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In Advances in Lignocellulosics Char900

7Pulp Bleaching

acterization, D.S. Argyropoulos, Ed.

Tappi Press: Atlanta, GA, 1999: 1–42.

79 Balakshin, M.Y., E.A. Capanema,

C.-L. Chen, H.S. Gracz, Elucidation of

the structures of residual and dissolved

pine kraft lignins using an HMQC

NMR technique. J. Agric. Food Chem.,

2003; 51(21): 6116–6127.

80 Fu, S.Y., L.A. Lucia, Investigation of the

chemical basis for inefficient lignin

removal in softwood kraft pulp during

oxygen delignification. Ind. Eng. Chem.

Res., 2003; 42(19): 4269–4276.

81 Froass, P.M., A.J. Ragauskas, J. Jiang,

Nuclear magnetic resonance studies. 4.

Analysis of residual lignin after kraft

pulping. Ind. Eng. Chem. Res., 1998;

37(8): 3388–3394.

82 Lachenal, D., J.C. Fernandes,

P. Froment, Behavior of residual lignin

in kraft pulp during bleaching. J. Pulp

Paper Sci., 1995; 21(5): J173–J177.

83 Argyropoulos, D.S., Y. Liu, The role and

fate of lignin’s condensed structures

during oxygen delignification. J. Pulp

Paper Sci., 2000; 26(3): 107–113.

84 Froass, P.M., A.J. Ragauskas, J. Jiang,

Chemical structure of residual lignin

from kraft pulp. J. Wood Chem. Technol.,

1996; 16(4): 347–365.

85 Froass, P.M., A.J. Ragauskas, J.E. Jiang,

NMR studies Part 3: Analysis of lignins

from modern kraft pulping technologies.

Holzforschung, 1998; 52(4):

385–390.

86 Capanema, E.A., M.Y. Balakshin,

J.F. Kadla, A comprehensive approach

for quantitative lignin characterization

by NMR spectroscopy. J. Agric. Food

Chem., 2004; 52: 1850–1860.

87 Zhang, L., G. Henriksson, G. Gellerstedt,

The formation of b-b structures in

lignin biosynthesis – Are there two different

pathways? Org. Biomol. Chem.,

2003: 3621–3624.

88 Kishimoto, T., A. Ueki, Y. Sano, Delignification

mechanism during high-boiling

solvent pulping. Part 3. Structural

changes in lignin analyzed by 13C-NMR

spectroscopy. Holzforschung, 2003; 57:

602–610.

89 Kishimoto, T., A. Ueki, H. Takamori,

Y. Uraki, M. Ubukata, Delignification

mechanism during high-boiling solvent

pulping. Part 6. Changes in lignin structure

analyzed by 1H–13C correlation 2-D

NMR spectroscopy. Holzforschung, 2004;

58: 355–362.

90 Northey, R.A., A review of lignin model

compound reactions under oxygen

bleaching conditions. In Oxidative

Delignification Chemistry,

D.S. Argyropoulos, Ed. American

Chemical Society, Oxford University

Press: Washington, DC, 2001; 44–60.

91 Zou, H., J.M. Genco, A. Van Heiningen,

B. Cole, R. Fort, Effect of hemicellulose

content in kraft brownstock on oxygen

delignification. TAPPI Fall technical

Conference and Trade Fair, 2002:

193–209.

92 Saake, B., R. Lehnen, E. Schmekal,

A. Neubauer, H.H. Nimz, Bleaching of

formacell pulp from aspen wood with

ozone and peracetic acid in organic solvents.

Holzforschung, 1998; 52(6):

643–650.

93 Ruiz, J., J. Freer, J. Rodriguez, J. Baeza,

Ozone organosolv bleaching of radiata

pine kraft pulp. Wood Sci. Technol.,

1997; 31(3): 217–223.

94 Fu, S.Y., X.S. Chai, Q.X. Hou, L.A. Lucia,

Chemical basis for a selectivity threshold

to the oxygen delignification of kraft

softwood fiber as supported by the use

of chemical selectivity agents. Ind. Eng.

Chem. Res., 2004; 43(10): 2291–2295.

95 Francis, R.C., Y.Z. Lai, C.W. Dence,

T.C. Alexander, Estimating the concentration

of phenolic hydroxyl-groups in

wood pulps. Tappi J., 1991; 74(9):

219–224.

96 Gellerstedt, G., K. Gustafsson,

R.A. Northey, Nordic Pulp Paper Res. J.,

1988; 3(2): 87–94.

97 Gellerstedt, G., Chemical structure of

pulp components. In Pulp Bleaching:

Principles and Practice, C.W. Dence,

D.W. Reeve, Eds. Tappi Press: Atlanta,

GA, 1996: 91–111.

98 Asgari, F., D.S. Argyropoulos, Fundamentals

of oxygen delignification. Part

II. Functional group formation elimination

in residual kraft lignin. Can. J.

Chem.-Rev. Canadienne De Chimie, 1998;

76(11): 1606–1615.

99 Yokoyama, T., Y. Matsumoto,

G. Meshitsuka, Reaction selectivity of

References 901

active oxygen species in oxygen-alkali

bleaching. J. Wood Chem. Technol., 1999;

19(3): 187–202.

