Verfügbarkeit: Helical wormlike chains in polymer solutions

Helical wormlike chains in polymer solutions:

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Bibliographische Detailangaben
Hauptverfasser:	Yamakawa, Hiromi 1931- (VerfasserIn), Yoshizaki, Takenao (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Heidelberg ; New York ; Dordrecht ; London Springer [2016]
Ausgabe:	Second edition
Schlagworte:	Helicität > Chemie Polymere Polymerlösung
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xiv, 511 Seiten Illustrationen, Diagramme
ISBN:	9783662487143 9783662487167

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Datensatz im Suchindex

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adam_text	CONTENTS 1 INTRODUCTION........................................................................ 1.1 HISTORICAL SURVEY....................................................... 1.2 SCOPE.......................................................................... REFERENCES ............................................................................ 2 MODELS FOR POLYMER CHAINS................................................ 2.1 DISCRETE MODELS ........................................................ 2.1.1 AVERAGECHAIN DIMENSIONS .................. 2.1.2 RANDOM-FLIGHT CHAINS: THE GAUSSIAN CHAIN 2.1.3 FREELY ROTATING CHAINS ....................... 2.1.4 CHAINS WITH COUPLED ROTATIONS THE ROTATIONAL ISOMERIC STATE MODEL........ 2.2 CONTINUOUS MODELS.................................................... REFERENCES.............................................................................. 3 CHAIN STATISTICS: W O R IK E CHAINS . . . . . . . .................. 3.1 DEFINITION OF THE M ODEL............................................. 3.2 DIFFUSION EQUATIONS................................................... 3.2.1 GREEN FUNCTIONS ........................................... 3.2.2 FOKKER-PLANCKEQUATIONS ..................... 3.2.3 PATH INTEGRALS AND FORMAL SOLUTIONS ......... 3.3 MOMENTS.................................................................... 3.3.1 ( ( R * IK))N) ........................................................... 3.3.2 (R2M) . ............................................................ 3.4 DISTRIBUTION FUNCTIONS.............................................. 3.4.1 ASYMPTOTIC BEHAVIOR: DANIELS-TVPE DISTRIBUTIONS 3.4.2 NEAR THE ROD LIMIT.............................................. 3.5 DISCRETE VERSION OF THE WORMLIKE CHAIN .................... REFERENCES..................................................................................... 1 1 N 5 7 O S * * 9 N 1 * H I 3 5 0 0 1 1 3 3 4 7 1 1 3 4 4 9 3 7 I L 1 1 1 2 2 2 2 2 2 3 3 3 3 3 3 4 5 4 CHAIN STATISTICS HELICAL WORMLIKE CHAINS ................ A 1 FORMULATION OF THE MODEL.......................................... 4.2 DIFFUSION EQUATIONS................................................... 4.2 1 PATH INTEGRALS AND FOKKER-PLANCK EQUATIONS 4.2.2 THEFREE-PARTICLEGREEN FUNCTION ........... 4.2.3 FORMAL SOLUTIONS.......................................... 4.3 MOMENTS.................................................................... 4.3.1 (R.U ) .......................................... :. 4.3.2 {RIM) AND(52) ............................................. 4.3.3 PERSISTENCE VECTOR ....................................... 4.4 ANGULAR CORRELATION FUNCTIONS ................................. 4.4 1 EXPLICIT EXPRESSIONS FOR * = 0 .._. 4.4.2 THE ROTATIONAL ISOMERIC STATE MODEL........ 4.4.3 SYMMETRY RELATIONS .................................... 4.4.4 NUMERICAL RESULTS ....................................... 4.5 HELICAL NATURE OF THE CHAIN ....................................... 4.6 DISTRIBUTION FUNCTIONS .............................................. 4.6 1 GENERAL DEVELOPMENTS ................................. 4.6.2 DANIELS-TYPE DISTRIBUTIONS........... ........ 4.6.3 MOMENT-BASED DISTRIBUTIONS ....... 4.6.4 CONVERGENCE................................................ 4., APPROXIMATIONS ........................................................ 