The modification of sucrose chars by permanganate

Materials Chemistry and Physics, 21 (1989)

THE

MODIFICATION

A.S.

Glass

and

Department New

SUCROSE

M.J.D.

of

York,

Received

OF

Low

Chemistry,

N.Y.

507

CHARS

BY

PERMANGANATE

# New

10003

October

501-520

York

University,

4 Washington

Place,

(U.S.A.)

13,

1988;

accepted

November

8,

1988

ABSTRACT Three sucrose-based chars equivalent to low-, medium-, and hightemperature chars were oxidized with aqueous KMn04 solution in order to explore textural changes caused by the oxidation. The reaction caused the chars to become covered with hydrated MnO which was then dissolved with HCl. Some HCl, however, became boun $ to the chars and had to be removed by boiling them in distilled oxidation leads to impure materials water. In general, the KMn04 containing reaction detritus and bound chlorine which must be carefully removed by washing/boiling steps. The oxidation caused the N2 specific surface areas (SSA) of the samples to decrease and The treated samples were thermally changed their porosities. unstable; degassing them in the 200-400°C range increased the before and after oxidation, were also reacted SSAs. The chars, with HCl or NaOH solutions to test their surface acidity; the samples become more acidic in terms of the amounts of base neutralized, but the acid/base titration data are of dubious value because of the retention of HCl by the chars and because the NaOHchar mixtures were cloudy after centrifugation, i.e., the reaction with base caused some reaction detritus to be released. In oxidation does change the texture and general, although the KMn04 the method is a poor one because surface properties of the chars, of its complexity and should be avoided. INTRODUCTION It

is

well

oxidizing as

well

been

known

agent; as

it

inorganic

reviewed

degradation coals;

these

that

has

the

been

materials.

by

Stewart

procedures

using

have

been

workers.

Permanganate

carbons,

although

to

permanganate W:

to

whom

0254-0584/89/$3.50

solutions inquiries

The [l]

should

used be

an

Lee

have

Hayatsu

extent. as

as

The

al.

has

Oxidative

been

used

with

who

cite

used

with

[3], been

decolorizing

empirical

strong organic

reactions

[2].

also

a

with

of

also et

have

is

such

variety by

solutions

lesser is

wide and

by

ion

used

permanganate

reviewed

numerous

a

permanganate

extensively

of

industrial

aqueous test

of

directed. 0 Elsevier Sequoia/Printed

in The Netherlands

the

activity

of

carbons

of

altered

when

of

nature

the

reactants,

its

and

by

a

that

of

(SSA) upon

Mukherjee least,

oxidized

carbon

solutions

Bhattacharya

clear

implication

of

and is

that

Parenthetically,

particles

of

acid

with

black

particles

If then

permanganate alterations should

In

be

been et

products

in

some

+

NaN03

upon

standing

gross

been

the

at

boiled [9].

The

that

small

of

nitric

reaction

hold

[13].

morphological

reported

to

be

experiments had

by

cement

to

areas

substantially

carbons

. [15]

paid about

seems surface

KMn04

some

al

formed as

oxidation in

the

viewed such

contrast,

unit

weight

[8-111.

then

render

the

out

some

in

Possible

results

terms

to

lead

of

to

larger,

oxidized

textural

changes,

changes

to

explore

per

been

in In

properties

activity

have

uncertain.

treatment,

sucrose-derived

were

chemical/adsorptive

comparisons

experiments

permanganate

have

than

been

be brought

result

of

appeared

Voet

acted

which

acidic

together.

a

carbon

sediments

blacks

any

area.

or

organic

have

specific

that,

in

more

decreased

KMn04

view

a permanganate-

to

might

the

mentioned

degradation

channel

be

samples of

there

changes.

that

solutions

that

would

clear

In

with

that

appears

only

that

chemically

[6-141.

find

which

the

different

filtrates

not

carbon

a carbon

reported

demonstrated become

permanganate to

attention

who

with

and

the

of

been

solutions

of

oxidation;

three

has

fibers,

unexpected

little

inthetexture

of

it

permanganate

be

However,

Matsumura,

and

reactions

not

consequently

treatment

were

the

permanganate of

51,

including

with

would

precursor.

to changes

[4,

types,

treated

it

treated

carbons

various

the

view

made

that

textural

and

describe

for

the

unit

on

carbon's of

some

of

the

surface basis

texture we

have

changes results

the

of

would carried

caused obtained

by with

chars.

