Leslie C. Smedley scite author profile

Leslie C. Smedley

5Publications

2Citation Statements Received

1Citation Statement Given

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Williams (United States), William & Mary

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Chemists as learners

Smedley¹

1987

J. Chem. Educ.

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The annual expenditure for employee training and continuing education for professionals is greater than all the funds devoted to higher education each year (1). Chemists, as employees and professionals, are part of the audience addressed in this massive continuing education effort.Course developers who wish to provide meaningful continuing education experiences for professional chemists must be aware not only of the topics that interest this audience but also of their characteristics as learners. While studies of scientists as learners (2) and of groups of managers as learners (3) have each included some chemists as subjects, a truly representative profile of professional chemists as learners has not been available.The research herein reported was undertaken to provide information about members of the American Chemical Society (ACS) as a group of learners. MethodThrough arrangement with the ACS Office of Membership Statistics and Planning, the names and addresses of 800 randomly selected full members of the Society living in the United States were obtained for the study.A questionnaire1 was designed and field tested to gather the following information about professional chemists: (1) selected demographic data, (2) their learning styles, (3) their preferences for continuing education course format, (4) their preferences for learning environment, and (5) the extent of their participation in professional continuing education courses.

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ChemInform Abstract: ALKYLATIONS OF ALKYNOLS WITH ORGANOALUMINUM REAGENTS PROMOTED BY BIS(η5‐CYCLOPENTADIENYL)TITANIUM DICHLORIDE

Smedley¹,

Tweedy²,

Coleman³

et al. 1978

Chemischer Informationsdienst

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Alkylations of alkynols with organoaluminum reagents promoted by bis(.eta.5-cyclopentadienyl)titanium dichloride

Smedley¹,

Tweedy²,

Coleman³

et al. 1977

J. Org. Chem.

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We have been interested in adapting the chemistry of titanium-aluminum based Ziegler-Natta catalyzed olefin polymerization to effect the alkylation of isolated unsaturated carbon-carbon bonds in a manner useful for ordinary (i.e., nonmacromolecular) organic Ziegler-Natta catalyst systems are potent alkylating agents toward olefinic and acetylenic linkages as evidenced from their widespread use in synthesizing linear stereospecific polyhydrocarbon~.~ However, single nonrepetitive alkylations of isolated carbon-carbon multiple bonds useful for extending the carbon framework in organic systems are not common. The paucity of research reported in this area is somewhat surprising if one accepts the idea that organic synthesis can be divided into the broad areas of (1) formation of carbon skeletons and (2) introduction, modification, andlor removal of functionalit? and that within these areas the first is generally the more diffi~ult.~ Recently, we have had some success in utilizing organoaluminum-titanium systems capable of polymerizing ethylene to alkylate alkynols to give olefinic Specifically, an alkynol such as 3-butyn-1-01 was incorporated into the complex (3-butyn-l-oxy)chlorobis(2,4-pentanedionato)titanium(IV), [Ti(OR)Cl(acac)2], and allowed to react with diethylaluminum chloride at -78 "C. After hydrolysis a -%"o yield of the terminally alkylated cis-addition product trarzs-3hexen-1-01 was obtained. Several additional alkynols were alkylated, and in all cases the alkyl group added to the carbon furthest from the hydroxyl functionality and gave the cisaddition product.In this paper we wish to report a new alkylation system which gives significant improvements in yields and synthetic convenience and also demonstrates the potential for control of regiospecificity through variation of ligand environments. In previous work it was necessary to first synthesize and isolate a titanium-alkynoxy complex, [Ti(OR)Cl(acac)2], by the re-action of [TiCl2(acac)z], alkynol, and pyridine. The pyridinium chloride was filtered from the reaction mixture, and the complex was then isolated from the filtrate. A much simpler procedure would be the addition of an alkynol to a solution of the organoaluminum reagent liberating an alkane and generating an [A12(0R)R,Cl+x] species which subsequently could be added to a solution of [TiCl2(acac)z]. Through ligand exchange this system might become equivalent to the initial one and thus eliminate the inconvenience of preparing the titanium-alkynoxy complexes. Attempts to effect alkylation by this latter route were unsuccessful. However, upon replacing [TiCl2(acac)z] with titanocene dichloride, CpzTiClz, in the 3-butyn-1-01-diethylaluminum chloride system a 55% yield of the ethylated products trans-3-hexen-1-01 (I) and 3-ethyl-3-buten-1-01 (11) (ca. 5050) was obtained as represented in reactions 1 and 2. On lowering the quantity of CpzTiCl2 relative to 3-butyn-1-01 yields improved significantly (see Table I). Using 10 mol % of CpzTiClz, 80-90% yields of ethylated products were obtained with the r...

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The insertion of 3-buten-1-OL into metal—alkyl bonds utilizing typical titanium—aluminum ziegler—natta catalysts

Tweedy

Hahn

Smedley

et al. 1978

Journal of Molecular Catalysis

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Recreating some early work in chemical spectroscopy: A freshman chemistry laboratory exercise

Smedley¹

1982

J. Chem. Educ.

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Leslie C. Smedley

Chemists as learners

ChemInform Abstract: ALKYLATIONS OF ALKYNOLS WITH ORGANOALUMINUM REAGENTS PROMOTED BY BIS(η5‐CYCLOPENTADIENYL)TITANIUM DICHLORIDE

Alkylations of alkynols with organoaluminum reagents promoted by bis(.eta.5-cyclopentadienyl)titanium dichloride

The insertion of 3-buten-1-OL into metal—alkyl bonds utilizing typical titanium—aluminum ziegler—natta catalysts

Recreating some early work in chemical spectroscopy: A freshman chemistry laboratory exercise

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