# Papers

## 2021

1. "**Microswimmers learning chemotaxis with genetic algorithms**"

B. Hartl, M. Hübl, G. Kahl, A. Zöttl *Proc. Natl. Acad. Sci. U.S.A.* **118**, (2021)

## 2020

1. "**Shear Bands in Monolithic Metallic Glasses: Experiment, Theory, and Modeling**"

R. Hubek, S. Hilke, F. A. Davani, M. Golkia, G. P. Shrivastav, S. V. Divinski, H. Rösner, J. Horbach, G. Wilde *Front. Mater* **7**, 144 (2020)

2. "**On the stress overshoot in cluster crystals under shear**"

G.P. Shrivastav, G. Kahl *Condens. Matter Phys.* **23**, 23801 (2020)

3. "**Non-monotonic response of a sheared magnetic liquid crystal to a continuously increasing external field**"

N. H. Siboni, G. P. Shrivastav, S. H. L. Klapp *J. Chem. Phys.* **152**, 024505 (2020)

4. "**Flow heterogeneities in supercooled liquids and glasses under shear**"

M. Golkia, G. P. Shrivastav, P. Chaudhuri, J. Horbach *Phys. Rev. E* **102**, 023002 (2020)

5. "**Steady-state rheology and structure of soft hybrid mixtures of liquid crystals and magnetic nanoparticles**"

G. P. Shrivastav, N. H. Siboni, S. H. L. Klapp *Soft Matter* **16**, 2516-2527 (2020)

6. "**Reliable Computational Prediction of the Supramolecular Ordering of Complex Molecules under Electrochemical Conditions**"

B. Hartl, S. Sharma, O. Brügner, S. F. L. Mertens, M. Walter, G. Kahl *J. Chem. Theory Comput.* **16**, 5227-5243 (2020)

7. "**A new approach to the mechanics of DNA: Atoms-to-beam homogenization**"

J. Kalliauer, G. Kahl, S. Scheiner, C. Hellmich * J. Mech. Phys. Solids* **143**, 104040 (2020)

8. "**Chirality-induced bacterial rheotaxis in bulk shear flows**"

G. Jing, A. Zöttl, E. Clement, A. Lindner *Sci. Adv.* **6**, eabb2012 (2020)

9. "**Simulation of microswimmer hydrodynamics with multiparticle collision dynamics**"

A. Zöttl *Chin. Phys. B* **29**, 074701 (2020)

10. "**Mesoscale modelling of polymer aggregate digestion**"

J. K. Novev, A. Doostmohammadi, A. Zöttl, J. M. Yeomans *Curr. Res. Food Sci.* **3**, 122 - 133 (2020)

## 2019

1. "**Frequency-dependent higher-order Stokes singularities near a planar elastic boundary: Implications for the hydrodynamics of an active microswimmer near an elastic interface**"

A. Daddi-Moussa-Ider, C. Kurzthaler, C. Hoell, A. Zöttl, M. Mirzakhanloo, M. Alam, A. M. Menzel, H. Löwen, S. Gekle *Phys. Rev. E* **100**, 032610 (2019)

2. "**Hydrodynamic correlations of viscoelastic fluids by multiparticle collision dynamics simulations**"

D. Toneian, G. Kahl, G. Gompper, R. G. Winkler *J. Chem. Phys.* **151**, 194110 (2019)

3. "**Oscillatory surface rheotaxis of swimming E. coli bacteria**"

A. J. T. M. Mathijssen, N. Figueroa-Morales, G. Junot, E. Clement, A. Lindner, A. Zöttl *Nat. Comm.* **10**, 3434 (2019)

4. "**Dynamics of individual Brownian rods in a microchannel flow**"

A. Zöttl, K. E. Klop, A. K. Balin, Y. Gao, J. M. Yeomans, D. G. A. L. Aarts *Soft Matter* **15**, 5810 (2019)

5. "**Controlled self-aggregation of polymer-based nanoparticles employing shear flow and magnetic fields**"