4.7.1 WEIGHTING FUNCTION METHOD ..... 4.7.2 EPSILON METHOD ........................................... 4.7.* CONVERGENCE................................................. 4.8 SOME OTHER TOPICS .................................................... 4.8.1 MULTIVARIATE DISTRIBUTION FUNCTIONS, ETC. .... 4.8.2 TEMPERATURE COEFFICIENTS OF (R2) ............ REFERENCES............................................................................. 5 EQUILIBNUIN PROPERTIES...................................................... 5.1 M E AN -S Q U I RADIUS OF GYRATION .............................. 5.1.1 BASIC EQUATIONS AND MODEL PARAMETERS ..... 5.1.2 CHAIN STIFFNESS AND LOCAL CHAIN CONFORMATIONS 5.1.3 HW MONTE CARLO CHAINS ............. ....... 5.2 SCATTERING FUNCTION................................................... 5.2.1 SCATTERING FUNCTION FOR THE CHAIN CONTOUR. 5.2.2 COMPARISON WITH THE RIS MODEL ........... 5.2.3 EFFECTS OF CHAIN THICKNESS.................. 5.2.4 COMPARISON WITH EXPERIMENT............... 5.2.5 RING POLYMERS ........................................... 5.3 ANISOTROPIC LIGHT SCATTERING: MEAN-SQUARE OPTICAL ANISOTROPY................................................................ 5.3.1 BASIC EQUATIONS.......................................... 5.3.2 COMPONENTS OF THE SCATTERED INTENSITY ..... 9 9 4 4 7 0 2 3 4 7 0 1 * 2 6 8 2 3 4 7 1 4 6 6 1 4 6 6 6 6 9 9 9 2 4 6 6 2 4 9 3 5 5 8 5 5 6 6 6 7 S 7 7 7 8 8 8 X 8 9 9 9 9 0 0 0 0 1 1 1 1 * 2 2 2 2 3 3 3 3 4 4 4 5 5 5 5 CONTENTS XI 5.3.3 MEAN-SQUARE OPTICAL ANISOTROPY .................................... 164 5.3.4 ISOTOPIE SCATTERING FUNCTION .......................................... 169 5.3.5 NEAR THE ROD LIM IT.......................................................... 172 5.4 ELECTRICAL PROPERTIES........................................................................... * 75 5.4.1 MEAN-SQUARE ELECTRIC DIPOLE MOMENT.................... 175 5.4.2 ELECTRIC BIREFRINGENCE...................................................... 179 5.4.3 ELECTRIC DICHROISM ........................................................... 183 REFERENCES................................................................................................. 189 6 B N S P O R T PROPERTIES.............................................................................. 193 6.1 GENERAL CONSIDERATION OF POLYMER HYDRODYNAMICS ................ 193 6.2 HYDRODYNAMIC MODELS................................................................... 195 6.2 1 CYLINDER M ODEL................................................................. 195 6.2.2 TOUCHED-BEAD MODEL....................................................... 200 6.3 TRANSLATIONAL FRICTION COEFFICIENT ................................................. 202 6.3.1 CYLINDER M ODEL................................................................ 202 6.3.2 TOUCHED-BEAD MODEL....................................................... 207 6.4 INTRINSIC VISCOSITY.......................................................................... 208 6.4.1 CYLINDER M ODEL ................................................. .... 208 6.4.2 TOUCHED-BEAD MODEI....................................................... 215 6.5 ANALYSIS OF EXPERIMENTAL D ATA ..................................................... 219 6.5.1 BASIC EQUATIONS AND MODEL PARAMETERS ................... 219 6.5.2 REDUCED HYDRODYNAMIC VOLUME AND RADIUS ............. 224 6.5.3 NEGATIVE INTRINSIC VISCOSITY............................................. 227 6.5.4 DRAINING E FFECT................................................................ 229 6.6 RING POLYMERS................................................................................ 230 6.6.1 TRANSLATIONAL FRICTION COEFFICIENT............. . . . . . . . . . . . . . 230 6.6.2 INTRINSIC VISCOSITY ........................................................... 232 6.6.3 APPLICATION TO DN A ........................................................ 234 REFERENCES................................................................................................. 