Books
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Rubberlike Elasticity: A Molecular Primer. J.E. Mark, B. Erman, Wiley Interscience, New York 1988. |
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Structures and Properties of Rubberlike Networks, Burak Erman and James E. Mark, Oxford University Press, 1997. |
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Elastomeric Polymer Networks. Edited by J. E. Mark, B. Erman, Prentice Hall, Polymer Science Series, 1992. |
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The Science and Technology of Rubber, Edited by J. E. Mark, B. Erman, F. R. Eirich, Elsevier academic Press, Third Edition, 2005. |
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Rubberlike Elasticity: A Molecular Primer. J.E. Mark, B. Erman, Cambridge University Press 2007. |
Papers
1.
Correction to the Solution of Orthotropic Circular Plates. W. H. Rimawi, B.
Erman, Build. Sci., 7, 33 (1972).
2.
Propagation of Waves in Dissipative Media. B. Erman, F. Guzaltan, A. Askar,J.
Geotech. Eng'g Div. ASCE, 100, 1321 (1974).
3. Theory of
Elasticity of Polymer Networks. II. The Effect of Geometric Constraints on
Junctions. B. Erman, P. J. Flory, J. Chem. Phys. 68, 5363 (1978).
4. The
Structure and Properties of Materials. Vol. 3. Mechanical Behavior. W.H.Hayden,
W. G. Moffatt and J. Wulff, Wiley, 1964. Translated from English intoTurkish by
K. Onaran, B. Erman, Istanbul Technical University Press, 1978.
5. Rubber
Elasticity in the Range of Small Uniaxial Tensions and Compressions. Results
for Poly(Dimethylsiloxane). B. Erman, P. J. Flory, J. Polym. Sci. Polym. Phys.
Ed., 16, 1115 (1978). Also reprinted in Rubber Chem. and Tech., 52, 127 (1979).
6. Moments
of the End-to-End Vectors for p-Phenylene Polyamides and Polyesters. B. Erman,
P.J. Flory, J.P. Hummel, Macromolecules, 13, 484 (1980).
7. Elastic
Modulus and Degree of Cross-Linking of Poly (Ethyl Acrylate) Networks B. Erman,
W. Wagner, P.J. Flory, Macromolecules, 13, 1554 (1980).
8. The
Effect of Junction Constraints on Rubber Elasticity in Multiaxial States of
Strain. B. Erman, J. Polym. Sci. Polym. Phys. Ed., 19, 829 (1981).
9. Optical
Anisotropies of Aliphatic Esters. P.J. Flory, E. Saiz, B. Erman, P.A. Irvine,
J.P. Hummel, J. Phys. Chem., 85, 3215 (1981).
10. The
Structure and Properties of Materials. Vol. 1. Structure. W. G. Moffatt, G. W.
Pearsall and J. Wulff, Wiley, 1964. Translated from English into Turkish by B.
Erman, K. Onaran, Istanbul Technical University Press, 1982.
11. Theory
of Elasticity of Polymer Networks. 3. P. J. Flory, B. Erman, Macromolecules,
15, 800 (1982).
12.
Relationship Between Stress, Strain, and Molecular Constitution of Polymer
Networks. Comparison of Theory with Experiments. B. Erman, P.J. Flory,
Macromolecules, 15, 806 (1982).
13. Optical
Anisotropies of Model Analogues of Polycarbonates. B. Erman, D.C. Marvin, P.A.
Irvine, P.J. Flory, Macromolecules, 15, 664 (1982).
14. Optical
Anisotropies of the Polycarbonate of Diphenylolpropane . B. Erman, D. Wu,
P.A.Irvine, D.C. Marvin, P.J.Flory, Macromolecules, 15, 673 (1982).
15.
Nonhomogeneous State of Stress, Strain and Swelling in Amorphous Polymer Networks.
B. Erman, J. Polym. Sci. Polym. Phys Ed., 21, 893 (1983).
16. Optical
Anisotropies of Aromatic Esters and of Oligomers of Poly(p- oxybenzoate). P.A.
Irvine, B. Erman, P.J. Flory, J. Phys. Chemistry, 87, 2929 (1983).
17. Theory
of Strain Birefringence of Amorphous Polymer Networks. B. Erman, P.J. Flory,
Macromolecules, 16, 1601 (1983).
18.
Experimental Results Relating Stress and Birefringence to Strain in
Poly(dimethylsiloxane) Networks. Comparison with Theory. B. Erman, P.J. Flory,
Macromolecules, 16, 1607 (1983).
19. Silicone
Networks with Junctions of High Functionality and the Theory of Rubber
Elasticity. P.J. Flory, B. Erman, J. Polym. Sci. Polym. Phys. Ed., 22, 49
(1983).
20. The
Equation of State Theory of Mixtures and the Polymer-Solvent Interaction
Parameter. B. Erman, P.J. Flory, Polym. Commun., 25, 132 (1984).
21.
Elasticity of Real Networks: Comparison of Molecular Theory with Experiments.
B. Erman, British Polym. J., 17, 140 (1985).
22.
Segmental Orientation in Real Networks. B. Erman, L. Monnerie, Polym. Commun.,
26, 167 (1985).
23.Theory of
Segmental Orientation in Amorphous Polymer Networks. B. Erman, L. Monnerie,
Macromolecules, 18, 1985 (1985).
24.
Experimental Determination of Segmental Orientation in Polyisoprene Networks by
Fluorescence Polarisation and Comparison with Theory. J.P. Queslel, B.Erman, L.
Monnerie, Macromolecules, 18, 1991 (1985).
25.
Temperature Dependence of Swelling of Polystyrene Networks. B. Erman, B.
Baysal, Macromolecules, 18, 1696 (1985).
26.
Rubberlike Elasticity: Molecular Theory . B. Erman, Encyc. Matls Sci. and
Engn'g, Pergamon Press, 6, 4284 (1986).
27. Effect
of Flow on Solutions of Rodlike Particles. I. Bahar, B. Erman, J. Polym. Sci.,
Polym. Phys. Ed., 24, 1361 (1986).
28. Local Solvent
Effect on Configurational Characteristics of Polymer Chains:
Poly(p-chlorostyrene) in Benzene. I. Bahar, B. Erman, B. Baysal,
Macromolecules, 19, 1703 (1986).
29. Critical
Phenomena and Transitions in Swollen Polymer Networks and in Linear
Macromolecules. B. Erman, P.J. Flory, Macromolecules, 19, 2342 (1986).
30.
Segmental Orientation and Mobility in Deformed Amorphous Polymeric Networks. B.
Erman, L. Monnerie, Polym. Commun., 27, 240 (1986).
