e r m e d i a t e temperature regime 300-123K has been i n v e s t i g a t e d i n d e t a i l i n pentane ( F i g u r e 10) as w e l l as more s t i c k y s o l v e n t s l i k e a r o m a t i c s and e t h e r s ( 2 4 ) . I n pentane, t h e e f f e c t o f l o w e r i n g t h e temperature (synonymous w i t h i n c r e a s i n g v i s c o s i t y ) i s seen f i r s t as an enhancement o f t h e r e s o l u ­ t i o n o f t h e p r o t o n s u p e r h y p e r f i n e ( m o l e c u l a r tumbling w i t h d i m i n i s h ­ ed e l e c t r o n s p i n exchange b r o a d e n i n g ) and then as t h e appearance o f 6

6

6

2

6

In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

OZIN AND GODBER

Intrazeolite Organometallics

223

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15.

6

F i g u r e 10. Temperature dependent e p r s p e c t r a o f (n -C H6)2V i n pentane over t h e range 300-123K (see r e f e r e n c e 2A_ f o r d e t a i l s ) . 6

In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

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EXCITED STATES AND REACTIVE INTERMEDIATES

a n i s o t r o p y ( d i f f e r e n t l i n e w i d t h s ) on t h e V - h y p e r f i n e l i n e s ( v i s c o u s drag on t h e t u m b l i n g dynamics). A t around 138K t h e c o a l e s c e n c e regime i s met, below which t h e a x i a l r i g i d l i m i t spectrum p e r s i s t s ( F i g u r e 10). A g g r e g a t i o n o f (n -C6H6)2V i n s o l i d pentane i s d i a g ­ nosed by t o t a l c o l l a p s e o f t h e e i g h t vanadium h y p e r f i n e components ( d i p o l e - d i p o l e b r o a d e n i n g ) t o a s i n g l e l i n e c e n t r e d around g = 2 (more pronounced on slow c o o l i n g than r a p i d c o o l i n g - see F i g u r e 10). The e f f e c t o f more s t r o n g l y i n t e r a c t i n g s o l v e n t s i s m a n i f e s t as p a r t i a l o r complete l o s s o f p r o t o n s u p e r h y p e r f i n e s p l i t t i n g , t h e o b s e r v a t i o n o f unequal l i n e widths f o r t h e V - h y p e r f i n e l i n e s and t h e a t t a i n m e n t o f t h e r i g i d l i m i t a x i a l spectrum a t h i g h e r temperatures than those observed f o r pentane under i d e n t i c a l c o n c e n t r a t i o n con­ ditions. These e f f e c t s a r e t r a c e a b l e t o g r e a t e r s o l u t e - s o l v e n t i n ­ t e r a c t i o n s i n a r o m a t i c and e t h e r media, and t h e concomitant p e r t u r ­ b a t i o n s o f t h e r i n g and m o l e c u l e dynamics. With t h i s background a t hand, we a r e now i n a p o s i t i o n t o a s s e s s the outcome o f i m p r e g n a t i n g ( n - C H ) 2 V i n t o dehydrated NaY and NaA. F o r these m a t e r i a l s we w i l l employ t h e e p r s p i n probe i n t e n s i t i e s as a d i a g n o s t i c of the extent of impregnation of (n -C H )2V i n t o the supercages and t h e l i n e shapes as an i n d i c a t o r o f t h e dynamical p r o ­ p e r t i e s (and p o s s i b l e l o c a t i o n ) o f supercage e n c a p s u l a t e d

Downloaded by UNIV OF PITTSBURGH on May 3, 2015 | http://pubs.acs.org Publication Date: April 30, 1986 | doi: 10.1021/bk-1986-0307.ch015

