Mathematical Chemistry! Is It? And if so, What Is It?

, 1205-27. Barabási, A.L.: 2012, ‘The network takeover’, Nature Physics , 8

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11
, 1205-27.
Barabási, A.L.: 2012, ‘The network takeover’,
Nature Physics
,
8
, 14-16.
Benkoe, G.; Flamm, C. & Stadler, P.F.: 2003, ‘A graph-based toy model of chemistry’,
Journal of Chemical Information and Computer Sciences
,
43
, 1085-93.
Corey, E.J.; Jeffrey, W. & David, A.: 1974, ‘Computer-assisted synthetic analysis.
Methods for machine generation of synthetic intermediates involving multi-
step look-ahead’,
Journal of the American Chemical Society
,
96
, 7724-37.
Corey, E.J. & Jorgensen, W.L.: 1977, ‘Computer-assisted synthetic analysis. Synthetic
strategies based on appendages and the use of reconnective transforms’,
Jour-
nal of the American Chemical Society
,
98
, 189-03.
Cracium, G. & Feinberg, M.: 2005, ‘Multiple equilibria in complex chemical reaction
networks: I’,
SIAM Journal on Applied Mathematics
,
65
, 1526-46.
Cracium, G. & Feinberg, M.: 2006, ‘Multiple equilibria in complex chemical reaction
networks: II’,
SIAM Journal on Applied Mathematics
,
66
, 1321-38.
Crutchfield, J.P.: 2012, ‘Between order and chaos’,
Nature,
8
, 17-24.
Dubois, J.E.: 1973, ‘DARC system in chemistry’, in: W.T. Wipke (ed.),
Computer
representation and manipulation of chemical information
, New York: John
Wiley & Sons, pp. 239-63.
Dugundji, J. & Ugi, I.: 1973, ‘An algebraic model of constitutional chemistry as a
basis for chemical computer programs’,
Topics in Current Chemistry
,
39
, 19-
64.
Estrada, E.; Higham, D.J.; Fox, M. & Oppo, G.L.: 2010,
Network science: Complexity
in nature and technology
, Berlin: Springer, pp. 1-256.
Feinberg, M.: 1972, ‘Complex balancing in general kinetic systems’,
Archive for Ra-
tional Mechanics and Analysis,
49
, 187-94.
Feinberg, M.: 1989, ‘Necessary and sufficient conditions for detailed balancing in
mass action systems of arbitrary complexity’,
Chemical Engineering Science
,
44
, 1819-27.
Fujita, S.: 2001,
Computer-oriented representation of organic reactions,
Kyoto: Yoshi-
oka Shoten, pp. 1-371.
Gao, J.; Buldyrev, S.V.; Stanley, H.E. & Havlin, S.: 2002, ‘Networks formed from
interdependent networks’,
Nature Physics
,
8
, 40-8.
Hendrickson, J.B.: 1976, ‘A general protocol for systematic synthesis design’,
Topics
Current Chemistry
,
62
, 49-172.
Hendrickson, J.B.: 1986, ‘Approaching the logic of synthesis design’,
Accounts of
Chemical Research
,
19
, 274-81.

74

Douglas J. Klein
Hendrickson, J.B. & Toczko, A.G.: 1989, ‘SYNGEN program for synthesis design:
Basic computing techniques’,
Journal Chemical Information and Computer Sci-
ences
,
29
, 137-45.
Horn, F. & Jackson, R.: 1972a, ‘General mass action kinetics’,
Archive for Rational
Mechanics and Analysis,
47
, 81-116.
Horn, F.: 1972b, ‘Necessary and sufficient conditions for complex balancing in chem-
ical kinetics’,
Archive for Rational Mechanics and Analysis,
49
, 172-86.
Ivanciuc, T. & Klein, D.J.: 2004, ‘Parameter-free structure-property correlation via
progressive reaction posets for substituted benzenes’,
Journal of Chemical In-
formation and Computer Sciences,
44
, 610-17.
Ivanciuc, T.; Ivanciuc, O. & Klein, D.J.: 2011, ‘Network-QSAR with reaction poset
quantitative superstructure-activity relationships (QSSAR) for PCB chroma-
tographic properties’,
Current Bioinformatics
,
6
, 25-34.
Joshi, R. & Shiu, A.: 2013, ‘Atoms of multistationarity in chemical reaction net-
works’,
Journal of Mathematical Chemistry
,

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