100 Johansson, E., S. Ljunggren, The

kinetics of lignin reactions during oxygen

bleaching. 4. The reactivities of different

lignin model compounds and the

influence of metal-ions on the rate of

degradation. J. Wood Chem. Technol.,

1994; 14(4): 507–525.

101 Kratzl, K., P. Claus, W. Lonsky,

J.S. Gratzl, Model studies on reactions

occurring in oxidations of lignin with

molecular-oxygen in alkaline media.

Wood Sci. Technol., 1974; 8(1): 35–49.

102 Sultanov, V.S., A.F.A. Wallis, Reactivities

of guaiacyl and syringyl lignin model

phenols towards oxidation with oxygenalkali.

J. Wood Chem. Technol., 1991;

11(3): 291–305.

103 Evtuguin, D.V., D. Robert, The detection

of muconic acid type structures in oxidized

lignins by C-13 NMR spectroscopy.

Wood Sci. Technol., 1997; 31(6):

423–431.

104 Moe, S.T., A.J. Ragauskas, Oxygen

delignification of high-yield kraft pulp

part I: Structural properties of residual

lignins. Holzforschung, 1999; 53(4):

416–422.

105 Duarte, A.P., D. Robert, D. Lachenal,

Eucalyptus globulus kraft pulp residual

lignin Part 2. Modification of residual

lignin structure in oxygen bleaching.

Holzforschung, 2001; 55(6): 645–651.

106 Lai, Y.Z., H. Xu, R. Yang. In Lignin: Historical,

Biological, and Materials Perspectives,

W.G. Glasser, R.A. Northey and

T.P. Schultz, Eds. American Chemical

Society, Oxford University Press:

Washington D.C, 2000.

107 Ede, R.M., G. Brunow, L.K. Simola,

J. Lemmetyinen, 2-Dimensional

H-1-H-1 chemical-shift correlation and

J-resolved NMR studies on isolated and

synthetic lignins. Holzforschung, 1990;

44(2): 95–101.

108 Lundquist, K., Nordic Pulp Paper Res. J.,

1992; 7(1): 4–8, 16.

109 Ede, R.M., R. Smit, I.D. Suckling. Oral

Presentation. In 9th International Symposium

of Wood and Pulping Chemistry.

Montreal, 1997.

110 Adler, E., Lignin chemistry – past, present

and future. Wood Sci. Technol., 1977;

11(3): 169–218.

111 Zhang, L., G. Gellerstedt. Detection and

determination of carbonyls and quinones

by modern NMR techniques. In

10th International Symposium of Wood

and Pulping Chemistry. Yokohama,

1999.

112 Drumond, M., M. Aoyama, C.L. Chen,

D. Robert, Substituent effects on C-13

chemical-shifts of aromatic carbons in

biphenyl type lignin model compounds.

J. Wood Chem. Technol., 1989; 9(4):

421–441.

113 Ahvazi, B.C., G. Pageau,

D.S. Argyropoulos, On the formation of

diphenylmethane structures in lignin

under kraft, EMCC (R), and soda pulping

conditions. Can. J. Chem. – Rev.

Canadienne De Chimie, 1998; 76(5):

506–512.

114 Chang, H.-M., H.T. Chen, J.S. Gratzl,

S. Hosoya, T. Yamasaki. In SPCI International

Symposium of Wood and Pulping

Chemistry. Stockholm, 1981.

115 Chiang, V.L., M. Funaoka, The dissolution

and condensation-reactions of

guaiacyl and syringyl units in residual

lignin during kraft delignification of

sweetgum. Holzforschung, 1990; 44(2):

147–156.

116 Hartler, N., H. Norrstrom, Light-absorbing

properties of pulp and pulp components.

3. Kraft pulp. Tappi, 1969; 52(9):

1712–1715.

117 Gellerstedt, G., J. Pranda, E.L. Lindfors,

Structural and molecular-properties of

residual birch kraft lignins. J. Wood

Chem. Technol., 1994; 14(4): 467–482.

118 Johansson, E., S. Ljunggren, Nordic

Pulp Paper Res. J., 1990; 5(3): 148–154.

119 Ljunggren, S., E. Johansson, The

kinetics of lignin reactions during oxygen

bleaching. 3. The reactivity of

4-N-propylguaiacol and 4,4′-di-N-propyl-

6,6′-biguaiacol. Holzforschung, 1990;

44(4): 291–296.

120 Omori, S., C.W. Dence, The reactions of

alkaline hydrogen-peroxide with lignin

model dimers. 1. Phenacyl alpha-aryl

ethers. Wood Sci. Technol., 1981; 15(1):

67–79.

902 7Pulp Bleaching

121 Dence, C.W., A.J. Nonni. Technical

Papers. In International Symposium of

Wood and Pulping Chemistry. Vancouver,

1985.

122 Aoyagi, T., S. Hosoya, J. Nakano, A new

reaction site in lignin during O2-alkali

treatment. J. Japan Wood Res. Soc.

(Mokuzai Gakkaishi), 1979; 25(12):

783–788.

123 Oki, T., H. Ishikawa, K. Okubo, Oxidative

Degradation of Dihydrodehydrodiisoeugenol

and its methyl derivative by

peroxide and oxygen alkali methods.


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