31. Segmental
Mobility in Deformed Amorphous Polymeric Networks: 1. Theory. B. Erman, L.
Monnerie, Macromolecules, 19, 2745 (1986).
32.
Segmental Mobility in Deformed Amorphous Polymeric Networks: 2. Experimental
Study of Polyisoprene Using the Fluorescence Polarization Technique. J.P.
Jarry, B. Erman, L. Monnerie, Macromolecules, 19, 2750 (1986).
33.
Determination of Polymer-Solvent Interaction Parameter from Swelling of
Networks: The System Poly(2-hydroxyethyl methacrylate)- Diethylene Glycol.
I.Bahar, H.Y. Erbil, B.Baysal, B. Erman, Macromolecules, 20, 1353 (1987).
34.
Calculation of Molecular Deformation and Orientation in Elastomers Using the
Flory Network Model. B. Erman, in Advances in Elastomers and Rubber Elasticity,
p. 279, Plenum Press, Eds. J. Lal and J.E. Mark (1987).
35. Theory
of Segmental Orientation in Amorphous Polymeric Networks and Comparison with
Experimental Determination of Orientation in Polyisoprene Networks by
Fluorescence Polarization. J. P. Queslel, B. Erman, L. Monnerie, in Advances in
Elastomers and Rubber Elasticity, Plenum Press, Eds. J. Lal and J.E. Mark
(1987).
36. Osmotic
Compressibility and Mechanical Moduli of Swollen Polymer Networks I. Bahar, B.
Erman, Macromolecules, 20, 1696 (1987).
37. Polymers
and Rubber Elasticity: Thermodynamics of Large Dimensional Changes in Amorphous
Systems. B. Erman, in Biomechanics of Cell Division. Plenum Publ. Co.,Ed. N.
Akkas, 132, 197 (1987).
38.
Interpretation of Stress-Strain Isotherms for Elastomers Cross-Linked in
Solution. B. Erman, J.E. Mark, Macromolecules, 20, 2893 (1987).
39. Chain
Dimensions in Deformed Networks: Theory and Comparison with Experiment B.
Erman, Macromolecules, 20, 1917 (1987).
40.
Investigation of Local Motions in Polymers by the Dynamic Rotational Isomeric
State Model. I. Bahar, B. Erman, Macromolecules, 20, 1177 (1987).
41.
Activation Energies of Local Conformational Transitions in Polymer Chains. I.
Bahar, B. Erman, Macromolecules, 20, 2310 (1987).
42.
Orientation of Rigid Rods Dissolved in Deformed Networks. B. Erman, J. P.
Jarry, L. Monnerie, Polymer, 28, 727 (1987).
43 The
Scattering of Light by Swollen Networks. R. Stein, V.K. Soni,H. Yang, B. Erman,
in Biological and Synthetic Networks, Elsevier. Ed. O. Kramer. p. 383 (1988).
44.
Anisotropy of Rubber Networks Cross-Linked in States of Strain. B. Erman, in
Biological and Synthetic Networks, Elsevier. Ed. O. Kramer. p. 497 (1988).
45. Effects
of Chain Structure and Network Constitution on Segmental Orientation in
Deformed Amorphous Polymeric Networks. B. Erman, I. Bahar, Macromolecules, 21,
452 (1988).
46.
Mechanical Instability Of Amorphous Polymeric Networks: Asymmetric Deformation
Under Symmetric Biaxial Tension. B. Erman, J. Polym. Sci., Polym. Phys. Ed.,
26, 1297 (1988).
47.
Anisotropy of Static and Dynamic Orientational Correlations in n-Alkanes. I.
Baharand B. Erman, J. Chem. Phys., 88, 1228 (1988).
48. Use of
the Fixman-Alben Distribution Function in the Analysis of Non-Gaussian
Rubberlike Elasticity. B. Erman, J.E. Mark, J. Chem. Phys., 89, 3314 (1988).
49.
Orientation of Flexible Probes Dissolved in Deformed Networks. J.P. Queslel,
B.Erman, L. Monnerie, Polymer, 19, 1818 (1988).
50.Orientation
and Anisotropy of Dangling Chains in a Deformed Network. B. Erman, J.P.
Queslel, L. Monnerie, Polymer, 29, 1923 (1988).
51.
Rubberlike Elasticity: A Molecular Primer. J.E. Mark, B. Erman, Wiley
Interscience, New York 1988.
52. A New
Approach to the Relationship Between Chemical Structure and Local Dynamics
Nuclear Magnetic Resonance Measurements in Dilute Polymer Solutions. I. Bahar,
B. Erman, L. Monnerie, Polymer Commun., 29, 349 (1988).
53.
Comparison of Dynamic Rotational Isomeric State Results with Previous
Expressions for Local Chain Motion. I. Bahar, B. Erman, L. Monnerie,
Macromolecules, 22, 431 (1989).
54. Rheology
of Solutions of Rodlike Polymers: Theory and Comparison with Experiments. B.
Erman, I. Bahar, P. Navard, Macromolecules, 22, 358 (1989).
55. Chain
Dimensions and Fluctuations in Random Elastomeric Networks. 1. Phantom Gaussian
Networks in the Undeformed State. A. Kloczkowski, J.E. Mark, B.Erman,
Macromolecules, 22, 1423 (1989).
56. Chain
Dimensions and Fluctuations in Random Elastomeric Networks. 2. Dependence of
Chain Dimensions and Fluctuations on Macroscopic Strain. B.Erman, A. Kloczkowski,
J.E. Mark, Macromolecules, 22, 1432 (1989).
57.
Application of the Dynamic Isomeric States Model to Poly(ethylene oxide) and
Comparison with Nuclear Magnetic Relaxation Data. I. Bahar, B. Erman, L.
Monnerie, Macromolecules, 22, 2396 (1989).
58.
Rubber-like Elasticity, B. Erman, J.E. Mark, Annu. Rev. Phys. Chem., 40, 351
(1989).
59. Theory
of Elasticity of Amorphous Networks: Effect of Constraints along Chains.
B.Erman, L. Monnerie, Macromolecules, 22, 3342 (1989).
60. Stress -
Strain -Swelling Behavior of Amorphous Polymeric Networks: Comparison of
Experimental Data with Theory. F. Fontaine, C. Noel, L. Monnerie, B. Erman,
Macromolecules, 22, 3348 (1989).
61.
Mechanical Properties of Dry and Swollen cis-1,4- Polyisoprene Networks in
Simple Tension: Experiment and Comparison with Theory. F. Fontaine, C. Morland,
C. Noel, L. Monnerie, B. Erman, Macromolecules, 22, 3352 (1989).
62.