6

6

6

6

6

6

6

6

(n -c H ) v. 6

6

2

C o n s i d e r f i r s t t h e room temperature pentane i m p r e g n a t i o n o f ( n - C H ) 2 V i n t o NaY f o l l o w e d by a thorough pentane wash. The e p r spectrum was r e c o r d e d i n t h e range 300-123K and showed l i t t l e change i n l i n e shape. F e a t u r e s o f i n t e r e s t t o t h e p r e s e n t study i n c l u d e ( i ) t h e o b s e r v a t i o n o f a r i g i d l i m i t spectrum a t room temperature ( F i g u r e 11A) which i s u n a f f e c t e d on c o o l i n g t o 123K ( F i g u r e 11B), ( i i ) the loss o f proton superhyperfine coupling, ( i i i ) adsorption of oxygen o r water (38) i r r e v e r s i b l y changes t h e spectrum t o one c h a ­ r a c t e r i s t i c o f t h e v a n a d y l i o n V 0 , ( F i g u r e 11C), ( t h e low i n t e n ­ s i t y and bowed b a s e l i n e i n t h i s f i g u r e i s an i n h e r e n t p r o p e r t y o f the 0 / H 0 o x i d a t i o n p r o d u c t ( 3 8 ) ) , ( i v ) a d s o r p t i o n o f weakly i n ­ t e r a c t i n g s o l v e n t s l i k e t o l u e n e o r pentane t o t h e sample i n F i g u r e 11A have no e f f e c t on t h e spectrum, ( F i g u r e 11D). Taken t o g e t h e r w i t h t h e o b s e r v a t i o n t h a t a s i m i l a r room temperature treatment o f NaA w i t h (η -06Ηβ)2V/pentane y i e l d s a v e r y much l e s s i n t e n s e spec­ trum (y2% o f NaY) s u g g e s t i v e o f r e s i d u a l e x t e r n a l s u r f a c e c o n f i n e ­ ment o f ( n - C H ) V , we c a n draw t h e f o l l o w i n g c o n c l u s i o n s : (a) ( n - C H ) V e n t e r s t h e supercages o f NaY b u t n o t NaA; (b) ( n - C H ) V i s r i g i d l y l o c k e d i n t h e supercage o f NaY e i t h e r by way of N a s i t e I I c a t i o n s o r l a t t i c e oxygen i n t e r a c t i o n s w i t h t h e c o ­ o r d i n a t e d benzenes o r t h e vanadium atom i t s e l f . I n t e r e s t i n g l y , the Na+ c a t i o n - a r e n e r i n g i n t e r a c t i o n model i s r o u g h l y i n l i n e w i t h ( i ) the d i s t a n c e between the c e n t r e s o f benzene adsorbed onto s i t e I I Na c a t i o n s i n Y z e o l i t e (25) and t h e vanadium-benzene r i n g d i s t a n c e s ( 1 . 6 6 Â ) t h e r e b y a b l e t o f i x ( η - 0 Η ) ν i n the supercage (ii) t h e l o s s o f p r o t o n s u p e r h y p e r f i n e s p l i t t i n g , through t h e N a -benzene(or l a t t i c e oxygen) i n t e r a c t i o n s r e s t r i c t i n c j t h e f r e e r o t a t i o n o f t h e c o ­ o r d i n a t e d benzenes, thereby c r e a t i n g m a g n e t i c a l l y i n e q u i v a l e n t r i n g p r o t o n s (3 s e t s o f 4 e q u i v a l e n t p r o t o n s ; ENDOR experiments a r e planned t o t e s t t h i s i d e a ) w i t h concomitant l i n e b r o a d e n i n g and l o s s of r e s o l u t i o n and ( i i i ) t h e o b s e r v a t i o n o f an a x i a l l i m i t e p r spec6

6

6

2 +

2

2

6

6

6

6

2

6

6

6

2

6

6

2

6

+

+

6

6

6

2

+

In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

15.

Intrazeolite Organometallics

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trum w i t h a s l i g h t l y i n c r e a s e d aj h y p e r f i n e c o u p l i n g compared t o ( n - C H ) V i n pentane. The o b s e r v a t i o n ( F i g u r e 11D) t h a t weakly i n t e r a c t i n g s o l v e n t s l i k e t o l u e n e o r pentane do n o t p e r t u r b t h e spectrum shown i n F i g u r e 11A i s i n l i n e w i t h t h e h y p o t h e s i s o f a s t r o n g i n t e r a c t i o n between the z e o l i t e and ( n - C H ) V . I t might be e x p e c t e d t h a t a d s o r p t i o n of t o l u e n e o r pentane would s e r v e t o s o l v a t e t h e ( n - C H ) V and r e l e a s e i t from i n t e r a c t i o n w i t h t h e w a l l s o f t h e z e o l i t e . 5

6

6

2

6

6

6

2

6

6

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In a s e r i e s o f s e p a r a t e experiments t h e e f f e c t o f i m p r e g n a t i n g e q u a l w e i g h t s o f d e h y d r a t e d NaY w i t h ( n - C H 6 ) V / p e n t a n e solution h a v i n g i n c r e a s i n g c o n c e n t r a t i o n s o f ( n - C H ) V was i n v e s t i g a t e d u s i n g t h e above type of s p i n - p r o b e e p r method; one o f t h e most w e l l d e f i n e d V - h y p e r f i n e component l i n e s (unchanging band width) was used as a measure o f t h e s p i n c o n c e n t r a t i o n o f supercage i m m o b i l i z e d (r| -C6H6) V. The r e s u l t s o f t h e s e experiments a r e graphed i n F i g u r e 12 f o r t h e a n a e r o b i c p r o c e d u r e performed a t room t e m p e r a t u r e , w i t h a 2 hour i m p r e g n a t i o n time, f o l l o w e d by a thorough pentane wash. From t h e s e d a t a one c a n deduce t h a t t h e r e e x i s t s a p r o p o r t i o n a t e r e l a t i o n s h i p between t h e c o n c e n t r a t i o n o f ( n - C H ) V i n t h e pentane phase and t h e amount o f i n t r a z e o l i t i c ( n - C H ) V . C l e a r l y under t h e s e i m p r e g n a t i o n c o n d i t i o n s t h e r e appears t o e x i s t no a p p r e c i a b l e d i f f u s i o n a l b a r r i e r t o t h e e n t r y o f ( n - C 6 H e ) V i n t o t h e supercages of NaY. Thus by u s i n g o r g a n o m e t a l l i c e p r s p i n p r o b e s , s i z e e x c l u s i o n and d i f f u s i o n e x p e r i m e n t s , one i s a b l e t o d i s t i n g u i s h i n a f a i r l y c o n ­ v i n c i n g way between i n t e r n a l and e x t e r n a l confinement o f t h e m e t a l guest i n t h e z e o l i t e . 6