EXPERIMENTAL

The was

starting

material

commercial

Scientific

Reagent

Co.,

dehydration

has of

experimental be

termed

degassing

FSD, at

by

were and 500°C

NJ.,

been

sucrose

work

FSD

Grade

Fairlawn,

manufacturer,

preparation

or

by

concentrated

at

900°C

the

carbons in --

dry

samples (Fisher

according

to

the

room-temperature acid.

charcoal,

which vacua;

carbon

Charcoal

which,

sulfuric

as-received, other

all

Sugar

700198)

prepared

the

two

Fisher lot

of

were air

was

Samples which prepared then

for will by

slowly

509

bled

into

are

the

preparation

termed

FS5000

equivalent 173.

to

As

they

low-,

were

materials

(distilled

water

with

on

water

Filter-paper dried

The of

with

KMnO4. mixture

was

at

while

FS500

this

left

Mn02

for

of

1

and

filtrate

gave

air-dried

at

are

termed

treatment taken 5M

up

HCl

found with or

the

to

significant

400°C,

oxidized,

with a

weight

HCl

which

presence

of

These

cool, Cl-

in

samples

code,

e.g.,

An

FSP,

stand

Mnt2

have

such

with

the

wash

are

designated

FS500PHB.

HCl

might

samples, washed

prepared

water

For

was by

by to

of

and

soaked

For

400,

letter

by

an

the

at

In

present in

water, The

llO°C.

testing

FS,

Irish

found.

it

8 appended some

500,

retained,

boiled

dried

in and

example,

at were

on

be

carbons samples

was

were

HCl

could

carbonizing

followed the

the

their

remained

and

treatment

HCl

retention

HCl the

NaBi03),

anthracite

by

FS9OOP 36M

until

this

that

HCl

remove

or

ml

retained.

comparison,

3 days,

to

water

had

samples

water,

air-

subjected

order

10

in

percent

percent

for

FS5OOP,

of

an

weight

the The

and

Unfortunately,

[18]

carbonizing 0.72

in

with

were

solid and

Samples

(oxidation

HCl

gram

water,

in

content

of

was

temperature.

subjected

et al --A ash

which

FS9OOP.

acid

to

batches

to

oxidized

complexity

a carbon

2.8

are

solution

with

and

FS900PH.

the

by

and

materials

1.106

the

with

Samples and

and

acid-treated to

for

amounts

1.07,

remove

allowed

left

Blayden

prepared

times

Microfiber

employed

7 days.

FS5OOP

additional

reduce

water four

filtering)

water

room

repeatedly

tests

carbons:

order

was

overnight.

an

at

oxidation.

washed

negative

Similarly,

to

then

llO°C

0.83,

at

the

to

were

treated

gram

of

washed

for

FSP,

were

0.2

was

a sample

order

sample

oxidized

FS500PH,

that

resp..

Ag+.

FS900

FSPH,

by

900°C,

peat

samples

introduces

in

a shaker

FS

during

three

GF/A

all

and

added

overnight.

termed

ml

H2S04

was

on

were

for

samples

93

1.78M

solid

approx.

hr.

ml

stand

are

[16,

the

washed

starting

FS900 of

sample

samples

produced

and

the

and

oxidized

sample

FS500

filtered,

llO°C

carbons

FS900.