Molecular Deformation, Segmental Orientation and Segmental Mobility in
Amorphous Polymeric Networks. B. Erman, in Molecular Basis of Polymer Networks.
Eds. A. Baumgartner and C. E. Picot, Springer Proc. in Phys. 42, 100 (1989).
63.
Characterization of Segmental Orientation in Stretched Rubbery Networks by the
Stationary Fluorescence Polarization Technique. J.P. Queslel, L.Monnerie,
B.Erman, J. Macromol. Sci.- Chem., A26, 93 (1989).
64. Small
Angle Neutron Scattering from Elastomeric Networks : 1. Calculated Scattering
from a Path Containing Several Junctions in the James-Guth Model.
A.Kloczkowski, J. E. Mark, B. Erman, Macromolecules, 22, 4502 (1989).
65.
Birefringence. B. Erman, J. P. Queslel. Encyc. Matls Sci. and Engn'g. John
Wiley & Sons. Inc. Suplement Vol. 2.nd Ed. p. 18, 1989.
66.
Segmental Orientation in Networks Cross-Linked in Solution. B. Erman, J. E. Mark,
Macromolecules. 22, 480 (1989).
67.
Determination of Cross-Link Density in Amorphous Networks by Stress-Strain
Swelling Experiments. B. Erman, in NATO ASI on Advanced Methods of
Determination of Crosslinking and Scission in Polymers and their Effects on
Mechanical Properties. Ed. O. Guven. Kluwer Academic Publishers, 292, 153
(1990).
68. Neutron
Scattering from Elastomeric Networks : II. An Alternative Phantom Network
Model. A. Kloczkowski, J. E. Mark, B. Erman, Macromolecules. 23, 1222 (1990).
69. Local
Orientational Motions in Flexible Polymeric Chains. I. Bahar, B. Erman, L.
Monnerie, Macromolecules. 23, 1174 (1990).
70. A Closed
Form Solution for the Internal Dynamics of Polymer Chains: I. Bonds with
Independent Rotational Potentials. A. Kloczkowski, J. E. Mark, I. Bahar,
B.Erman, J. Chem. Phys. 92, 4513 (1990).
71. Stress
Relaxation in Stretched Networks Immersed in Solvent. H. Ozkul, K. Onaran, B.
Erman, J. Polym. Sci. Polym. Phys. Ed. 28, 1781 (1990).
72. Effect
of Surrounding Medium on Intramolecular Conformational Changes in Probe
Molecules. I. Bahar, B. Erman, L. Monnerie, Macromolecules. 23, 3805 (1990).
73.
Segmental Orientation in Elastomers. B. Erman, L. Monnerie, Encyc. Matl. Sci.
and Engn'g., Supp. Vol. 2. Ed. R. W. Cahn, p. 1246 (1990).
74. On the
Flory-Ronca Theory of Systems of Rodlike Particles. A. Kloczkowski, J. E. Mark,
B. Erman. Macromolecules. 23, 5035 (1990).
75. A
Lattice Model for Segmental Orientation in Deformed Polymeric Networks.1.
Contribution of Intermolecular Correlations. B. Erman, I. Bahar, A.
Kloczkowski, J. E. Mark, Macromolecules. 23, 5335 (1990).
76. A
Lattice Model for Segmental Orientation in Deformed Polymeric Networks.2.
Effect of Chain Stiffness and Thermotropic Interactions. I. Bahar, B. Erman, A.
Kloczkowski, J. E. Mark, Macromolecules.23, 5341 (1990).
77.
Segmental Orientation in Uniaxially Deformed Networks: A Higher Order
Approximation for Finite Chains and Large Deformations. B. Erman, T. Haliloglu,
I.Bahar, J. E. Mark., Macromolecules. 24, 901 (1991).
78. Eugene
Guth, H. Schweinler, B. Erman, J. E. Mark, A. Weinberg, Physics Today, 44(6),
133 (1991).
79.Fluctuations,
Correlations and Small Angle Neutron Scattering from Endlinked Gaussian Chains
in Regular Bimodal Networks, A. Kloczkowski, J. E. Mark, B. Erman,
Macromolecules. 24, 3266 (1991).
80.Segmental
Orientation in Poly(oxyethylene) Networks, T. Haliloglu; I. Bahar; B. Erman,
Comp. Polymer Science, 1, 151, 1991.
81. A
Stochastic Treatment of Conformational Transitions of Polymer Chains in the
Sub-Rouse Regime I. Bahar, B. Erman, L. Monnerie, Macromolecules,
24,3621(1991).
82. Comment
on Statistical Mechanics of Rubber Elasticity, A. Kloczkowski, J. E. Mark, B.
Erman, B. E. Eichinger, Journal of Chemical Physics, 94, 7015, 1991.
83.Elastomeric
Polymer Networks. Edited by J. E. Mark, B. Erman, Prentice Hall, Polymer
Science Series, 1992.
84.Stress-Strain
and Segmental Orientation in Networks with Semi-Rigid Chains, B. Erman, I.
Bahar, A. Kloczkowski, J. E. Mark, in Elastomeric Polymer Networks. Edited by
J. E. Mark, B. Erman, Prentice Hall, Polymer Science Series, 142, (1992).
85.Segmental
Motions of cis-Polyisoprene in the Bulk State: Interpretation of Dielectric
Relaxation Data. I. Bahar, B. Erman, F. Kremer, E. W. Fischer. Macromolecules.
25,816(1992).
86.Stress-Strain
Isotherms for Elastomers Cross-Linked in Solution. 2. Interpretation in Terms
of the Constrained-Chain model. B. Erman, J. E. Mark. Macromolecules.
25,1917(1992).
87.
Correlations Among Chains Along a Cross-Linked Path in a Phantom Network and
Their Characterization by SANS. Kloczkowski, A.; Mark, J. E.; Erman, B.
Macromolecules. 25,2455(1992).
88. The
James and Guth Model in Modern Theories of Neutron Scattering from Polymer
Networks. A. Kloczkowski, J. E. Mark, B. Erman. J. Computational Polym. Sci.,
2, 8 (1991).
89.
Correction to the Constrained Chain Model of Rubber Elasticity. B. Erman, L.
Monnerie, Macromolecules. 25,4456(1992).
90.
Segmental Orientation in Model Networks of Poly(dimethyl siloxane):
FourierTransform Infrared Dichroism Measurements and Theoretical
Interpretation, Besbes, S.; Cermelli, I.; Bokobza, L.; Monnerie, L.; Bahar, I.
Erman, B., Herz, J. Macromolecules, 25, 1949 (1992).
91.
Orientational and Conformational Correlations in Deformed Polymer Chains with
Fixed End-to-End Separation: A Brownian Dynamics Simulation Study. T.