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I I . B i s ( c y c l o p e n t a d i e n y l ) c h r o m i u m ( I I ) ; S i z e E x c l u s i o n and I n t r a z e o ­ l i t e Chemistry The c h o i c e o f ( n . - C H ) C r as an e p r s p i n probe i n t h e s e a p p l i c a t i o n s , o f f e r s numerous o p p o r t u n i t i e s f o r i n v e s t i g a t i n g t h e u l t i m a t e form and l o c a t i o n o f t h g m e t a l g u e s t . I t s m o l e c u l a r dimensions a r e e s ­ t i m a t e d t o be 4.34A χ 4.44A (26) and so i t s h o u l d be a u s e f u l c a n ­ d i d a t e f o r s i z e e x c l u s i o n e x p e r i m e n t s i n f a u j a s i t e and A - z e o l i t e s . The chromium i s f o r m a l l y i n o x i d a t i o n s t a t e +2 w i t h an e l e c t r o n i c ground s t a t e term o f E 2 g ( 2 7 ) . I n t h i s form t h e m o l e c u l e has a s c a r l e t hue and has a c h a r a c t e r i s t i c e l e c t r o n i c spectrum showing U V - v i s i b l e l i g a n d - f i e l d and UV c h a r g e - t r a n s f e r e x c i t a t i o n s and a D j c e n t r o s y m m e t r i c sandwich s t r u c t u r e a s shown i n Scheme I . In f r o z e n pentane g l a s s , down t o 123K, ( n - C H ) C r d i s p l a y s a v e r y b r o a d almost i s o t r o p i c e p r l i n e (g = 3.89,Δ Η = 3400 G) (28) which a t room temperature broadens even f u r t h e r , almost t o d i s a p ­ pearance. This t y p i f i e s the epr behaviour of a f i r s t t r a n s i t i o n s e r i e s complex h a v i n g a h i g h s p i n , o r b i t a l l y d e g e n e r a t e e l e c t r o n i c ground s t a t e , a n d a r e s u l t i n g s h o r t Τ s p i n l a t t i c e r e l a x a t i o n t i m e . Under t h e s e c o n d i t i o n s t h e J a h n - T e l l e r i n s t a b i l i t y o f ( n - C H ) C r c o u l d be a dynamic t y p e . However, when e n t r a p p e d i n t h e supercage o f a z e o l i t e one c a n a n t i c i p a t e a q u i t e d i f f e r e n t s t a t e o f a f f a i r s f o r the e p r p r o p e r t i e s o f chromocene. Consider f i r s t the impregnation of r i g o r o u s l y d e h y d r a t e d / c a l c i 5

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F i g u r e 11. EPR s p e c t r a of NaY e n c a p s u l a t e d (n -C H ) V.(pentane i m p r e g n a t i o n ) , r e c o r d e d (A) a t room t e m p e r a t u r e , S c a l e : 2X, (B) a t 123K, S c a l e : IX, (C) a f t e r a d d i t i o n of H 0 vapour a t room temperature and r e c o r d e d at 123K, S c a l e : 10X, (D) sample i n (A) wet w i t h pentane, r e c o r d e d a t room t e m p e r a t u r e , S c a l e : 2X. 6

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F i g u r e 12. EPR s p i n probe of the c o n c e n t r a t i o n dependence of the d i f f u s i o n of ( n - C H ) V / p e n t a n e i n t o N a Y (see t e x t ) . 6

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n e d / d e f e c t removed NaY w i t h a pentane s o l u t i o n o f C p C r . After a thorough pentane wash an e p r spectrum a t t r i b u t a b l e t o C p C r c a n be o b s e r v e d ( F i g u r e 13C,D). A t room temperature t h e spectrum c o n s i s t s of a s i n g l e a b s o r p t i o n a t g = 2.084 which i s almost i s o t r o p i c ( F i g u r e 13D). On c o o l i n g t o -150°C, t h e sample e x h i b i t s growth o f a resonance a t g = 4.079, and t h e h i g h f i e l d s i g n a l shows an a x i a l d i s t o t i o n , t h e g v a l u e c h a n g i n g s l i g h t l y t o g = 2.065 ( F i g u r e 13C). When t h e same experiment i s r e p e a t e d b u t w i t h an e q u a l weight o f a c i d z e o l i t e NagH^yY, e p r s i g n a l s c o r r e s p o n d i n g t o o r t h o r h o m b i c Cp Cr a r e o b s e r v e d ( F i g u r e 13B, a l l s p e c t r a a r e on t h e same s c a l e ) (30). A t -150°C t h e e p r spectrum has g = 4.13, g = 3.86 and g = 1.98; when warmed t o room temperature t h e spectrum remains e s s e n t i a l l y t h e same except f o r a d e c r e a s e i n i n t e n s i t y , w i t h r e s o ­ nances = 4.12, g = 3.89, g = 1.98. The m a g n e t o g y r i c (g) t e n s o r and temperature b e h a v i o u r o f t h i s sample i s s i m i l a r t o t h a t observed f o r Cp Cr+ i n other diamagnetic h o s t s , except that z e o l i t e e n c a p s u l a t e d C p C r + e x h i b i t s an o r t h o r h o m b i c d i s t o r t i o n (27-30). I n sharp c o n t r a s t , when C p C r i n pentane i s c o n t a c t e d w i t h NaA z e o l i t e , o n l y v e r y low i n t e n s i t y h i g h and low f i e l d r e s o n a n c e s a r e o b s e r v e d , ( F i g u r e 13A, r u n a t - 1 5 0 ° C ) . T h i s we a t t r i b u t e t o r e s i d u a l , s u r ­ f a c e c o n f i n e d chromocene o r chromicenium. 2

