Aluminum isotopes

Figure 12 Nitrogen, oxygen, carbon, and aluminum isotopic ratios measured in individual low-density graphite grains. Also shown are data for presolar Si3N4 and Sic grains of type X (source Zinner, 1998a).

Write isotopic symbols of the form zX for each isotope. (a) the oxygen isotope with 8 neutrons (b) the fluorine isotope with 10 neutrons (c) the sodium isotope with 12 neutrons (d) the aluminum isotope with 14 neutrons 88. Write isotopic symbols of the form X-A (for example, C-13) for each isotope. (a) the iodine isotope with 74 neutrons (b) the phosphorus isotope with 16 neutrons (c) the uranium isotope with 234 neutrons (d) the argon isotope with 22 neutrons... 

With this nomenclature, the notation 13-A1-27 represents stable aluminum as found in nature. If you look at a Chart of the Nuclides, you will find there are 11 different aluminum isotopes (all are aluminum because they have 13 protons, but they have masses from 23-33 They are all isotopes of aluminum, and all but 13-A1-27 are radioactive isotopes --radioisotopes). Since only aluminum has 13 protons in the nucleus, we often leave the Z value off the notation, such as Al-27. Some of our information sheets have the entries arranged in order of increasing Z, so it is helpful to remember about what the atomic numbers of different elements are to make it easier to find entries in tables. 

Beryllium has a high x-ray permeabiUty approximately seventeen times greater than that of aluminum. Natural beryUium contains 100% of the Be isotope. The principal isotopes and respective half-life are Be, 0.4 s Be, 53 d Be, 10 5 Be, stable Be, 2.5 x 10 yr. Beryllium can serve as a neutron source through either the (Oi,n) or (n,2n) reactions. Beryllium has alow (9 x 10 ° m°) absorption cross-section and a high (6 x 10 ° m°) scatter cross-section for thermal neutrons making it useful as a moderator and reflector in nuclear reactors (qv). Such appHcation has been limited, however, because of gas-producing reactions and the reactivity of beryUium toward high temperature water. 

Surface water enrichment is the result of aeolian and fluvial inputs, which are thought to be the most important sources of Th to the ocean. Thorinm-232 has been proposed as a link between the radiogenic thorium isotopes and trace metals and anthropogenic pollutants. " While the pathways are very different for the radiogenic thorium isotopes, Th is delivered to the ocean in a fashion similar to many pollutants and trace metals. For example, Guo et found Th distributions in the Gulf of Mexico and off Cape Hatteras in the North Atlantic Ocean agreed well with the general distribution pattern of aluminum. 

Aluminum methyl Iodine azide Radio isotopes, gamma emitters... 

The isotopic purity of the products from a lithium aluminum deuteride reduction is usually equivalent to that of the reagent. The presence of moisture has little effect on the isotope composition of the products, causing only the decomposition of some of the reagent. For the best results, however, it is advisable to distill the solvent— usually ether, tetrahydrofuran or dioxane depending on the desired reaction temperature—from lithium aluminum hydride directly into the reaction flask. In this manner the reduction of 3-keto-5a-steroids (60), for example, gives the corresponding 3a-di alcohols (61) in 98% isotopic purity. ... 

The treatment of ketoximes with lithium aluminum hydride is usually a facile method for the conversion of ketones into primary amines, although in certain cases secondary amine side products are also obtained. Application of this reaction to steroidal ketoximes, by using lithium aluminum deuteride and anhydrous ether as solvent, leads to epimeric mixtures of monodeuterated primary amines the ratio of the epimers depends on the position of the oxime function. An illustrative example is the preparation of the 3(x-dj- and 3j5-di-aminoandrostane epimers (113 and 114, R = H) in isotopic purities equal to that of the reagent. 

The successful labeling of the elusive 14a-position in cholestane represents a very important application of this reaction.It is known that hydroboration of the double bond in 5of-cholest-14-ene (174) occurs on the a-side. Consequently, by using deuteriodiborane (generated by the reaction of boron trifluoride etherate with lithium aluminum deuteride) and then propionic acid for hydrolysis of the alkylborane intermediate, 14a-d,-5a-cholestane (175) is obtained in 90% isotopic purity. This method also provides a facile route to the C-15 labeled analog (176) when the alkylborane derived from 5a-cholest-14-ene is hydrolyzed with propionic acid-OD. ... 

Some advantages of this reaction are high yield if the tosylate is in a sterically accessible position excellent isotopic purity of the product (usually higher than-95%) and perhaps most important, access to stereospecifically labeled methylene derivatives. For example, deuteride displacement of 3j -tosylates (183) yields the corresponding Sa-d derivative (185) in 96-98% isotopic purity. Application of this method to the labeled sulfonate (184), obtained. by lithium aluminum deuteride reduction of a 3-ketone precursor (see section HI-A) followed by tosylation, provides an excellent synthesis of 3,3-d2 labeled steroids (186) without isotopic scrambling at the adjacent positions. The only other method which provides products of comparable isotopic purity at this position is the reduction of the tosyl-hydrazone derivative of 3-keto steroids (section IV-B). 