7.0

to

then

are

distilled

Whatman

used

These

llO°C.

samples

chars

solutions,

were

with

were

consisting

carbon

treatment

The

FS,

three

with and

fitted

and

stirring,

was

dried

at

each

A half-gram

mixture

air

of

[ll]

aqueous

pre-treated

filters

These

These

high-temperature

with

funnel

FS500,

oxidations

temperature.

throughout),

inert

FS,

solutions

added,

to

a Buchner

as

and

were

in

room resp..

treated

used

(these

designated

be

was

overnight

at

FS9000,

medium-,

to

starting

tube

and

to

FS500

with the and

510

FS900

samples

were

dried.

These

samples

The

N2

BET sample)

sorption

apparatus

instrument

(

apparatus)

was

prior

to adsorption

The

SSAs

0.35.

3 results The 0.1

being

mg)

made

having

made

The

done

at

the

4

or

5

values

SSAs

value

from

by

300, 350,

at P/P,

deviation

the

the

of

3

of the mean

of

was

determined

as follows,

the

mixture

supernatant

or base

been

SSAs,

and

sample.

deviation

The

was

values

or

24 hrs

was

then with

of micromoles

were

the

for

titrated calculated

data. Two

Typically,

to

solution

The mixture

neutralized titration

(weighed

NaOH

to stand

liquid

solution.

had

100 mg

left

temperature.

at room

the

ml

by

of from

or three

trials

yielded

values

results

of 6 X.

and

Although

Solids

is placed

on gaining

oxidation

might

the

pertinent

treatments,

other

affect

method

oxidation

methods

emphasis

texture some

have and

the

of

understanding

the

to describe as these

oxidation wet

some

of the

of the

bearing are

of

a

treated

observations

on the

probably

involving

the

how

utility

useful

the

in

use of

oxidants. first

reduced.

washing

and

which

particular

purple-colored been

sample

shaking

each

data

measure

about

it seems

considering strong

the average

was

250,

The average

0.1273M

Mixtures work

during

of this

to

sample.

of

solution,

permanganate carbons,

was

to degas

AND DISCUSSION

Reaction present

done

the

of

with

same

6 %.

each

weights,

and

isotherm,

sample

an average

RESULTS

from

100

or of base

m*/g

NY). The

Degassing

A

acid

were

isotherms,

desorption

used,

of

a Quantasorb

Syosset,

in

standardized

units

with

immersed

automatic

sample

in

procedures.

and

the

some

was

and

FS900H.

adsorption/desorption

calculated

what

about

centrifuged, acid

(SSA,

measured

Corp.,

of a particular

of

was

HCl

0.1509M with

were

was

acidity

conventional

area was

and

N2 for 14 hrs. at 200,

on the

Usually

portions

(but not boiled),

measurements.

in flowing

3 determinations

+

to measure

pressures

separate

sample

(Quantachrome

used

a sample

below

washed FS500H,

chromatographic-type

keeping

4OOOC.

HCl, FSH,

surface

of each

a

samples

relative

with

are termed

specific

degassed

or

treated

gave

filtering

and

filtrate, The

next

a bright

washing

indicating washing

gave

yellow-colored

of that

FSP not

a clear filtrate.

with all

water

of the

filtrate;

gave MnOi

the

Apparently,

a had

third as the

511

pH

increased,

The

yellow

but

a

some color

pale

over

20

yellow

was

soluble

ethanol

Immersing

FSP

is

placed

and

the test get

the

yellow

in

in

the

on

a

)

solubilized.

after

centrifuged, when

hotplate. and

washings,

filtrate

was

remained

HCl

or

successive

filtrate

dryness not

with

present

residue

this

the

Cl-,

the

That

gave

a

yellow

residue

was

a positive

no

Analogous

brown

water,

test

then

a second

a pale

but The

filtrate, boiled

a second clear.

general,

FS9OOP

samples

samples

with

and

the

held

step

release

washed

the

out

was

for

but

was

of

fairly

expected the

firmly

by

were

also

of

additional

and

flushed

mixtures

the

release

yellowish away.

The

Cl-

detritus nature

of

was

the but

the

gave

FSSOOP

and these and which

also

FS900PH

which

not

filtrate

products

because of

yellow

deposited

HCl and

pale

was

Treating been

However,

FS500PH,

brown

FS900PH

FSP,

mixtures. had

the

of

untreated be

a

was

was pale

until and

with

Cl-

then

a

a

positive

washed for

gave

degradation away.