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F i n a l l y we w i s h t o p o i n t o u t t h a t when C p C r i s r e a c t e d w i t h S i 0 , vacuum t h e r m a l l y p r e t r e a t e d a t 400°C, r o u g h l y one c y c l o p e n t a d i e n e l i g a n d i s r e l e a s e d w i t h f o r m a t i o n o f t h e proposed s u r f a c e a n ­ chored o r g a n o m e t a l l i c CpCr-OSIL ( 3 7 ) . While i t i s not i m p o s s i b l e t h a t such a h a l f sandwich C r s p e c i e s c o u l d be r e s p o n s i b l e f o r t h e e s r spectrum o b s e r v e d from i m p r e g n a t i n g C p C r i n t o HY, we f i n d t h a t the o p t i c a l r e f l e c t a n c e spectrum o f t h e l a t t e r s u p p o r t t h e proposed Cp Cr+ZY f o r m u l a t i o n (see a l s o C p F e Z Y i n t h e n e x t s e c t i o n ) . Never­ t h e l e s s , s t u d i e s a r e underway t o f u r t h e r c l a r i f y t h i s i n t r i g u i n g detail. From t h e s e o b s e r v a t i o n s we c a n draw t h e f o l l o w i n g c o n c l u ­ sions : 2

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( i ) ( η - 0 Η ) 0 Γ c a n e n t e r t h e supercages o f NaY and HY b u t i s ex­ c l u d e d from e n t e r i n g NaA. ( i i ) The o b s e r v a t i o n o f a temperature dependent e p r spectrum f o r Cp Cr/NaY, and i t s d i s t i n c t d i f f e r e n c e t o Cp Cr/HY s u g g e s t s t h a t C p C r has p e n e t r a t e d i n t o t h e p o r e s o f NaY and i s l o c k e d i n p l a c e inthe supercage i n a d i s t o r t e d c o n f i g u r a t i o n n o t p r e v i o u s l y a t t a i n e d f o r C p C r , (see Scheme I I ) ; t h e l a t t e r e f f e c t c o u l d be r e s p o n s i b l e f o r i t s o b s e r v a b l e e p r spectrum. F o r such a low symmetry t r i p l e t s t a t e C p C r s p e c i e s one c a n e x p e c t b e s i d e s s h o r t T i r e l a x a t i o n t i m e s , t h a t z e r o f i e l d s p l i t t i n g s , dynamic J a h n - T e l l e r e f f e c t s and AMg=±2 t r a n s i t i o n s can provide a d d i t i o n a l f a c t o r s r e s p o n s i b l e f o r the un­ u s u a l e p r spectrum and i t s temperature s e n s i t i v i t y . The a n a l y s i s of t h e s e f a s c i n a t i n g C p C r e p r s p e c t r a a r e under c o n t i n u i n g study i n our l a b o r a t o r y . ( i i i ) When C p C r i s impregnated i n t o a c i d f a u j a s i t e , i t i s o x i d i z e d to e p r d e t e c t a b l e C p C r which has undergone an o r t h o r h o m b i c d i s ­ t o r t i o n i n i t s supercage l o c a t i o n . (Note t h a t C p C r C p C r + e~ has = 0.55 V v s SCE ( 2 7 ) ) . 5

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D. O p t i c a l R e f l e c t a n c e P r o b e : B i s ( c y c l o p e n t a d i e n y l ) i r o n ( I I ) ; E x c l u s i o n and I n t r a z e o l i t e C h e m i s t r y

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In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.

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F i g u r e 13. EPR s p e c t r a o f C p C r / p e n t a n e impregnated i n t o ( A ) NaA, r e c o r d e d a t -150°C, (B) NagH^yY, r e c o r d e d a t -150°C, (C-D) N a Y r e c o r d e d a t -150°C and RT r e s p e c t i v e l y (see t e x t ) . 2

