Instrumental analysis laboratory experiments - ACS Publications

A New GC-MS Experiment for the Undergraduate Instrumental Analysis Laboratory in Environmental Chemistry: Methyl-t-butyl Ether and Benzene in Gasoline...
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Seneca Falls, NY 13148

Price in US. $/kg

Are All Those Sugars Really Important?

a

Hugh Akers

Lamar Umversity Beaumont, TX 77710

Sugar

After reading a number of organic texts that referred to various sugars as the "most prestigious or famous." an attempt was madeto rank the "imiortanie" of the monosaccharidks based on the extent of their distribution, occurrence, or use. Two measures of this idea, the price1 and the number of references2 to a particular sugar, are listed in the table below. An ohvious feature is the inverse relationshin between the cost of the natural D-form and the numher of publications involving the different sugars. The sugars fall into two categories. The first nine listed are expensive in the D-form, are normallv unavailable commerciallv in the L-form. and are prepared from other sugars or isolated from unusual materials. The occasional uawer that mentions these sunars is concerned mainly with biooiganic chemistry (conformation analysis) versus conventional biochemistry. The second nine sugars include the "common" monosaccharides, are referenced most frequently, and are generally available in the D and L-forms. Some apparent exceptions to this pattern require explanation. L-Arahinose, a plant polysaccharide component,3 is the most orevalent form of that suear in nature. D-Arahinose.~ an in" -~ significant sugar in nature, is relatively inexpensive because i t can be obtained from a D-glucosederivative.4~-Sorbose,an uncommon sugar in nature, is readily available because i t is a precursor of vitamin C.5 ~

~

o-form

Psicose

form

NA

NA 400,000

600.000 600.000 350.000 272.000 240,000 58,000 23,000 12,400 2.700 NA 265 144 89 71 23 8.4

Gulose Xylulose ldose Ribulo~e

Allrose Allose

Tagatose Talose Lyxose Sorbose Ribose Arabinose Mannose Xylose Galactose Fructose Glucose

References in Chem. Ab~t.~

NA NA NA NA

24 32 12

NA NA NA 4.720 24 39,600 86 17,800 1,230

90,000 NA

1.0

30

8,400

16 8 30

26 30 101

215 580 621

820 904 1607 2333 11330

Prices auoted were derived from the 1980 Adams Chemical Co., Calbiochem-Behrina Carp.. ICN ~harmaceufaals.Inc, Sigma Chemical Company. or Vega Biochemicals c b

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"Chem Sources-U.S.A.,"Directories Publishing Co., Inc., Ormond Beach. Florida. 1980. Chemical ~ i x t r x t sNmth . Co!/cc!,vc lnmw ,Voi 76 851 Cnemca Substance Index. American Cncm cal Soc cly. Co1.mo.s. On o 432 10. 1978

Hudson, C. S., J. Amer. Chem. Soc, 73,4039 (1951). Fletcher, H. G., et al., J. Amer Chem. Soc., 72, 4546 (1950) EDUC., 36, 60 (1959). Perirnan, D., J. CHEM.

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.

are not commercially availeble. /See footnote 1.1 b ~ h number e of references listed are those in the Chemical Substances Index of the ninth collective index of (See footnote 2.1 Derivatives were not conhowever, references to all a. o. i,as well as furanase. and pyranore ring forms were included in the tabuiafion.

chemical ~bstracb.

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Separating Copper and Cadmium in QualitativeAnalysis Don W. Hayden University of Wisconsin Center-Fox 1478 Midway Road Menasha WI 54952

Valley

Richard L. Hunt

Instrumental Analysis Laboratory Experiments Jeffrey A. Hurlbut Metropol~tanState College, Denver. CO 80204

The instrumental analysis lahoratory is a difficult course to teach because of several factors. The students have varied backgrounds, the equipment and chemicals are expensive, the instruments are in constant demand. the class sizes are laree. and there are few instrumental lahoratory manuals. ~ e c a i s e of these factors we devised our own instrumental analysis laboratory scheme. This lahoratory scheme consisted of over 20 experiments from which the students selected any six or seven during the semester; they performed those experiments which interested them: and thev worked in small zrouws. Five or six experiments wer;available in eachbf the following areas: chromatography, absorbance, electrochemistry, and miscellaneous. We would like to make a copy of our 35page laboratory manual availahle to those who are interested. We have had excellent results with this approach, and the use of the ten to fifteen instruments was evenly spread out over the semester.

Morehead State University Morehead. KY 40351

We suggest a different method for the separation of copper and cadmium in qualitative analysis which is based on the reductive precipitation of copper(I1) as copper(1) thiocyanate, using an iodide-thiocyanate solution.' This procedure eliminates the hazards of the cyanide ion used in the traditional method, and it is less delicate than the dithionite method often used as an alternative. An outline follows for the procedure, to be modified dewendent on samwle size. The traditional method for crronw.I1 is followed up tothe separation of hismuth(II1) using an excess of 6 M NHs after checking for completeness of precipitation. After centrifugation and removal of the hismuth(II1) precipitate, the traditional decision, based on the color of the decanted solution is made. Cadmium(I1) is tested for directly by the addition of ammonium sulfide if no blue color is ohserved. If a blue coloration is present, copper(I1) is removed before the test for cadmium is made. Hammock and Swift, Anal. Chem., 21,975 (1949). Volume 59

Number 1 January 1982

59