FSPH,

caused

and

filtrate

water

which

yellow/brown flushed

only

to Mn02

For HCl,

so the sample

FS500PH,

FSPH,

otherwise

and

apparently not

with

but

be

out

washed of

dissolved

release

negative,

samples.

and the

the

filtrate

tested

in

Boiling

was

of

The

positive

washings

in

first

boiling.

which

golden-brown

positive.

Cl-

washed

would HCl

a

mins.

concentrated

boiled

tested

order

the

yellow

other

in

was

water

filtrates for Mn +2 .

washed

latter

boiling

time

tests

be

Cl-

test

with

but

In 20

water.

second

filtrate

which

gave

All

In

to

yellow FS500PH

several

for

the

became

led

also

test but

negative

pale

for

bright

immersed

filtered

clear,

after

with

the

made

were

filtrate

after

the

hydrated

washings.

boiled

FSP

after

been

After

yellow

FS900PH

filtrate,

present

had

obtained.

than

washing

greenish

was

appeared

many

twice

a

when

golden-yellow

darker

was

FS5OOP

obtained.

could

Cl-

in

mixture

filtrate

were

from

this

after

colored

observations

were

yellow.

samples

after and

Cl-

the

positive

was

resulted is obtained

When

water,

was

resulted

and

example,

with

color

HCl

mixture

solution).

remained

filtrate

which

clear

HCl

Cl-

of

The

filtrate

for

concentrated greenish

washed

for

boiling;

was

in

into

solid

rid

water.

the

still

to

(a similarly

the

The

was

( but

soluble

paler

Mn+'.

Mn02

up

became

and

Brown

evaporated

in

mixture

to

When

formed.

filtrate

products paler

tint

washings.

precipitate

for

yellow

became

taken

samples. subsequent

also could

induced then

yellow/brown

be

512

degradation present

products

interest.

mixture

of KMn04

yellow

acid

[20];

and

be bound

Mn+2

would

omitted, samples

forms

would were

at

done the

Texture 200°C

of

are

differential

shown pore

complexes

the

boiling

step

bound chlorine the

value. it

of

[19,

Such

then

Chars

201;

carbon

materials

be released

traces

Figs.

FS isotherm of the

material while

of

samples

degassed

B show

as Type [23],

and macropores,

FS500

isotherms

hysteresis

The

non-microporous

meso-

of

the

the data.

classification

having

IV

products.

parts

a

them

present

can be classified of

the

samples

the

[22] from

those

Type

our

that

l-3;

that

i.e.,

cl.w7

although

BDDT

were

with

of degradation

(DPV) calculated

II

obtained

isotherms

A of

washings

not thorough,

but also degradation

probable

Some

parts

and

results

As it is,

seems

contained

in

and

[13], or were

and

volumes

(a

oxide

[21].

surfaces

samples

washed,

Suqar

of

of non-graphitic

not only

samples

scope reagent

leads to the formation graphitic

oxidation char

the

Brodie's

treatments. if

be of questionable -PHB

H2S04)

by Matsumura

contain

so that

carefully

purified The

as was

beyond

that

decomposable

Mn+2 -organic

that

and

however,

by the

boiling

seem

would

products,

certain

to the modified

by the HCl and/or It

easily

is formed

could

not

and concentrated

or brownish,

mellitic

is

It is known,

and

FS900

having

loops

[24].

are

Type

These

C and

other isotherms are not remarkable. o.oosQ is interesting is that the 2? What 0.W~cI, permanganate/HCl treatment decreased the

N2

uptake

porosity, FS900PH

1

have

Further

changes were

the

amounts

and

porosity

hysteresis 28 32 36 PORE RADIUS, i

Fig. 1. N2 sorption by FS chars.

loops the

Figs.

of

l-3.

to

loops. radii

when remove

N2 adsorbed IV

with

the

the HCl:

increased isotherms

Type

C or

The changes in

of the

E

in the

in the changes

shown

In view

and

isotherms.

occurred

appeared,

Type

the

FS500PH,

II

boiled

are reflected

pore

eliminated

FSPH,

Type

samples

becoming

O-

and

so that

parts nature

of

B of of

513

PORE

Fig. 2. N2 sorption

the

samples

possible

a

pore

it

to

say

FS

to

become

FS500

Table to

I.