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c a t i o n C p F e and complexes c o n t a i n i n g s u b s t i t u t e d r i n g s have been e x t e n s i v e l y s t u d i e d (29). The m o l e c u l a r dimensions of f e r r o c e n e , 4.13 χ 4.20A (26) a r e s u f f i c i e n t f o r u n h i n d e r e d d i f f u s i o n i n t o f a u ­ j a s i t e z e o l i t e s , but are too l a r g e t o p e n e t r a t e A z e o l i t e s . Fer­ rocene has an e l e c t r o n i c ground s t a t e term of &ig and i n pentane has c h a r a c t e r i s t i c a b s o r p t i o n s a t 440 and 325 nm due to d-d t r a n s i ­ t i o n s , and charge t r a n s f e r a b s o r p t i o n s i n the UV a t 265, 240 and 200 nm ( F i g u r e 14A). The f e r r i c e n i u m c a t i o n has an o r b i t a l l y de­ g e n e r a t e ground s t a t e term which has been shown by e s r and magnetic s u s c e p t i b i l i t y measurements t o be E g (32,33). In aqueous s o l u t i o n the c a t i o n e x h i b i t s d-d t r a n s i t i o n s a t 565, 524, 467 and 380 nm, and charge t r a n s f e r a b s o r p t i o n s a t 617, 283 and 251 nm ( F i g u r e 14G). The i n t e n s e charge t r a n s f e r band a t 617 nm i s e s p e ­ c i a l l y d i a g n o s t i c f o r the p r e s e n c e of C p F e + as C p F e has no a b s o r p ­ tions i n this region. The o p t i c a l r e f l e c t a n c e s p e c t r a of the p r o d u c t s o b t a i n e d from a room temperature i m p r e g n a t i o n of C p F e / p e n t a n e i n t o dehydrated/cal­ c i n e d / d e f e c t removed NaY, NagR\7Y and NaA are d i s p l a y e d i n F i g u r e s 14 B-F, H. F e r r o c e n e i s e x c l u d e d from NaA as e v i d e n c e d by the l a c k of any bands i n the spectrum which c o u l d be a s s i g n e d to e i t h e r C p F e or C p F e . The UV bands t h a t a r e o b s e r v e d a r e due to z e o l i t e 0 -*· Τ (where Τ = A l , S i ) c h a r g e - t r a n s f e r t r a n s i t i o n s . This result also s t r e n g t h e n s our c o n t e n t i o n t h a t C p F e i s c o n t a i n e d w i t h i n the p o r e s of NaY r a t h e r than c o n f i n e d t o the e x t e r n a l s u r f a c e . D i f f u s i o n of C p F e i n t o r i g o r o u s l y p r e t r e a t e d NaY p r o c e e d s w i t h s l i g h t p a r t i a l o x i d a t i o n to the f e r r i c e n i u m c a t i o n , p o s s i b l y v i a Lewis a c i d s i t e s ( t h e samples were c a r e f u l l y d e f e c t removed by washing with NaCl s o l u t i o n and m e t i c u l o u s l y d e h y d r a t e d and c a l c i n e d ) . T h i s i n ­ teresting observation i s c u r r e n t l y under s t u d y . Even w i t h the s m a l l amount of o x i d a t i o n as e v i d e n c e d by the weak C p F e CT band a t 617 nm, the i m p o r t a n t f e a t u r e to be n o t e d from the r e f l e c t a n c e spectrum i s the e x i s t e n c e of an e s s e n t i a l l y u n p e r t u r b e d f e r r o c e n e w i t h i n the c o n f i n e s of the z e o l i t e ; no d i s t o r t i o n of the m o l e c u l e i s a p p a r e n t . I f f e r r o c e n e had been bent one might have e x p e c t e d a l o w e r i n g i n energy of the Α - > t r a n s i t i o n as o b s e r v e d i n (CpCH CH Cp)Fe, i n which the m o l e c u l e i s ' t e t h e r e d i n t o a bent c o n f i g u r a t i o n ( 3 4 ) . Of p a r t i c u l a r i n t e r e s t i s the e f f e c t t h a t a i r exposure has on the Cp Fe/NaY sample, as i l l u s t r a t e d i n F i g u r e s 14C, D; the f e r r o c e n e i s s l o w l y o x i d i z e d (whether i t i s oxygen o r water or b o t h i s s t i l l un­ der i n v e s t i g a t i o n ) t o the f e r r i c e n i u m c a t i o n as r e f l e c t e d by the drop i n i n t e n s i t y of the 440 nm f e r r o c e n e band and the c o n c o m i t a n t growth of the c h a r a c t e r i s t i c 617 nm charge t r a n s f e r a b s o r p t i o n of Cp Fe+. The f a t e of f e r r o c e n e a f t e r i m p r e g n a t i o n i n t o NagHuyY i s e a s i l y d i s c e r n i b l e from the r e f l e c t a n c e spectrum ( F i g u r e 14E) as i t shows e s s e n t i a l l y complete absence o f f e r r o c e n e a b s o r p t i o n s and o n l y f e r r i c e n i u m bands. To c o n f i r m the e x i s t e n c e of [Cp Fe]NaHY we i n ­ d e p e n d e n t l y p r e p a r e d C p 2 F e B F 4 ~ (33) and ion-exchanged i t i n t o Na Y i n aqueous 0.01M HClOi*. The r e s u l t i n g b l u e - g r e e n z e o l i t e , w i t h a c o m p o s i t i o n of [Cp,Fe]NaHY, was washed u n t i l f r e e of p e r c h l o r a t e and d r i e d a t 100 C. The r e f l e c t a n c e spectrum of t h i s sample ( F i g u r e 14F) i n d i c a t e s t h a t C p F e has ion-exchanged i n t o the z e o l i t e l a t t i c e presumably t o occupy a supercage c a t i o n s i t e . R e g a r d i n g the r e a c t i o n of C p F e w i t h an a c i d f a u j a s i t e , i t i s p o s s i b l e to e x c l u d e a s i m p l e a c i d - b a s e r e a c t i o n , y i e l d i n g p r o t o n a t e d 2