Haliloglu, I. Bahar, B. Erman, J. Chem. Phys., 97, 4428 (1992).
92.
Time-Dependent Probability Distribution Functions for Orientational Motions of
Segments in Polymer Chain. T. Haliloglu, B. Erman, I. Bahar, J. Chem. Phys.,
97, 4438 (1992).
93. Networks
Undergoing Strain-Induced Crystallization. Analysis in Terms of
Constrained-Junction Model. M. A. Sharaf, A. Kloczkowski, J. E. Mark, B. Erman,
Journal of Computational Polymer Science. 2, 84 (1992).
94.
Theoretical and Experimental Study of Dissolution of Inhomogeneities Formed
During Spinodal Decomposition in Polymer Mixtures. A. Z. Akcasu, I. Bahar, B.
Erman, Y. Feng, C. C. Han. J. Chem. Phys, 97, 5782 (1992).
95.
Nonlinear Kinetics of Spinodal Decomposition and Dissolution of Inhomogeneities
Formed by Spinodal Decomposition in Polymer Blends. A. Z. Akcasu, B. Erman, I.
Bahar. Makromol. Chemie, Macromol. Symp. 62, 43 (1992).
96.
Kinematics of Polymer Chains with Freely Rotating Bonds in Restrictive
Environment. 1. Theory. Bahar, I.; Erman, B.; Monnerie, L. Macromolecules, 25,
6309 (1992).
97.
Kinematics of Polymer Chains with Freely Rotating Bonds in Restrictive
Environment. 2. Conformational and orientational Correlation. Bahar, I.; Erman,
B.; Monnerie, L. Macromolecules, 25, 6315 (1992).
98. Local
Dynamics of Polymer Chains in Restrictive Environment. B. Erman, I. ĘBahar. in
Polymer Blends, Solutions and Interfaces, Eds. I. Noda and D. N. ĘRubingh, 197 (1992).
99.
Isotropic-Nematic Phase Transitions in Polymer Networks Deformed in the Dry and
Swollen States. A. Kloczkowski, J. E. Mark, B. Erman, I. Bahar. in Polymer
Blends, Solutions and Interfaces, Eds. I. Noda and D. N. Rubingh, 221 (1992).
100. Novel
Orientation Techniques for the Preparation of High-Performance Materials from
Semi-Flexible Polymers such as Cellulosics, Erman, B., Bahar, I., Yang, Y.,
Kloczkowski, A., Mark, J. E. in Polymer Blends, Solutions and Interfaces, Eds.
I. Noda and D. N. Rubingh, 209 (1992).
101.
Correction to Stress-Strain Isotherms for Elastomers Cross-Linked in Solution.
2. Interpretation in Terms of the Constrained-Chain model. B. Erman, J. E.
Mark. Macromolecules. 25,6380 (1992).
102.
Networks with Semi-Flexible Chains, B. Erman, I. Bahar, A. Kloczkowski, J. E.
Mark, in Synthesis, Characterization, and Theory of Polymeric Networks and
Gels, Ed. S. M. Aharoni, Plenum Press, New York, p. 113-126, (1992).
103. Theory
of Strain-Induced Crystallization in Real Elastomeric Networks, M. A. Sharaf,
A. Kloczkowski, J. E. Mark, B. Erman, in Synthesis, Characterization, and
Theory of Polymeric Networks and Gels, Ed. S. M. Aharoni, Plenum Press, New
York, p. 227-242, (1992).
104. Local
Chain Dynamics in Dense Polymer Systems. B. Erman, I. Bahar, Prog Colloid
Polym. Sci., 91, 16, 1992.
105. Dynamic
Rotational Isomeric State Approach for Segmental Motions of cis- Polyisoprene
in the Bulk State. I. Bahar, B. Erman, F. Kremer, E. W. Fischer. , Prog Colloid
Polym. Sci., 91, 16, 1992.
106.
Orientational Mobility in Uniaxially Deformed Polymer Chains: A Brownian
Dynamics Simulation Study. T. Haliloglu, B. Erman, I. Bahar, Polymer
Communications, 34, 440 (1993).
107. Moduli
of Model Elastomeric Networks Prepared from Polymer Chains Having a High
Plateau Modulus, and Their Interpretation in Terms of the Constrained-Chain
Model. Y. H. Hsu, J. E. Mark, B. Erman, J. Polym. Sci.: Part B: Polymer
Physics, 31, 481 (1993).
108. An
Infrared Dichroism Investigation of Segmental Orientation in Dry and Swollen
Poly(dimethyl siloxane) Networks, S. Besbes, L. Bokobza, L. Monnerie, I. Bahar
and B. Erman, Polymer, 34, 1179 (1993).
109.
Interpretation of Segmental Orientation in Deformed Networks in Terms of
Constrained Junction Model of Rubber Elasticity, B. Erman, I. Bahar, S. Besbes,
L. Bokobza, L. Monnerie, Polymer, 34, 1858 (1993).
110.
Stress-Strain-Molecular Orientation in Highly Cross-Linked cis-Polyisoprene
Networks, C. Kanberoglu; I. Bahar; B. Erman, Polymer 34, 4997 (1993).
111.
Mechanical Properties of Thermoplastic Elastomers of Poly(Butylene
Terephtalate) and Poly(Ethylene Glycol) in a Bending Deformation. S. Wang, J.
E. Mark, B. Erman, S. Fakirov J. Appl. Polym. Sci., 51, 145 (1993).
112.
Configurational Properties of Polypyrrole Chains. E. Yurtsever, B. Erman,
Polymer, 34, 3887 (1993).
113.
Entanglements in Amorphous Polymer Networks, B. Erman, Makromol Chem.,
Macromol. Symp., 76, 53 (1993).
114.
Comparison of the Constrained Junction and the Slip-Link Models of Rubber
Elasticity, T. A. Vilgis; B. Erman, Macromolecules, 26, 6657 (1993).
115.
Computer Simulation of Two-Dimensional Trifunctional Bimodal Networks, G.
Sakrak; I. Bahar; B. Erman Macromol. Theory Simul., 3, 151 (1994).
116. A Novel
Orientation Technique for Semi-Rigid Polymers. 1. Preparation of Cross-linked
Cellulose Acetate and Hydroxypropylcellulose Films Having Permanent Anisotropy
in the Swollen State, Y. Yang, A. Kloczkowski, J. E. Mark, B. Erman and I.
Bahar, Colloid & Polym. Sci, 272, 284 (1994).
117. Role of
Structural Heterogeneities on Segmental Orientation in Deformed Chains:
Application to Alternating Copolymers, I. Bahar, T. Haliloglu and B. Erman,
Macromolecules 27, 1703(1994).