A facile method for the stereospecific labeling of carbon atoms adjacent to an oxygenated position is the reductive opening of oxides. The stereospecificity of this reaction is due to virtually exclusive diaxial opening of steroidal oxides when treated with lithium aluminum hydride or deuteride. The resulting /ra/w-diaxial labeled alcohols are of high stereochemical and isotopic purity, with the latter property depending almost solely on the quality of the metal deuteride used. (For the preparation of m-labeled alcohols, see section V-D.)... 

Lithium aluminum deuteride reduction of the 2a,3a-oxide function has been carried out with a number of different 5a-steroids (227). ° The isotopic purity of the resulting 2 -d,-3a-ols (228) is usually 96-100%. By mild oxidation, under Jones conditions, these alcohols can be converted into stereospecifically labeled monodeuterio ketones (229) ° of high isotopic purity. (For an alternate preparation of certain a-monodeuterio ketones, see section VI-B.)... 

A mixture of lithium aluminum deuteride and aluminum chloride is a more powerful reducing agent than lithium aluminum deuteride itself. This is well illustrated by the opening of ring F in 5a-spirostan [(230) (231)] which otherwise is quite stable to lithium aluminum deuteride. The resulting 22-di-26-hydroxy-5a-furostan (231) exhibits better than 97% isotopic purity. 

The reaction proceeds via a cyclic TS involving coordination of both the alcohol and ketone oxygens to the aluminum. Computational (DFT) and isotope effect studies are consistent with the cyclic mechanism.190 Hydride donation usually takes place from... 

Therefore, another analogous reaction was studied with a more reactive olefin, viz. methyl acrylate, which reacts with (+)-methylneophylphenyltin deuteride (86) at room temperature and yields after 18 h again an optically inactive adduct which is reduced with lithium aluminum hydride to give racemic isotopically labeled (55) 44). After 18h in the presence of AIBN at room temperature, (86) only loses 30% of its optical activity in benzene. The fact that the obtained adduct is optically inactive might be due to the nucleophilicity of methyl acrylate, which might be important enough to cause the racemization of (56). 

Tin hold the record with 10 stable isotopes. There are 19 so-called "pure elements" of which there is only one isotope. These anisotopic elements are beryllium, fluorine, sodium, aluminum, phosphorus, scandium, manganese, cobalt, arsenic, yttrium, niobium, rhodium, iodine, cesium, praseodymium, terbium, holmium, thulium, gold, and bismuth. 

A second type of defect is associated with boron or aluminum impurities that are present in SiCh- In porous glass Muha (129) observed a rather complex spectrum which results from hyperfine interaction with 10B and UB isotopes. The spectrum is characterized by g = 2.0100, g = 2.0023, an = 15 and a a. = 13 G for nB. The paramagnetic defect is apparently a hole trapped on an oxygen atom which is bonded to a trigonally coordinated boron atom. This center is irreversibly destroyed upon adsorption of hydrogen. 

Igalson J, Adler JG (1983) Effect of hydrogen-isotope implantation on aluminum oxide tunnel-junction barriers. Phys Rev B 28 4970-4975... 

Recent examples of the use of SIMS in plant science include the measurement of metals in tree rings (23), aluminum in soybean roots (24), a variety of elements in soybean leaf (25), and nitrogen in yeast and soybean leaf (26). The latter paper also demonstrated the advantage of SIMS in distinguishing between different isotopes of the same element (15N and 14N). 

Fig. 14.3 Three isotope plot of calcium-aluminum oxide inclusions in chrondrite meteorites compared with the terrestrial fractionation TFL line. For TFL m 0.5, the meteoric line shows m 0.9 (The data are from Clayton, R. N. et al., Earth Planet. Sci. Lett. 34,209 (1977) Geochim. Cosomochim Acta 63, 2089 (1999). Thiemens, M., Ann. Rev. Earth Planet. Sci. 34, 217 (2006))... 

MacPherson GJ, Huss GR, Davis AM (2003) Extinct Be in type A calcium-aluminum-rich inclusions from CV chondrites. Geochim Cosmochim Acta 67 3615-3179 Matthews GJ, Cowan JJ (1990) New insights into the astrophysical r-process. Nature 345 491-494 McCulloch MT, Wasserburg GJ (1978a) Barium and neodymium isotopic anomalies in the Allende meteorite. Astrophys J 220 L15-L19... 

Laser ablation combined with LA-MC-ICPMS provides a new dimension to the analysis of Mg isotopes in calcium aluminum-rich inclusions from primitive meteorites. Dispersion in 26Mg - Al/ Mg evolution lines can be correlated with mass-dependent variahons in 5 Mg that distinguish open-system from closed-system processes. The ultimate product of such studies will be a better understanding of the chronological significance of variations in Mg in these objects. 

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