247 7 APPLICATIONS TO CIRCULAR DNA................................................................. 251 7 1 RING-CLOSURE PROBABILITIES.............................................................. 2* ] 7.1.1 DEFINITIONS....................................................................... 251 7.1.2 LINKING-NUMBER-DEPENDENT RING-CLOSURE PROBABILITY .............................................. ..... 253 7.1.3 RING.CLOSURE PROBABILITY WITH THE END ORIENTATIONS SPECIFIED...................................................... 259 7 1 4 OTHER RING-CLOSURE PROBABILITIES .......... 263 7.1.5 COMPARISON WITH EXPERIMENT.......................................... 207 7.2 TOPOISOMER STATISTICS ..................................................................... 270 7.2.1 BASIC CONCEPTS AND EQUATIONS......................................... 270 7.2.2 DISTRIBUTION OF THE WRITHE................................................ 272 7.2.3 MOMENTS OF THE WRITHE .................................................... 276 7.2.4 DISTRIBUTION OF THE LINKING NUMBER . . . . . .................. 279 7.2.5 MEAN-SQUARE RADII OF GYRATION ....................................... 281 XII CONTENTS 7.3 TRANSLATIONAL FRICTION COEFFICIENT OF TOPOISOMERS.................. 285 REFERENCES................................................................................................. 289 8 EXCLUDED VOLUME EFFECTS....................................................................... 291 8.1 END-DISTANCE AND GYRATION-RADIUS EXPANSION FACTORS 291 8.1.1 PERTURBATION THEORY ........................................................ 291 8.1.2 RINGCLOSURE PROBABILITIES AND THE FIRST-ORDER COEFFICIENT....................................................................... 295 8.1.3 EFFECTS OF CHAIN STIFFNESS: QUASI-TWO-PARAMETER SCHEMA ........................................ 302 8.1.4 COMPARISON WITH EXPERIMENT.......................................... 305 8.2 VISCOSITY- AND HYDRODYNAMIC-RADIUS EXPANSION FACTORS ......... 310 8.2.1 EFFECTS OF CHAIN STIFFNESS AND FLUCTUATING HYDRODYNAMIC INTERACTION .............................................. 310 8.2.2 COMPARISON WITH EXPERIMENT.......................................... 312 8.3 SECOND VIRIAL COEFFICIENT.................................................... 321 8.3.1 PERTURBATION THEORY ........................................................ 321 8.3.2 EFFECTS OF CHAIN STIFFNESS AND LOCAL CHAIN CONFORMATIONS................................................................. 325 8.3.3 EFFECTS OF CHAIN E N D S...................................................... 327 8.3.4 EFFECTS OF THREE-SEGMENT INTERACTIONS ......... 329 8.3.5 COMPARISON WITH EXPERIMENT.......................................... 333 8.4 THIRD VIRIAL COEFFICIENT ...................................................... 337 8.4.1 PERTURBATIONTHEORYFORTHERANDOM-FHGHTCHAIN ....... 337 8.4.2 EFFECTS OF CHAIN STIFFNESS AND THREE-SEGMENT INTERACTIONS....................................................................... 339 8.4.3 EFFECTS OF CHAIN E N D S...................................................... 343 8.5 SOME REMARKS..................................................................... 344 8.5.1 NEAR THE ( H ) TEMPERATURE .................................................. 344 8.5.2 RING POLYMERS................................................................. 350 8.5.3 TEMPERATURE COEFFICIENTS OF UNPERTURBED CHAIN DIMENSIONS ........................................................... 353 REFERENCES................................................................................................. 359 9 SIMULATION AND MORE ON EXCLUDEDVOLUME EFFECTS..................... 363 9.1 MEAN.SQUARE RADIUS OF GYRATION........................................ 363 9.1.1 MODEL AND M ETHODS ........................................................ 363 9.1.2 ANALYSIS OF MONTE CARLO D ATA ........................................ 