118. Effect
of Molecular Structures on Local Chain Dynamics: Analytical Approaches and
Computational Methods, Bahar, I.; Erman, B.; Monnerie, L. Adv. Polymer
Sciences, 116, 145-206, Springer-Verlag Berlin Heidelberg 1994.
119.
Contribution of Bond Rotational Interdependence to Local Chain Dynamics: A
Brownian Dynamics Study, C. Baysal, B. Erman and I. Bahar, Macromolecules, 27,
3650 (1994).
120.
Intramolecular Contributions to Stretched Exponential Relaxation Behavior in
Polymers, I. Bahar, B. Erman, G. Fytas and W Steffen, Macromolecules, 27, 5200
(1994).
121.
Mechanical Behavior of Swollen Networks, B. Erman, in Superabsorbent
Polymers,F. L. Buchholz and N. A. Peppas, (Eds.) ACS Symposium Series
573, pp 50-63, 1994.
122.
Molecular Orientation in Deformed Bimodal Networks. 1. Theory, I. Bahar, B.
Erman, L. Bokobza, and L. Monnerie, Macromolecules 28, 225 (1995).
123. Science
and Technology of Rubber, Mark, J. E., Erman, B., Eirich, F., (Eds.) Academic
Press (1994).
124.
Molecular Basis of Rubber Elasticity, B. Erman, J. E. Mark, in Science and
Technology of Rubber Mark, J. E., Erman, B., Eirich, F., (Eds.) Academic
Press (1994).
125.
Molecular Orientation in Deformed Bimodal Networks. 2. Fourier Transform
Infrared Measurements on PDMS Networks and Comparison with Theory, by S.
Besbes, L. Bokobza, L. Monnerie, I. Bahar, and B. Erman, Macromolecules 28, 231
(1995).
126. A
Simple Derivation of the Exponent g for Gaussian Chains with Excluded Volume,
A. Kloczkowski, J. E. Mark and B. Erman, Macromol Theory Simul. 4, 245 (1995).
127.
Kinematics of Polymer Chains in Dense Medium. 3. Influence of Intramolecular
Conformational Potentials, I.Bahar, N. Baysal B. Erman and L. Monnerie,
Macromolecules, 28, 1038-1048, (1995).
128.
Segmental Orientation in Deformed Netowrks. 2. Molecular Theory of Biaxial
Deformation, Z. Sarac, B. Erman and I. Bahar, Macromolecules, 28, 582-588,
(1995).
129.
Dynamic-Mechanical Study of Amorphous Phases in Poly(ethylene
terephtalate)/Nylon-6 Blends, T. Serhatkulu, B. Erman, I. Bahar and S. Fakirov
M. Evstatiev and D. Sapundjieva, Polymer 36, 2371-2377, (1995).
130.
Coupling Between Different Modes in Local Chain Dynamics: A Modal Correlation
Analysis, C. Baysal, A. R. Atİlgan, B. Erman and I. Bahar J. Chem. Soc.
Faraday Trans. 91, 2483-2490, (1995).
131. A
Diffused-Constraint Theory for the Elasticity of Amorphous Polymer Networks. 1.
Fundamentals and Stress-Strain Isotherms in Elongations, A. Kloczkowski, J. E.
Mark and B. Erman, Macromolecules, 28, 5089-5096, (1995).
132. A Diffused-Constraint
Theory for the Elasticity of Amorphous Polymer Networks. 2. Molecular
Deformation Tensors and Strain Birefringence, A. Kloczkowski, J. E. Mark and B.
Erman, Computational Polymer Science, 5, 37-45, (1995).
133.
Dependence of Segmental Orientation on Polymer Conformational Characteristics,
T. Haliloglu, I. Bahar and B. Erman, Polymer 36, 4131-4134, (1995).
134.
Theoretical Analysis of the Elastomeric and Optical Properties of Networks of
Semirigid Chains in the Swollen State, Y. Yang, A. Kloczkowski, J. E. Mark, B.
Erman, and I. Bahar, Macromolecules 28, 4920-4926 (1995).
135.
Oriented Gelatin-A New Source for High Performance Materials, W. Zhao, A.
Kloczkowski, J. E. Mark, B. Erman, and I. Bahar, J. Macromolecular Sci., Pure
and Applied Chemistry, A33(5), 525-540, (1996).
136. A
Dynamic Rotational Isomeric State Approach for Extension of the Time Scale of
the Local Dynamics Observed in Fully Atomistic Molecular Dynamics Simulations:
Application to Polybutadiene, T. Haliloglu, I. Bahar, B. Erman, E. G. Kim, W.
L. Mattice, J. Chem. Phys. 104, 4828-4834, (1996).
137. A
Molecular Dynamics Analysis of Coupling between Librational Motions and
Isomeric Jumps in Chain Molecules, Baysal, C., Atilgan, A. R., Erman, B.,
Bahar, I., Macromolecules 29, 2510-2514, (1996).
138.
Segmental Orientation in Deformed Rubbery Networks, I. Bahar and B. Erman,
Oriented Polymer Materials, S. Fakirov (Ed.), Huthig & Webf Verlag, Oxford,
p467-481, (1996).
139.
Kinematics of Polymer Chains in Dense Medium. 4. Effect of Backbone Geometry
and Application to Polybutadiene, Baysal, C., Erman, B., Bahar, I., Monnerie,
L., Macromolecules 29, 2980-2988, (1996).
140.
Mechanisms of the Exchange of Diblock Copolymers between Micelles at Dynamic
Equilibrium, Haliloglu, T., Bahar, I., Erman, B., Mattice, W. L.,
Macromolecules 29, 4764- 4771, (1996).
141.
Main-Chain Lyotropic Liquid-Crystalline Elastomers. 1. Syntheses of
Cross-Linked Polyisocyanate Gels Acquiring Liquid-Crystalline Behavior in the
Swollen State, Zhao, W.V., Kloczkowski, A., Mark, J. E., Erman, B., Bahar, I.
Macromolecules 29, 2796-2804, (1996).
142.
Main-Chain Lyotropic Liquid-Crystalline Elastomers. 2. Orientation and
Mechanical Properties of Polyisocyanate Films, Zhao, W. V., Kloczkowski, A.,
Mark, J. E., Erman, B., Bahar, I. Macromolecules 29, 2805-2812, (1996).
143. The
Response of a Single Grafted Chain to Shear Flow. A Brownian Dynamics
Simulation Study, Haliloglu, T., Bahar, I., Erman, B. J. Chemical Physics 105,
2919-2926, (1996).
144.
Relative contributions of coupled rotations and small amplitude torsions to
conformational relaxation in polymers, T. Haliloglu, I. Bahar, B. Erman and W.