In

subsequent

the

and

derived

each

like

does

lengthy not

seem

discussion

justified.

oxidation/HCl/boiling

mesoporous,

than of

decrease

I.

of

those the

treatment

and

the

of

Suffice

treatment

changed

alone with

of

the

caused FS500,

Specific

caused treated

caused

porosities

of

samples. been

Surface

Areas

as

is

4:: 364

to

one

m*/g

caused

of

A

Column

with

0 shows with with

FS,

Chars

B

C

0

PHB

H

2:: 270

the HCl;

PH IIX I77

SSA The

(column

FS900.

Sugar

6).

C),

substantially

only

decrease

in

the

and

increase

remained

treated SSA

a negligible

summarized

treatment

SSAs

a substantial

A treatment

had

are

columns

samples

untreated which

and

data

(compare

fully

samples

adsorption

oxidation/HCl

treatment the

Sample

Es00 FS900

the

the

case,

boiling

values

from

substantially

SSAs

lower

Table

overall

micro-

values

the

and

the

necessarily

by FS900 chars.

FS900.

decrease

but

and

shapes

that

and

SSA

detailed

%

RADIUS,

Fig. 3. N2 sorption

by FS500 chars.

3:: 360

SSA that

a minor

514 The

data

degassed [25]

to

using and

of

at be

FS900

been

should

because

about the

were

it

was

any

additional material.

unstable

The

all as

changes

of

range

and

the

be

FS:

attributed

to The

to

the

and were

SSA

increases of

not

effects

of

of of

FS500D

What

the

each

of

the

increases There

of

changes

of

large

Overall,

the

FS500PHB, similar

Essentially, caused temperature of degassing.

the

and

SSA are

relatively by

FS500PH

attributed of

shown and of

with the

FS900H

be

trends

in SSA

FS900PH.

As

the

of

Note, large

desorption

those

SSA

changes

and

and

however,

samples.

FS900PH to

of were

in

exhibited

the

may

air

relatively

cannot

to

the

change

smaller,

FS900PH

solely

range

pertinent,

FS500H

the

300-350°C

FS900PHB.

changes

and

at

samples

FS500PH

significantly

of can

desorption

similar and

view

300°C

the

to

treated

are

FS500PHB

Fig. 4. Effects

in

and

the

with

in

350-400°C

large

particular,

is

samples

samples

FS900D

is

rather

of

It

occurring

exposed

wetted.

4.

above

FS900

and

initially

is

SSAs

the

had bring

increased.

changes

in

Fig.

FS

destruction

when

to

unexpected, in

FS500

FS500

treated

were

was

portions

in

other

The

limit

which

treated

increases

higher

degassing.

unoxidized

all

that FS500

much

expected

shown

temperatures FS

thought

That

be

been

chosen

change;

to

at

the

and

summation

formed

to

mild

not

are

the

changes

was

FS

4OO'C.

would of

of

dramatic

lesser

species

SSAs

the

was

had

were

It

temperature

temperatures the

charring.

oxygenated

the 400°C

which

exposed

by

used

degassing the

attributed

the

at

FS.

cause

affected

samples

of

onset

below

of

been

FS-derived

degassing

be

already be

samples conditions

would

results

increasing

simply

nature

carbonization

in

with

these

Some

the

nature

not

degassing

that

the

temperature

FS500

apparent

and

conditions having

degassing

obtained

hrs,

with

samples,

prepared:

were 14

degassing

temperatures,

chosen

l-3 for

compatible

higher

highest

Figs.

200°C

by

HCl.