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200 3 0 0 4 0 0 5 0 0 6 0 0 7 0 0 8 0 0 Wave length (nm) F i g u r e 14. O p t i c a l s p e c t r a o f (A) C p F e / p e n t a n e (ABS), (B) Cp Fe/NaY (REFL), (C-D) t h e same as (B) b u t a f t e r 6 and 24 h o u r s exposure t o a i r (REFL), (E) Cp Fe/H* Na Y (REFL), (F) [ C p F e ] BF4/O.OIM HClOi» ion-exchanged i n t o N a Y (REFL), (G) [Cp Fe]BFif/ 0.01M HCIO^ (ABS), (H) Cp Fe/NaA (REFL). 2

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f e r r o c e n e [ C p F e H ] as a c a n d i d a t e f o r t h e o b s e r v e d p r o d u c t based on the r e f l e c t a n c e spectrum. Thus [Cp FeH]+ e x h i b i t s an o p t i c a l s p e c ­ trum q u i t e s i m i l a r t o f e r r o c e n e , except t h a t t h e A g-> E i g d-d t r a n s i t i o n a t 325 nm i s broadened ( 3 5 ) . Note a l s o t h a t w h i l e " t e t h e r e d " (CpCH CH Cp)Fe, with the r i n g s f i x e d i n a t i l t e d p o s i t i o n can be p r o t o n a t e d by l e s s than 0.1% H2SO4 i n e t h a n o l , C p F e by con­ t r a s t i s u n a f f e c t e d by t h e p r e s e n c e o f f o r example 10% H2SO4 i n ethanol (36). I n t h e l i g h t o f t h i s i n f o r m a t i o n we p o s t u l a t e t h a t the i n t r a z e o l i t i c o x i d a t i o n o f f e r r o c e n e i n a c i d f a u j a s i t e i n v o l v e s an i n i t i a l b e n d i n g back o f t h e r i n g s f o l l o w e d by p r o t o n a t i o n and o x i ­ dation. From a c o m b i n a t i o n o f i n t r a z e o l i t e o x i d a t i o n c h e m i s t r y o f Cp Fe/HY, C p F e ion-exchanged NaY and pentane i m p r e g n a t i o n o f C p F e i n t o NaY and NaA, one c a n deduce t h a t ( i ) C p F e e n t e r s t h e α-cage o f f a u j a s i t e b u t i s e x c l u d e d from t h e i n t e r n a l v o i d s o f NaA; ( i i ) t h e a c i d s t r e n g t h o f NagHi+yY i s s u f f i c i e n t t o o x i d i z e C p F e t o C p F e ( C p F e + + e " ^ ± Cp Fe,E-J = 0.41 V v s SCE ( 2 7 ) ) , confirming that i t e n t e r s t h e α-cage; ( i i i ) C p F ë c a n be e f f e c t i v e l y ion-exchanged i n t o NaY; ( i v ) C p F e impregnated i n t o r i g o r o u s l y d e h y d r a t e d NaY when exposed t o a i r g r a d u a l l y o x i d i z e s t o C p F e . 2

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O v e r a l l i t i s q u i t e c l e a r , that a combination o f epr spin-probes, U V - v i s r e f l e c t a n c e s p e c t r o s c o p y , s i z e e x c l u s i o n and i n t r a z e o l i t e o x i d a t i o n experiments a r e able t o e f f e c t i v e l y d i f f e r e n t i a t e those o r g a n o m e t a l l i c - z e o l i t e i m p r e g n a t i o n s which p l a c e m e t a l g u e s t s w i t h i n the i n t e r n a l v o i d s o f t h e z e o l i t e compared t o t h o s e on t h e e x t e r n a l surface o f the z e o l i t e l a t t i c e . Conclusions T h i s paper d e s c r i b e s some new z e o l i t e o r g a n o m e t a l l i c i m p r e g n a t i o n e x p e r i m e n t s , i n which a c o m b i n a t i o n o f m e t a l l o a d i n g , s i z e e x c l u s i o n , i n t r a z e o l i t e c h e m i s t r y and d i f f u s i o n c o n s i d e r a t i o n s i n c o n j u n c t i o n w i t h e p r , f a r - I R and U V - v i s i b l e r e f l e c t a n c e s p e c t r o s c o p i c p r o b e s , serve t o d i s t i n g u i s h metal guests l o c a t e d i n the i n t r a c r y s t a l l i n e v o i d s o f t h e z e o l i t e from t h o s e l o c a t e d on t h e e x t e r n a l s u r f a c e . R e p r e s e n t a t i v e o r g a n o m e t a l l i c s (C6H5CH3)2C0, Co2(C0)e, ( η - 0 6 Η ) 2 V , ( n - C 5 H ) 2 C r and ( n - C 5 H s ) 2 F e impregnated i n t o sodium and a c i d f a u j a s i t e s and Α-zeolites were s e l e c t e d f o r t h i s i n i t i a l investigation. The key p o i n t s t o emerge from t h i s study a r e l i s t e d below: a) A l l o f t h e above o r g a n o m e t a l l i c s pass f r e e l y i n t o t h e s u p e r c a g e s o f sodium and a c i d f a u j a s i t e s , whereas they a r e a l l e f f e c t i v e l y s i z e - e x c l u d e d from sodium A - z e o l i t e s . b) The l o a d i n g o f ( C H C H ) 2 C o i n t o sodium f a u j a s i t e s i s e s s e n t i a l l y i n s e n s i t i v e t o t h e S i / A l r a t i o whereas i n t h e c o r r e s p o n d i n g a c i d forms i t f o l l o w s t h e S i / A l r a t i o . Supercage Na+ c a t i o n s (and/or l a t t i c e oxygen charge d e n s i t y ) and h y d r o p h o b i c i t y work i n oppo­ s i t i o n i n t h e sodium f a u j a s i t e s , w h i l e t h e B r o n s t e d a c i d i t y , c o b a l t o x i d a t i o n and h y d r o p h o b i c i t y r e i n f o r c e t h e i m p r e g n a t i o n / d i f f u s i o n f o r the a c i d f a u j a s i t e s . c) C o ( C 0 ) a d s o r b s i n t h e m o l e c u l a r form on a c c e s s i b l e supercage Na c a t i o n s o f NaY b u t o x i d i z e s t o supercage l o c a t e d C o + s i t e II, I I I c a t i o n s i n t h e HY form. d) ( n - C H ) V f r e e l y e n t e r s t h e supercages o f NaY and i s l o c k e d i n p l a c e by s p e c i f i c i n t e r a c t i o n s w i t h e i t h e r Na+ supercage c a t i o n o r l a t t i c e oxygens. 6