L. Mattice Macromolecule 29, 8942-8947, (1996).
145. Make
tough plastic films from gelatin, W. Zhao, A. Kloczkowski, J. E. Mark, B.
Erman, and I. Bahar, CHEMTECH 26, 32-38, (1996).
146.
Structures and Properties of Rubberlike Networks, Burak Erman and James E.
Mark, Oxford University Press, (1997).
147. Direct
evaluation of thermal fluctuations in proteins using a single parameter
harmonic potential, I. Bahar, A. R. Atilgan, and B. Erman, Folding & Design
2, 173-181, (1997).
148. Three
approaches that permit more efficient simulation of the dynamics of atomistic
models of polymers: I. Bahar, J. Cho. P. Doruker, B. Erman, T. Haliloglu, E.
-G. Kim, W. L. Mattice, L. Monnerie and R. F. Rapold, Trends Polymer Sci. 5,
155-160, (1997).
149. Local
dynamics of bulk polybutadiene of various microstructures: Comparison of Theory
with NMR Measurements, C. Baysal, B. Erman, I. Bahar, F. Laupretre, L.
Monnerie, Macromolecules 30, 2058-2066, (1997).
150.
Equilibrium States of Rigid Bodies with Multiple Interaction Sites. Application
to Protein Helices, B. Erman, I. Bahar and R. L. Jernigan, J. Chem. Phys. 107,
2046-2059, (1997).
151.
Gaussian Dynamics of Folded Proteins, Haliloglu, T. Bahar, I. & Erman, B.
Phys. Rev. Lett. 3090-3093, (1997).
152.
Understanding the recognition of protein structural classes by amino acid
composition, Ivet Bahar, Ali Rana Atilgan, Robert L. Jernigan and Burak Erman,
Proteins, Structure, Function and Genetics, 29, 172-185 (1997).
153.
Calculations on Trimodal Elastomeric Networks. Effects of Chain Length and
Composition on Ultimate Properties, B. Erman and J. E. Mark, Macromolecules,
31, 3099, (1998).
154.
Identification of cooperative motions and correlated structural elements in
coarse-grained proteins. Application to T4 lysozyme. Bahar, I., Erman, B. &
Jernigan, R. L. Biochemistry 36, 13512-13523, (1997).
155.
Swelling of Sodium Chloride Filled Polybutadiene Networks in Aqueous
Environment, Seda Erdal, Ivet Bahar and Burak Erman, Polymer 39, 2035-2041,
(1997).
156.
Experimental Studies of Elastomeric and Optical Properties, and Strain- Induced
Liquid Crystalline Phase transitions, in Deformed Hydroxypropyl cellulose
Networks in the Swollen State, Y. Yang, A. Kloczkowski, J. E. Mark, B. Erman
and I. Bahar, Macromolecules, 28, 4927 (1995).
157. Novel
High-Performance Materials from Starch. I. Factors Influencing the Lyotropic
Liquid Crystallinity of Some Starch Ethers, W. Zhao, A. Kloczkowski, J. E.
Mark, B. Erman, Chemistry of Materials, 10, 784 (1998).
158. Novel
High-Performance Materials from Starch. II. Orientation and Mechanical
Properties of Lightly Cross-linked Starch-Ether Films, W. Zhao, A. Kloczkowski,
J. E. Mark, B. Erman, Chemistry of Materials, 10, 794 (1998).
159. Novel
High-Performance Materials from Starch. III. Influence of Degree of
Substitution and Amylose/Amylopectin Ratio on Performence, W. Zhao, A. Kloczkowski,
J. E. Mark, B. Erman, Chemistry of Materials, 10, 804 (1998).
160.
Correlated Fluctuations in Polymer Networks, A. R. Atilgan, T. Haliloglu, I.
Bahar and B. Erman, J. Computational and Theoretical Polymer Science,8, 55
(1998).
161. Chains
Between Two Parallel Walls: Distribution Functions and Force- Deformation
Relations, B. Erman and L. Monnerie, Macromolecules, 30, 5075- 5084, (1997).
162.
Significance of Different Modes in Dynamics of Chains in a Dense Medium, B.
Erman, Macromol. Symp. 121, 163-173 (1997).
163.
Swelling and Static-Dynamic Mechanical Behavior of Mica-Reinforced Linear and
Star-Branched Polybutadiene Composites, N. Nugay, S. Kusefoglu and B. Erman, J.
Appl. Polym. Sci., 66, 1943-1952 (1997).
164. A
Conducting Polymer from cis-1,4-Polybutadiene, P. Yildirim, Z. Kucukyavuz, B.
Erman, Synthetic Metals, 88, 231-235 (1997).
165. Local
chain dynamics and glass transition, B. Erman & I. Bahar, Makromolekulare
Chemie Makromol. Symp. 133, 33 (1998).
166.
Vibrational dynamics of proteins: Significance of slow and fast modes in
relation to function and stability, I. Bahar, A. R. Atilgan, M. C. Demirel,
& B. Erman, Phys. Rev. Lett. 80, 2733-2736, (1998).
167.
Identification of kinetically hot residues in proteins, M. C. Demirel, A. R.
Atilgan, R. L. Jernigan, B. Erman and I. Bahar, Protein Science, 7, 2522
(1998).
168. Protein
Dynamics for Global Motions, I. Bahar, O. B. Ptitsyn, B. Erman, R. L. Jernigan,
Biophys. J. 74, A276 (1998)
169.
Simulations of Polymeric Systems, B. Erman, I. Bahar, in Continuum Models and
Discrete Systems, Ed. E. Inan, K. Z. Markov, pp 297-303, World Scientific
Publishing, (1998).
170. A
Comparative Study Based on Cooperative Kinematics Theory and nmr Experiments.
Local Dynamics of cis-Poly(butadiene) and cis-Poly(isoprene), T. Z. Sen, I.
Bahar, B. Erman, F. Laupretre, L. Monnerie, Macromolecules, 32, 3017-3024,
(1999).
171.
Application of the Gaussian theory of elastomeric networks to native proteins:
analysis of fluctuations and the dynamic scattering function, B. Erman,
Computational and Theoretical Polymer Science, 9, 295-299 (1999).
172.
Collective dynamics of HIV-1 reverse transcriptase. Examination of Flexibility
and Enzyme Function, I. Bahar, B. Erman, R. L. Jernigan, A. R. Atilgan, &
D. Covell J. Mol. Biol.
285,
1023-1037, (1999).
173.
Elastomers and Rubber Elasticity, J. E. Mark, B. Erman, in Performance of
Plastics, Ed: W. Brostow, pp. 401-422, Hanser Publishers, 2000.
174.