FS500PH,

FS900PHB

the

FS

are

samples.

oxidation/HCl/boiling the

highchars

low-temperature

to

and behave FS

mediummuch

samples.

like

515

Acid/Base tests to

gain

of

the

various

samples

carbons.

Before

pertinent

to

The been

placed

liquid

in

was

in

sample

in

could

suspension

in

be

centrifugation. with

and

of

dubious

value.

keeping

in

II

various given.

Table

It

mind

is

lists

samples; There

II.

are

FS900 FSPHB FS500PHB FS900PHB FS500PHB400 FS900PHB400

In

two

sets

is

were

obtained

black

globules

of

but

of

in

sample of

light

NaOH

brown of

solution

suspensions and

also

mentioned

of of

above, data

to

the

periods

titration

NaOH

Suaar

and

HCl

using in

view

the the

are the

reacted

of

data,

different the

numerical

HCl

reacted

for

the

units

are

Chars

reacted

ymol/g

ymol/m2

ymollg

5500 83 67 1 x 104 300 280 700 -800

190 0.18 0.14 680

-71 390 610 -550 -130 -150 300 1300

-:::

FS900

qualitative.

values

:::

FS

bulk

a

the

that,

chars

differences

of

an

the

or

a

FS500

interesting

of

with

prolonged

of

had

when

resulted

the

samples

supernatant

when

after

view

is

Reactions NaOH

it

liquids

solution,

acid/base

aspect

significant

Acid/Base

by

the

values

who

properties

clear

contrast,

FS900PHB

the

Sample

K500

the

A

interaction

nevertheless

that

The

others

the

oily-appearing,

even

HCl

of

of

centrifuged

clear

In

the

of

aspects

nature

however,

of

centrifugation

brown/black.

retention

quantitative

Table

by

or

that

any

was

NaOH

remained

FS500PHB,

hues

takeup

liquid.

down

and

was

treatment.

data,

Similarly,

some

Similarly,

FSPHB,

various

spun

chemical

acid/base

solution.

solutions,

the

the

to

the

mixture

standardized

formed

work

after

HCl

although

the

in

char

observations.

the

NaOH

samples

acid/base

centrifuge.

the

floating

placed

the

separable

when

centrifugation,

remained was

standardized

laboratory

immersed

after

following

the

titrimetric

sugar

permanganate

measure

the

readily

obtained

conventional were

the

the

to

was

performing

changes

connect

examining

note

mixture

to

by

procedures

in

untreated the

about

serve

similar

and

about

brought

might

used

objective

treated

information

also

have of

the some

tests

The

Titrations

of

ymol/m2 -2.4 0.8 1.2 .37 -0.47 -0.55 0.58 3.2

values

516

of

these,

depending

FS500PHB/FS500 ymol/g

are

the SSA

used

but

results,

Table

less

to become

negative

to become some

values

As

unlikely

the

that

increased

also

samples.

increased

about in the

large

FS and FSPHB FS500

and

FSgOO

with

However,

a quite

up about

2 x 10m4

would

indicate

carboxyls/l 20.5 R2 area it were would would numbers

existence

R2. These

be about

that

and cannot for

OH-

became

it

seems for the

the acidities

of FS500

of

of FS

and FSgOO

by a

before-and-after

there

was

of FS and the

shows

base

a lOOO-fold

FS500

or FSgOO.

consumption

different mole

that

the

data

they

of

per

FS500

1 carboxyl/l

values

because,

units;

These

be accounted

for only correct

and

with

FS, that

be about

in view

high. Again, for

4

of the

by (CH2),COOH,

10 CH2

bore

R2 of surface.

would

are impossibly

FS it is not

surface

is reasonable

is obtained

distribution

per 3 CH2 group.

per m2 in this

per m2 of surface;

be represented

group

of base

involved

that

result

of base

of about

mole

were

a value

are nonsense

1 carboxyl

that

responsible

general

groups

carboxyl

FS could

be one carboxyl

Consequently,

the

of one carboxyl,

taken

with

the acidity

0.16 x 10m6

R2 of surface,

FSPHB,

a

that

carboxyl

used

the

or

increased

initially

up about

which

for

solution). treatment.

suspicion.

acceptable.