366 9 1.3 RECONSIDERATION OF THE UNPERTURBED STATE 370 9.2 SECOND VIRIAL COEFFICIENT ................................................... 372 9.2.1 MODEL AND M ETHODS ........................................................ 372 9.2.2 AVERAGED INTERMOLECULAR POTENTIAL................................... 375 9.2.3 ANALYSIS OF MONTE CARLO D ATA......................................... 376 9.3 POLYELECTROLYTES ................................................................... 382 9.3.1 MODEL .............................................................................. 382 9.3.2 DETERMINATION OF THE UNPERTURBED STATE................... 385 CONTENTS XIII 9.3.3 PERSISTENCE LENGTH ........................................................... 388 9.3.4 EXCLUDED-VOLUME STRENGTH .............................................. 392 9.4 PICTURE OF DILUTE SOLUTION BEHAVIOR OF POLYMERS................... 396 REFERENCES................................................................................................. 397 10 CHAIN D YNAM ICS ..................................................................................... 399 10.1 GENERAL CONSIDERATION OF .... 399 10.2 CONVENTIONAL BOND CHAINS ........................................................... 401 10.2.1 GENERAL FORMULATION: THE FIXMAN-KOVAC CHAIN ......... 401 10.2.2 SOME FURTHER REMARKS .................................................... 403 10.3 DYNAMIC HELICAL WORMLIKE CHAINS .............................................. 404 10.4 DIFFUSION EQUATIONS....................................................................... 406 10.4** SPACE OF BOND AND INFINITESIMAL ROTATION VECTORS ..... 406 10.4.2 SPACE OF EULER ANGLES: LOCAL MOTIONS . . .................. 409 10.4.3 SPACEOFEULERANGLES: GLOBAL M O TIO N S ................... 413 10.4.4 APPROXIMATION TO THE CONSTRAINING M AIX................ 415 10.4.5 FORMAL SOLUTIONS .............................................................. 417 10.5 EIGENVALUE PROBLEMS AND TIME-CORRELATION FUNCTIONS... 419 10.5.1 STANDARD BASIS S ET ........................................................... 419 10.5.2 CRUDE SUBSPACE APPROXIMATION...................................... 422 10.5.3 BLOCK-DIAGONAL APPROXIMATION...................................... 424 10.5.4 HIGHER-ORDER SUBSPACE APPROXIMATION ................... 427 REFERENCES................................................................................................. 434 11 DYNAMICAL PROPERTIES.............................................................................. 437 1 . ** DIELECTRIC RELAXATION ..................................................................... 437 11.1.1 FORMULATION...................................................................... 437 11.1.2 EIGENVALUE SPECTRA AND MODE ANALYSIS ................... 441 11.1.3 COMPARISON WITH EXPERIMENT.......................................... 443 11.2 NUCLEAR MAGNETIC RELAXATION ........................................................ 447 11.2.1 FORMULATION ..................................................................... 447 11.2.2 EIGENVALUE SPECIA AND 450 11.2.3 SPECTRAL DENSITIES............................................................. 451 1 2 .4 * * COMPARISON WITH EXPERIMENT ....................................... 4*3 11.3 FLUORESCENCE DEPOLARIZATION.......................................................... 4 0 11.3* FORMULATION...................................................................... 456 11.3.2 COMPARISON WITH EXPERIMENT.......................................... 458 11.4 DYNAMIC DEPOLARIZED LIGHT SCATTERING......................................... 460 11.4.1 FORMULATION...................................................................... 460 1 4 .2 * * COMPARISON WITH EXPERIMENT ....................................... 462 11.4.3 CORRELATION WITH NUCLEAR MAGNETIC RELAXATION ........... 464 11.5 FIRST CUMULANT OF THE DYNAMIC STRUCTURE FACTOR ................... 466 11.5.1 FORMULATION...................................................................... 466 11.5.2 COMPARISON WITH EXPERIMENT.......................................... 