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( n - C 5 H ) C r f r e e l y e n t e r s t h e supercages o f NaY and i s l o c k e d i n p l a c e , p r o b a b l y i n a J a h n - T e l l e r d i s t o r t e d form, whereas on e n ­ t e r i n g t h e supercages o f HY i t i s o x i d i z e d t o an o r t h o r h o m b i c d i s t o r t e d form o f i n t r a z e o l i t e C p C r . (r^-CsHs) F e f r e e l y p a s s e s i n t o t h e supercage o f NaY whereas on i m p r e g n a t i o n i n t o HY i t s u f f e r s i n t r a z e o l i t e o x i d a t i o n t o t h e ferricenium cation. 5

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Acknowledgments The f i n a n c i a l a s s i s t a n c e o f t h e N a t u r a l S c i e n c e s and E n g i n e e r i n g R e s e a r c h C o u n c i l o f Canada's Major Equipment, O p e r a t i n g and S t r a t e ­ g i c G r a n t s programmes and t h e Connaught F o u n d a t i o n o f t h e U n i v e r s i t y o f T o r o n t o i s g r a t e f u l l y acknowledged. We w i s h a l s o t o acknowledge the d o n a t i o n o f h i g h p u r i t y and h i g h c r y s t a l l i n i t y z e o l i t e samples from D r s . E d i t h F l a n i g e n (Union C a r b i d e ) , N i c o l a s Spencer (W.R. Grace) and P a u l K a s a i (IBM) , as w e l l as h e l p f u l t e c h n i c a l d i s c u s ­ sions. The a s s i s t a n c e o f Ms. C a r o l i n e G i l i n o b t a i n i n g t h e f a r - I R s p e c t r a , and Mr. T e d Huber i n t h e s y n t h e s i s o f some o f t h e m a t e r i a l s is also greatly appreciated.

Literature Cited 1. Yermakov, Yu. I.; Kuznetsov, B.N.; Zakharov, Y.A., "Studies in Surface Science and Catalysis Vol. 8, Catalysis by Supported Complexes"; Elsevier; New York, 1981. 2. Bein, T.; Jacobs, P.Α., J. Chem. Soc. Faraday Trans. I. 1983, 79, 1819. 3. Bein, T.; Jacobs, P.Α., J. Chem. Soc. Faraday Trans. I., 1984, 80, 1391. 4. Schneider, R.L.; Howe, R.F.; Watters, K.L., Inorg. Chem., 1984, 23, 4600-4607. 5. Mortier, W.J., "Compilation of Extra Framework Sites in Zeolites"; Butterworth, 1982. 6. Schwartz, J.; Huana, T., J. Am. Chem.Soc.,1982, 104, 5244. 7. Corbin, D.R.; Seidel, W.C.; Abrams, L. Herron, N.; Stucky, G.D.; Tolman, C.A., Inorg. Chem., 1985, 24, 1800-1803. 8. Nazar, L.F.; Ozin, G.A.; Hugues, F.; Godber, J.; Rancourt, D., J. Mol. Cat., 1983, 21, 313. 9. These dimensions are based on the assumption that (i) the Co­ -ring distance will not be significantly different than that found in [η -C (CH3)6] Co+PF . This is true for the crystallographically defined (η -C H ) Cr, (Cr-ring = 1.61Å) and (η -C H )2Cr I- (Cr-ring = 1.60Å); Muetterties, E.L.; Blecke, J. R.; Wucherer, E.J.; Albright, T.A.; Chem. Rev., 1982, 82,499; and (ii) that the C-C and C-H bond distances and angles are not significantly different from those of [η -C (CH ) ] Co+PF -, Thompson, M.R.; Day, V.W.; Minks, R.F.; Muetterties, E.L.; J. Am. Chem.Soc.,1980, 102, 2979. 10. The cristallographic diameter is 7.4Å but the kinetic diameter of 8.1Å is the more applicable in this situation, Breck, D.W. "Zeolite Molecular Sieves"; Wiley Interscience; New York, 1974. 11. Fitch, A.N.; Jobic, H.; Renouprez, Α., J. Chem. Soc. Chem. Comm. 1985, p.284. 6

