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[求助] 谁可以告诉下我这个改进hummer的方法具体是怎样的。

Kovtyukhova, N. I.; Ollivier, P. J.; Martin, B. R.; Mallouk, T. E.;
Chizhik, S. A.; Buzaneva, E. V.; Gorchinskiy, A. D. Chem. Mater. 1999,
11, 771.
很多文章都是用这个方法，可是我找不到原文，如果有，万分感谢

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1楼 2012-07-24 08:52:20

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4楼: Originally posted by xiejf at 2012-07-24 10:23:38
专业板块不让求文献，我复制过来的，你要是想要全文，站内发给我邮箱，我发给你。

您好，请问您还能找到这篇文献吗？Kovtyukhova, N. I.; Ollivier, P. J.; Martin, B. R.; Mallouk, T. E.;Chizhik, S. A.; Buzaneva, E. V.; Gorchinskiy, A. D. Chem. Mater. 1999,
11, 771.急求！！！

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5楼2015-11-19 16:12:20

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★
感谢参与，应助指数 +1
蒋青松: 金币+1, 鼓励下 2012-07-25 07:53:39

Experimental Section
Materials. GO was synthesized from natural graphite
powder (325 mesh, GAK-2, Ukraine) by the method of Hummers
and Offeman.18 It was found that, prior to the GO
preparation according to ref 18, an additional graphite oxidation
procedure was needed. Otherwise, incompletely oxidized
graphite-core/GO-shell particles were always observed in the
final product. The graphite powder (20 g) was put into an 80
°C solution of concentrated H2SO4 (30 mL), K2S2O8 (10 g), and
P2O5 (10 g). The resultant dark blue mixture was thermally
isolated and allowed to cool to room temperature over a period
of 6 h. The mixture was then carefully diluted with distilled
water, filtered, and washed on the filter until the rinse water
pH became neutral. The product was dried in air at ambient
temperature overnight. This preoxidized graphite was then
subjected to oxidation by Hummers’ method. The oxidized
graphite powder (20 g) was put into cold (0 °C) concentrated
H2SO4 (460 mL). KMnO4 (60 g) was added gradually with
stirring and cooling, so that the temperature of the mixture
was not allowed to reach 20 °C. The mixture was then stirred
at 35 °C for 2 h, and distilled water (920 mL) was added. In
15 min, the reaction was terminated by the addition of a large
amount of distilled water (2.8 L) and 30% H2O2 solution (50
mL), after which the color of the mixture changed to bright
yellow. The mixture was filtered and washed with 1:10 HCl
solution (5 L) in order to remove metal ions. The GO product
was suspended in distilled water to give a viscous, brown, 2%
dispersion, which was subjected to dialysis to completely
remove metal ions and acids. The resulting 0.5% w/v GO
dispersion, which is stable for a period of years, was used to
prepare exfoliated GO.
Exfoliation was achieved by dilution of the 0.5% GO dispersion
(1 mL) with deionized water (24 mL), followed by 15 min
sonication. The resulting homogeneous yellow-brown sol,
which contained 0.2 g/L GO, was stable for a period of months
and was used for film preparation.
An aqueous solution (0.01 M) of poly(allylamine hydrochloride),
PAH, (Aldrich, MW ) 50 000-65 000) was adjusted to
pH 7 with NH3 and was used for growth of polycation layers.
An aqueous solution of doped polyaniline (PAN) was made
from a saturated solution of the emeraldine base form in
dimethylformamide. A 3 mL portion of this solution was slowly
added with stirring to 26 mL of water, which had been acidified
to pH 3.5 with aqueous HCl. The pH of the final PAN solution
was then adjusted to 2.5 by addition of aqueous HCl. The aluminum
Keggin ion Al13O4(OH)24(H2O)12
7+ was prepared trom
Al13O4(OH)25(H2O)11(SO4)3ax(H2O), which was available from
a previous study.5 Briefly, 0.102 g of the sulfate salt was added
to a solution of 0.042 g of BaCl2 in 200 mL of water and stirred
overnight. The resulting 0.3 mM solution of the chloride salt
of the aluminum Keggin ion was filtered using a 0.2 ím filter.
Polished (100) Si wafers were sonicated in CCl4 for 15 min
and then rinsed with 2-propanol and water. Their surface was
then hydroxylated by 30 min sonication in “piranha” solution
(4:1 concentrated H2SO4:30% H2O2) (CAUTION: piranha
solution reacts violently with organic compounds!) and was
rinsed sequentially with water, methanol, and 1:1 methanol/
toluene before the surface derivitization steps began.
Aluminum foil, Al-coated glass, both bearing a native oxide,
and ITO glass were cleaned by washing with hexane for 15
min prior to GO adsorption.
Multilayer GO/PAH Film Growth. Hydroxylated silicon
wafers were primed with one of three different types of cationic
monolayers in order to initiate the growth of the GO films.
This was achieved either by (1) reacting with 4-((dimethylmethoxy)
silyl)butylamine (15 h treatment with a 5% toluene
solution under dry Ar, over KOH at ambient temperature) or
by (2) adsorbing a monolayer of aluminum Keggin ions (5 min
adsorption from aqueous solution of the chloride salt at 80 °C19)
or by (3) adsorbing PAH (15 min adsorption from a 0.01 M
aqueous solution at pH 7 and ambient temperature). The
primed Si substrates (1, 2, and 3) are designated hereafter as
Si(NH2), Si(OH)/Al-Kg, and Si(OH)/PAH, respectively.
The primed substrates were immersed in an aqueous (pH
5) or aqueous ammonia (pH 9) GO sol (0.2 g/L) for 15 min and
then rinsed with deionized water and dried in flowing Ar. The
samples were then immersed in aqueous PAH solutions for
15 min, rinsed with deionized water, and dried in flowing Ar.
Multilayer GO/PAH films were grown by repeating these
adsorption cycles. Preliminary experiments had shown that
the thickness of a deposited layer (estimated by ellipsometry)
does not depend on the substrate/solution contact time in the
range from 2 min to 2 h. For electronic measurements,
multilayer (GO/PAH)14 and (GO/PAN)30 films were grown on
ITO in similar adsorption cycles. For comparison purposes, a
GO colloid film (ca. 90 nm thick) was prepared by dip-coating
the ITO/glass in the GO colloidal dispersion.

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2楼2012-07-24 10:00:00

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2楼: Originally posted by xiejf at 2012-07-24 10:00:00
Experimental Section
Materials. GO was synthesized from natural graphite
powder (325 mesh, GAK-2, Ukraine) by the method of Hummers
and Offeman.18 It was found that, prior to the GO
preparation a ...

非常感谢。。。

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3楼2012-07-24 10:20:46

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【答案】应助回帖

专业板块不让求文献，我复制过来的，你要是想要全文，站内发给我邮箱，我发给你。

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4楼2012-07-24 10:23:38

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