469 XIV CONTENTS 11.6 SOME REMARKS................................................................................ 472 11.6.1 ELEMENTARY PROCESSES OF CHAIN MOTIONS 472 11.6.2 DYNAMIC VS. STATIC CHAIN STIFFNESS . . . . .................... 472 11.6.3 DYNAMIC INTRINSIC VISCOSITY............................................. 474 11.6.4 EXCLUDED-VOLUME EFFECTS ON THE FIRST CUMULANT ......... 475 REFERENCES................................................................................................. 475 A COEFFICIENTSAR) N EQ. (3.72).................................................................. 479 B COEFFICIENTSA* * ) IN EQ.(4.81).................................................................. 481 C C O E LIE N TS E M( * C * ,T * )A N D * R/ MW(I * R * ) . . . . . . . . . . . . . .............. 483 D COEFFICIENTS N EQ. (6.31) .................................................................... 487 E COEFFICIENTS * * IN EQ. (6.122).................................................................. 489 GLOSSARY OF ABBREVIATIONS.............................................................................. 493 AUTHOR INDEX.................................................................................................... 495 SUBJECT INDEX.................................................................................................. 503
any_adam_object	1
author	Yamakawa, Hiromi 1931- Yoshizaki, Takenao
author_GND	(DE-588)115588531 (DE-588)1106394208
author_facet	Yamakawa, Hiromi 1931- Yoshizaki, Takenao
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dewey-ones	541 - Physical chemistry 540 - Chemistry and allied sciences
dewey-raw	541.2254 540
dewey-search	541.2254 540
dewey-sort	3541.2254
dewey-tens	540 - Chemistry and allied sciences
discipline	Chemie / Pharmazie
edition	Second edition
format	Book
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spelling	Yamakawa, Hiromi 1931- Verfasser (DE-588)115588531 aut Helical wormlike chains in polymer solutions Hiromi Yamakawa, Takenao Yoshizaki Second edition Heidelberg ; New York ; Dordrecht ; London Springer [2016] © 2016 xiv, 511 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Helicität Chemie (DE-588)4333079-4 gnd rswk-swf Polymere (DE-588)4046699-1 gnd rswk-swf Polymerlösung (DE-588)4175242-9 gnd rswk-swf Polymere (DE-588)4046699-1 s Helicität Chemie (DE-588)4333079-4 s Polymerlösung (DE-588)4175242-9 s DE-604 Yoshizaki, Takenao Verfasser (DE-588)1106394208 aut Erscheint auch als Online-Ausgabe 10.1007/978-3-662-48716-7 B:DE-101 application/pdf http://d-nb.info/1098215990/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029003701&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Yamakawa, Hiromi 1931- Yoshizaki, Takenao Helical wormlike chains in polymer solutions Helicität Chemie (DE-588)4333079-4 gnd Polymere (DE-588)4046699-1 gnd Polymerlösung (DE-588)4175242-9 gnd
subject_GND	(DE-588)4333079-4 (DE-588)4046699-1 (DE-588)4175242-9
title	Helical wormlike chains in polymer solutions
title_auth	Helical wormlike chains in polymer solutions
title_exact_search	Helical wormlike chains in polymer solutions
title_full	Helical wormlike chains in polymer solutions Hiromi Yamakawa, Takenao Yoshizaki
title_fullStr	Helical wormlike chains in polymer solutions Hiromi Yamakawa, Takenao Yoshizaki
title_full_unstemmed	Helical wormlike chains in polymer solutions Hiromi Yamakawa, Takenao Yoshizaki
title_short	Helical wormlike chains in polymer solutions
title_sort	helical wormlike chains in polymer solutions
topic	Helicität Chemie (DE-588)4333079-4 gnd Polymere (DE-588)4046699-1 gnd Polymerlösung (DE-588)4175242-9 gnd
topic_facet	Helicität Chemie Polymere Polymerlösung
url	http://d-nb.info/1098215990/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029003701&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT yamakawahiromi helicalwormlikechainsinpolymersolutions AT yoshizakitakenao helicalwormlikechainsinpolymersolutions

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