Gaussian Theory of Protein Folding, B. Erman, K. A. Dill, J. Chem. Phys. 112,
1050-1056, (2000).
175. A
Theoretical and Experimental Study of the Filler Effect on
Stress-Deformation-Segmental Orientation Relations for poly(dimethylsiloxane)
Networks, L. Bokobza, B. Erman, Macromolecules, 33, 8858-8864,(2000).
176.
Solution Cross-linked Poly(isobutylene) Gels: Synthesis and Swelling Behavior,
O. Okay, S. Durmaz, B. Erman, Macromolecules, 33, 4822-4827 (2000).
177.
Relating the Structure of HIV-1 Reverse Transcriptase to its Processing Step,
R. L. Jernigan, I. Bahar, D. G. Covell, A. R. Atilgan, B. Erman, D. T. Flatow,
J. Biomolecular Structure and Dynamics, 11, 49-55, (2000).
178.
Property optimization in nitrile rubber composites via hybrid filler systems,
N. Nugay, B. Erman, Journal of Applied Polymer Science, 72, 366-374 (2001).
179. Elastic
Behavior of Solution Cross-linked poly(isobutylene) Gels Under Large
Compression, M. N. Inci, B. Erman, O. Okay, S. Durmaz, Polymer, 42, 3771-3777
(2001).
180. High
Performance Biodegradable Materials from Oriented Starch Derivatives, J. E.
Mark, B. Z. Paterson, B. Erman, I. Bahar, A. Kloczkowski, US Patent # 6,218,532
B1, april 17, 2001.
181. Hybrid
reinforcement in Nitrile Rubber Composites, N. Nugay, B. Erman, Macromol. Symp.
169, 269-274 (2001).
182.
High-Pressure Cell for Simultaneous Small-Angle X-Ray Scattering and Laser
Light Scattering Measurements, T. Koga, S. Zhou, B. Chu, J. L. Fulton, S. Yang,
C. K. Ober, B.Erman, Rev. Sci. Inst. 72, 2679-2685 (2001).
183.
Conformational Features of poly(1,1-dihydroperfluorooctyl acrylate) and
poly(vinyl acetate) Diblock Oligomers in Supercritical Carbon Dioxide, C.
Baysal, B. Erman, B. Chu, J. Chem. Phys. 114, 54444-5449 (2001).
184. Free
Radical Crosslinking of Unsaturated Bacterial Polyesters Obtained from Soybean
Oily Acids, B. Hazer, S. I. Demirel, M. Borcakli, M. S. Eroglu, M. Cakmak, B.
Erman, Polymer Bulletin, 46, 389-394 (2001).
185.
Analysis of multiple folding routes of proteins by a coarse grained dynamics
model, B. Erman, Biophysical Journal, 81, 3534-3544, (2001).
186.
Parameter optimization for the Gaussian model of protein folding, A. Erkip, B.
Erman, C. Seok, K. Dill, Polymer, 43, 495-501 (2001).
187.
Collective deformations in proteins determined by a mode analysis of molecular
dynamics trajectories, P. Doruker, I. Bahar, C. Baysal, B. Erman, Polymer, 43,
431-439 (2001).
188. Effect
of non-Gaussian chains on fluctuations of junctions in bimodal networks A.
Kloczkowsi, B. Erman, J. E. Mark, Polymer, 23, 123-130 (2002).
189. The
elastic net algorithm and protein structure prediction, K. D. Ball, K. A. Dill,
J. Computational Chemistry, 23, 77-83 (2002).
190.
Electrospinning of polyurethane elastomers, M. Demir, I. Yilgor, E. Yilgor, B.
Erman, Polymer, 43, 3303-3309 (2002).
191. Rubber
Elasticity, B. Erman, Encyclopedia of Materials Science: Science and
Technology, pp 8227-8237 (2002)
192. Minimum
Energy Configurations of the 2-Dimensional HP-Model of Proteins by
Self-Organizing Networks, B. Yanikoglu, B. Erman, J. Comp. Biology, 9, 613-620
(2002)
193.
Dimensions of Polystyrene Particles Deposited on Mica from Dilute Cyclohexane
Solution, M. Demir, B. Erman, Macromolecules, 35, 7986-7992 (2002).
194.
Conformational Properties of the Bacterial Polyester Poly(3-hydroxyundecanoate),
S. Kirmizialtin, C. Baysal, B. Erman, Macromolecules 36, 1132-1137 (2003
)
195.
Conformational Analysis of Model Poly(ether Urethane) Chains in the Unperturbed
State and Under External Forces, I. Yilgor, E. Yurtsever, B. Erman,
Macromolecules, 35, 9825-9831 (2002).
196.
Superabsorbent Materials Based on Butyl Rubber Process for Making Said
Materials and Use of Them, O. Okay, S. Durmaz, B. Erman, European Patent No.
TR9900055 (2002).
197. Pulse
propagation in Poly(dimethylsiloxane) Networks M. Sinha, B. Erman, J. E. Mark,
T. H. Ridgway, Howard E. Jackson, Macromolecules, 36, 6127-6134 (2003).
198.
Dynamics of large scale fluctuations in native proteins. Analysis based on
harmonic inter-residue potentials and random external noise. A. Erkip, B.
Erman, Polymer 45, 641-648 (2004)
199.
Palladium Nanoparticles by Electrospinning from Polyacrylonitrile-co-acrylic
acid-PdCl2 Solutions. Relations between Preparation Conditions,
Particle Size and Catalytic Activity, M. M. Demir, M. A. Gulgun, Y. Z.
Menceloglu, B. Erman, S. S. Abramchuk, E. E. Makhaeva, A. R. Khokhlov, V. G.
Matveeva, M. G. Sulman, Macromolecules, 37, 1787-1792 (2004).
200.
Relationships between amino acid sequence and backbone torsion angle
preferences in proteins, O. Keskin, D. Yuret, A. Gursoy, M. Turkay, B. Erman,
Proteins-Structure Function and Bioinformatics 55, 992-998 (2004).
201.
Molecular Aspects of Rubber Elasticity. B. Erman. in Mechanics and
Thermomechanics of Rubberlike Solids, CISM. Vol. 452. Eds. G. Saccomandi,
R.W. Ogden, Springer, 63-89 (2004).
202. Effect of Chemical Composition on Large deformation Mechano-Optical
Properties of High Strength Thermoplastic Polyurethaneureas, S. Curgul, I,
Yilgor, E, Yilgor, B, Erman, M. Cakmak, Macromolecules 37, 8676-8685 (2004).
203. Effect of flow on solutions of rod-coil block
co-polymers, S. Curgul, B. Erman, Polymer 46, 275-281 (2004).