Similarly,

such

calculation

1 carboxyl/103

required

washed,

was

4 and those

because

that

a trivial

reaction,

desorbed

copiously

consumption/m2

used

Assuming

thus

as base

more base titrant -solution), suggesting that

comsumption/m2,

suggests

be viewed

of surface. about

base

was

required

treatment

of about

discrepancy

original

oxidation

of material

However,

is misleading,

difference

and

filtrates.

of base

6.

was

been

the oxidation

by a factor

comparison That

of the

In terms

of

had

base

in Table II (in practice,

the original

the dissolution

As expected,

factor

appear

of

data

weight.

acid as well

the

the

of

In view

the filtrate

than by

ratio

acid/base

sample

with

consumed:

material

the

with

the filtrate

than

samples

acidity

react

the

3.6 if units

are used.

per unit

reacted

altered

samples,

neutralized

than

neutralized

acidity-producing

bound.

of ymol/m2

was

were

example, value

to consider

FSgOO

reactant

For

has the

FS could

and

reactivities

Several

rather

that

FS500

the HCl-immersed

the

area

some

titrant

These

units.

5.7 if units

II indicates

but that

(in practice,

the

consumption

it is pertinent

per unit of surface

acidic

on

for NaOH

if

there

FSPHB

there

are unreasonably

high

by surface that

the

acid

uptake

groups. of base

517

involved

merely

equivalent order the

to

of

a reaction

is

too

of

other

degraded

such

degradations

[27

such

as

lime

saturated converted

acids

are

cleaved, In

of

occurred, material acid

of

it

291.

For at

small

is

as

that

the

alkali

FSPHB,

in

is

taken in

up

that

turn

the

even

complex

in

become

alkali,

may

[27

such

-

be 291.

reactions

converted

reacting

are

including

chains

oxidized

and

of

sugars

that

to

of and

products

mild

sugar

an

nature

mixtures

The

suggested

addition

was

fashion;

the

temperature,

attacked

sites,

polysaccharides

in

example, room

acid

indicated; that

are

sugars

F-S, it

base for

reaction.

of

and

of

known

and

prolonged

resulting

FS

is

water

surface

accounted

alkali,

nature

i.e.,

amount

be

mixtures,

upon

the

the

-

and

reactions

by

into

formed and

view

to

However,

are

rapidly

The

high

some

uncertain.

saccharides

hydroxyls

a neutralization.

magnitude

occurrence

these

of

the

with

bulk

surface

groups. view

In would

be

of

a material not

its

the

precursor,

equivalent

which

has

unreasonable

dehydrated, with

rings is

prepared

by

materials [30].

seem

that

work

unstable

and in

of

surface

permanganate

of

be

of

FS

probably

other

in

data

obtained

the

some obtained wet

with

like

such

the were

and

also

FS500PHB400

exists

chars

It low-

as

samples

the

also

oxidation

natural the

elsewhere.

chars,

with

chars

Further,

(see

doubt

manner.

of

oxidized

degassing

A

some

other

and

detail

value.

that

random of

shells,

low-temparature

II),

data

a

and

a variety

almond

i.e.,

moieties,

in

of

dubious

upon

acid/base

and

fructose

described

like

Table

mixture

crosslinked

indicates

much

a

and

titration

acidity

data

partially

converted

temperature

are

4)

a char.

of

bamboo,

will

acid/base

(Fig.

such

low

FS

into

be was

spectra

coal,

data

behaved

FS900PHB400

utility

at

peat,

pyrolizates

degassing

and

as

these

color,

to FS

infrared

and

carbon.'

glucose

with

with

infrared

temperature

changed

oxidized

pyrolyzing

such

Such

would

line

that

preparation,

low-temperature

begun

is

and

broken,

in

of

a 'very

barely

model

partially

That

method

of

about

the

subjected

to

procedures.