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12. Lechert, H.; Wittern, K.P.; Ber. Bunsenges Phys. Chem.,1978, 82, 1054. 13. Ozin, G.A.; Baker, M.D.; Godber, J. in "Heterogeneous Catalysis"; Shapiro, B. Ed.; Texas A and M University Press: College Station, 1984. See also reference 5. 14. Ozin, G.A.; Baker, M.D.; Godber, J., J. Phys. Chem., 1984, 88, 4902. 15. Ozin, G.A.; Baker, M.D.; Godber, J., J. Phys. Chem., 1985, 89, 305. 16. Ozin, G.A.; Baker, M.D.; Godber, J., J. Phys. Chem., 1985, 89, 2299. 17. Ozin, G.A.; Baker, M.D.; Godber, J.; Shiuhua, W., J. Am. Chem. Soc., 1985, 107, 1995. 18. Ozin, G.A.; Baker, M.D.; Helwig, K.; Godber, J., J. Phys. Chem., 1985, 89, 1846. 19. Ozin, G.A.; Baker, M.D.; Godber, J., Catal. Rev. -Sci. Eng., 1985, 27, 591. 20. Ozin, G.A.; Baker, M.D.; Godber, J., J. Am. Chem.Soc.,1985, 107, 3033. 21. Flanigen, E.M., in "Zeolite Chemistry and Catalysis"; Rabo, J.A., Ed.; ACS Monograph No.171, American Chemical Society: Washington, D.C., 1976. 22. Butler, W.M.; Angell, C.L.; McAllister, W.; Risen, W.M., J. Phys. Chem., 1977, 81, 2061. 23. Fischer, E.O.; Fritz, Η.Ρ.; Manchot, J.; Driebe, E.; Schneider, R., Chem. Ber. , 1963, 96, 1418. 24. Andrews, M.P.; Mattar, S.; Ozin, G.A., J. Phys. Chem., (in press). 25. Lechert, Η.; Wittern, K.P.; Schweitzer, W. Acta. Phys. Chem., 1978, 24, 201. 26. Haaland, Α., Topics Curr. Chem., 1975, 53, 1. 27. Robbins, J.L.; Edelstein, N.; Spencer, B.; Smart, J.C., J. Am. Chem.Soc.,1982, 104, 1882. 28. Warren, K.D., Struct and Bonding 1976, 27, 45. 29. Sohn, V.S.; Hendrickson, D.N.; Gray, Η.Β., J. Am. Chem. Soc., 1971, 93, 3603. 30. Ammeter, J.H., J. Magn. Res., 1978, 30, 299. 31. Somner, G.G.; Klug, H.P.; Alexander, L.E. Acta. Cryst., 1964, 17, 732. 32. Prins, R. Mol. Phys.,1970, 19, 603. 33. Hendrickson, D.N.; Sohn, V.S.; Gray, H.B., Inorg. Chem., 1971, 10, 1559. 34. Barr, T.H.; Watts, W.E., J. Organometal. Chem., 1968, 15, 177. 35. Rosenblum, M.; Santer, J.O.; Howells, W.G., J. Am. Chem. Soc., 1963, 85, 1450. 36. Lentzner, H.L.; Watts, W.E., J. Chem. Soc. Chem. Comm., 1970, p.26. 37. Karol, F.G.; Kavapinka, G.L.; Wu,C.;Dow, H.W.; Johnson, R.N.; Carrick, W.L., J. Polym. Sci. A-l, 1972, 10, 2621. 38. We find that low concentration pentane impregnation of (η C6H )2V into a wide range of rigourously pretreated zeolites (sodium and acid faujasities, Si/A1=1.25/1 to 3.8/1, and ALPO-5) yielded samples which displayed well defined epr spectra (level baselines, of Figure 11C) of vanadyl, VO+ the temperature and solvent dependence of which indicate the VO moiety to be 6-

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strongly bound to the zeolite. However, the vanadyl species generated in this way, although similar to that produced by intrazeolite O or H2O oxidation of (η -C H )2V, is nevertheless sufficiently different to suggest that the oxidant in the former involves framework oxygen or defect sites, rather than trace O2/H2O contaminants. 39.Using the SKM theory for the quantitative analysis of reflectance spectra as detailed by Klier (ref. J. Opt. Soc. Am., 62, 882 (1972), our preliminary estimates of the metallocene loadings in the samples of the present study, fall in the range of 0.5-2.5 molecules per unit cell. 6

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In Excited States and Reactive Intermediates; Lever, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 1986.