204. Folding Dynamics of Proteins from Denatured to Native State: Principal
Component Analysis, A. Palazoglu, A. Gursoy, Y. Arkun, B. Erman, J. Computational
Biology 11, 1149-1168 (2004).
205. Effect of filler amount on thermoelastic properties of
poly(dimethylsiloxane) networks. Mustafa M. Demir, Y. Z. Menceloglu, B. Erman,
Polymer 46, 4127-4134 (2005).
206. The
molecular basis of rubber elasticity, B. Erman and J. E. Mark, in The Science
and Technology of Rubber, Edited by J. E. Mark, B. Erman, F. R. Eirich,
Elsevier academic Press, Third Edition, 157-181 (2005).
207. The
Science and Technology of Rubber, Edited by J. E. Mark, B. Erman, F. R. Eirich,
Elsevier academic Press, Third Edition, 2005.
208. Optimum
Folding Pathways of Proteins. Their Determination and Properties. U. Guner, Y.
Arkun, B. Erman. J. Chem Phys. 124, 134911 (2006).
209.
Computational Basis of Knowledge-Based Conformational Probabilities Derived
from Local and Long-Range Interactions in Proteins, L. Ormeci, A. Gursoy,
G. Tunca, B. Erman, Proteins: Structure, Function, and Bioinformatics 65,
3589–3599 (2006).
210. The
Gaussian Network Model: Precise Prediction of Residue Fluctuations and
Application to Binding Problems, B. Erman, Biophysical Journal, 91, 3589–3599
(2006).
211. Aggregation of Fillers Blended into Random Elastomeric Networks: Theory and Comparison with Experiments, M. Demir,* Y. Z. Menceloglu, B. Erman, Macromol.Chem.Phys, 207,1515–1524 (2006).
212. Conformations of Tryptophan in Native Proteins and Comparison with
Quantum Mechanical Calculations, E. Yurtsever, D. Yuret, B. Erman, J. Phys.
Chem. A , 110, 13933-13938 (2006).
213. On the Theoretical Foundations of the Gaussian Network Model and Its Applications to Proteins, I. Bahar, C. Chennubhotla, B. Erman, Phys. Biol. 4, 64–65 (2007) .
214.
Rubberlike Elasticity: A Molecular Primer. J.E. Mark, B. Erman, Cambridge
University Press 2007.
215. Optimum Folding Pathways for Growing Protein Chains, S. Senturk, S. Baday, Y. Arkun, B. Erman, Phys. Biol. 4, 1-12, (2007).
215. Long time stress relaxation of amorphous networks under uniaxial tension: The Dynamic Constrained Junction Model. H. Konyali, Y. Menceloglu, B. Erman, Polymer, 49, 1056-1065, (2008).
216. Prediction of Binding Sites in Receptor-Ligand Complexes with the Gaussian Network Model. T. Haliloglu, E. Seyrek, B. Erman, Physical Review Letters, 100, 228102-4 (2008)
217. The introduction of hydrogen bond and hydrophobicity effects into the rotational isomeric states model for conformational analysis of unfolded peptides. Ozge Engin, Mehmet Sayar and Burak Erman, Phys. Biol. 6, 1-13 (2009)
218.
Elastomeric Networks, B. Erman, J. E. Mark, Elastomeric Networks, in Molecular Characterization and
Analysis of Polymers Ed. J. M, Chalmers, Encyclopedia of Polymer
Science and Technology, 337-377, (2009)
219.
Statistical Thermodynamics of Residue Fluctuations in Native Proteins, O. Yogurtcu,
M. Gur, B. Erman, J. Chemical Physics, 130, 095103-16, (2009)
220.
Analysis of Correlations between Energy and Residue Fluctuations in Native
Proteins and Determination of Specific Sites for Binding, Turkan Haliloglu and
Burak Erman, Physical Review Letters, 102, 088103-6, (2009)
221.
Determination of pair-wise inter-residue interaction forces from folding
pathways and their implementation in coarse-grained folding prediction, Sefer
Baday, Burak Erman and Yaman Arkun, Physical Chemistry Chemical Physics, 11,
1949-1961 (2009)
222.
Advances in Constraint Theories of Rubber-like Elasticity of Polymers, Burak
Erman, Current Opinion in Solid State & Materials Science, 14, 35-37, (2010)
223.
Long-time stress relaxation of filled amorphous networks under uniaxial
tension: The Dynamic Constrained Junction Model, Haluk Konyali, Yusuf Menceloglu,
Burak Erman, Plastics, Rubber and Composites: Macromolecular Engineering, 38, 327-332,
(2009).
224. Predicting
Important Residues and Interaction Pathways in Proteins Using Gaussian Network Model:
Binding and Stability of HLA Proteins, Turkan Haliloglu, AhmetGul ,BurakErman, PLOS
Computational Biology, 6, e1000845, (2010).
225. Evidence
of Strain Hardening in DNA Gels, Nermin Orakdogen, BurakErman, and Oguz Okay,
Macromolecules, 43, 1530-1538, (2010).
226. VitAL: Viterbi
Algorithm for denovo Peptide Design, E. Besray Unal, Attila Gursoy, Burak Erman,
PLOS One, 5, e10926, (2010).
227. Prediction
of Optimal Folding Routes of Proteins that Satisfy the Principle of Lowest
Entropy Loss: Dynamic Contact Maps and Optimal Control, Yaman Arkun and Burak
Erman, PLOS One, 5 e13275, (2010).
228. Anharmonicity,
mode-coupling and entropy in a fluctuating native protein, A. Kabakcıoglu,
D. Yuret, M.Gur, B.Erman. Physical Biology, 7, e046005 (2010).
229. Quasi-harmonic analysis of mode coupling in fluctuating native proteins, Mert Gur and Burak Erman, Physical Biology, 7 e046006, (2010).
230. Identification of Ligand Binding Sites of Proteins Using the Gaussian Network Model, Ceren Tuzmen and Burak Erman, PLoS One, 6, e16474, (2011)
232. Native Proteins as Physical Networks: Energy and Geometry Fluctuations and Their Relation to Function, Burak Erman, Macromol.Symp.,306-307,1–10 (2011).
233. A Comparative Molecular Dynamics Study of Methylation State Specificity of JMJD2A, Ozlem Ulucan, Ozlem Keskin, BurakErman, AttilaGursoy, PLoS One, 6, e24664 (2011).
234. Molecular
Recognition of H3/H4 Histone Tails by the Tudor Domains of JMJD2A: A Comparative
Molecular Dynamics Simulations Study, Musa Ozboyaci, Attila Gursoy, Burak Erman,
OzlemKeskin, PLoS One, 6, e14765 (2011).