CONCLUSIONS Generalities with and

the FS900

decrease. KMn04/HCl

which

various to

samples

aqueous

(b)

emerge

HCl

Subjecting

treatment

caused

from

are

as

the

follows.

solution

caused

each the

N2

SSA

of of

the each

adsorption (a) the

data

Exposing SSA

three sample

FS,

of each samples to

obtained FS500,

sample to

decrease

to the to

a

518

greater

extent

treatment (d)

Boiling

order

the

to remove

caused

their

the colors removal

to

samples brought

together

sample

brought

and

about

about

during

was

a mixture

which

could HCl

carbon

and

of

in

samples these

now

of

the

Subsequent was

sorbed

HCl)

in water fragments

during

a mixture and into

texture.

These

fraction

of

oxidized

about the

the

'clean'

fragment

that

surface

the

groups

Conventional

clean

oxidation

which

were

acid/base in terms

of

(6).

reports

that

adsorptive

properties

samples

were

(4). As

a

samples

upon

relatively

easily

acidity,'

of the carbons

incompletely

were

washed

or

the

samples released

change

of

significant it is

formation such

of (5).

samples,

are of dubious

value.

caused

the

are inconclusive

changes

in

a small

degassing,

oxidation

to change

each some

decomposed.

titrations

permanganate

stage

contained

the

some

bearing

further

mild

caused

samples of

as Cl',

there

treatment

'surface

At this

(3). Boiling

probably

with

HCl to become

(now

caused

titrations

interpreted Prior

and

the

particles

removal

of chlorine

samples

material.

in SSAs of these

probable

fragments.

filtrate,

now

step.

precursor

removal

deposited

oxidized and

the

and

reaction

complexed

the

about

oxidation

of

oxidized

to dissolve

oxidized

structure

were

(2). Treating

oxidized

mixtures,

was

stage

which

brought

when

further

KMn04

Mn02

this

precursor,

Mn02

the

of

some

brought

MnO2.

hydrated

reaction

overall

Hydrated

fragments

some

step.

(1). The its

At

oxidized

out,'

washings

formed

sample

disrupted

removed

and

of the

conclusions.

changes.

hydrated

caused

fragments

in SSA not

if

taken

account.

In general, become of

FS900.

required

was

HCl,

the boiling

particles.

be 'washed

manganese,

into

SSAs

matter

with

the descriptions

textural

solid

the

KMn04/HCl and

was

the

organic

treated

partially

the

changes

samples

However,

some

were

with

on/within

bound.

The

FS500

the oxidized/HCl-treated

increase.

is led to the following

with

(c). of

oxidized/HCl-treated

of the filtrates,

was

Taken each

treatment.

porosities

were --lower than those of the original samples. caused porosity to re-appear. (g) As indicated by

oxidized

one

HCl

the

HCl. (e). Boiling

SSAs

Boiling

the

the

samples

purified (f)

than

eliminated

SSA.

change

more The

the

permanganate

oxidation

'acid,' but the acidity oxidized

samples

in SSA and surface

are

properties

causes

is introduced also upon

the samples

to

at the expense

thermally

unstable

relatively

mild

and

heating,

519

and

are

probably

additional permanganate samples very

large

seems

solid

explain

in

part

while, control

such worst

the

of

it

the

the

of

if

the

the

need

to

would

the

seem

that

to

hardly not

deposition

remove

permanganate

altering

of

probably The

a

treated

view

but

would

of

of

permanganate

work

adequately.

and

that

in

way

means

In

mechanisms,

because

methods

lost

additional

the

rates

carbon

complexity of

deal

reaction

the

be

the

by

temperatures.

encountered

to

order

on/within

the

variables

in

gained

probably

a great

to

introduce be

of

benefits be

elevated

in

worth

might

would at

procedure

required

possible

that

activated number

oxidation be

groups

oxidation

were

any

Also,

mixtures.

acid

the

treatment

be of

a

deposit seems

to

carbons.

ACKNOWLEDGEMENT Support

by

NSF

CHE-8516257

grant

is

gratefully

acknowledged.

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