D. Toneian, C. N. Likos, G. Kahl *J. Phys.: Condens. Matter* **31**, 24LT02 (2019)

6. "**Driven spheres, ellipsoids and rods in explicitly modeled polymer solutions**"

A. Zöttl, J. M. Yeomans *J. Phys.: Condens. Matter* **31**, 234001 (2019)

7. "**Structure and stimuli-responsiveness of all-DNA dendrimers: theory and experiment**"

C. Jochum, N. Adžić, E. Stiakakis, T. L. Derrien, D. Luo, G. Kahl, C. N. Likos *Nanoscale* **11**, 1604-1617 (2019)

## 2018

1. "**The asymmetric Wigner bilayer**"

M. Antlanger, G. Kahl, M. Mazars, L. Šamaj, E. Trizac *J. Chem. Phys.* **149**, 244904 (2018)

2. "**Ordered structures formed by ultrasoft, aspherical particles**"

M. Weißenhofer, D. Pini, G. Kahl *Mol. Phys.* **116**, 2872-2882 (2018)

3. "**Molecular dynamics simulations of inverse patchy colloids**"

S. Ferrari, G. Kahl, E. Bianchi *Eur. Phys. J. E* **41**, 43 (2018)

## 2017

1. "**Limiting the valence: advancements and new perspectives on patchy colloids, soft functionalized nanoparticles and biomolecules**"

E. Bianchi, B. Capone, I. Coluzza, L. Rovigatti, P. D. J. van Oostrum *JPhys. Chem. Chem. Phys.* **19**, 19847--19868 (2017)

2. "**On the applicability of density dependent effective interactions in cluster-forming systems**"

M. Montes-Saralegui, A. Nikoubashman, G. Kahl *J. Chem. Phys.* **146**, 054904 (2017)

3. "**Inverse patchy colloids: Synthesis, modeling and self-organization**"

E. Bianchi, P. D. J. van Oostrum, C. N. Likos, G. Kahl *Current Opinion in Colloid & Interface Science* **30**, 8--15 (2017)

4. "**Optimal control of non-Markovian dynamics in a single-mode cavity strongly coupled to an inhomogeneously broadened spin ensemble**"

__D. Krimer__, __B. Hartl__, F. Mintert, S. Rotter *Physical Review A* **96**, 043837 (2017)

5. "**Hierarchical self-organization of soft patchy nanoparticles into morphologically diverse aggregates**"

I. C. Gârlea, E. Bianchi, B. Capone, L. Rovigatti, C. N. Likos *Current Opinion in Colloid & Interface Science* **30**, 1--7 (2017)

6. "**Spontaneous assembly of a hybrid crystal-liquid phase in inverse patchy colloid systems**"

S. Ferrari, E. Bianchi, G. Kahl *Nanoscale* **9**, 1956--1963 (2017)

## 2016

1. "**George Stell (1933 - 2014)**"

A. Ciach, C. K. Hall, G. Kahl, E. Lomba *Journal of Physics: Condensed Matter* **28**, 410401 (2016)

2. "**Fifty years of liquid state physics**"

A. Ciach, C. K. Hall, G. Kahl, E. Lomba *Journal of Physics: Condensed Matter* **28**, 410301 (2016)

3. "**New developments in classical density functional theory**"

R. Evans, M. Oettel, R. Roth, G. Kahl *Journal of Physics: Condensed Matter* **28**, 240401 (2016)

4. "**Rich Polymorphic Behavior of Wigner Bilayers**"

M. Antlanger, G. Kahl, M. Mazars, L. Šamaj, E. Trizac *Physical Review Letters* **117**, 118002 (2016)

5. "**Static and dynamic properties of inverse patchy colloids**"

G. Kahl, E. Bianchi, S. Ferrari *Proceedings of the International School of Physics 'Enrico Fermi'* **193**, 291 (2016)

6. "**Two-dimensional systems with competing interactions: dynamic properties of single particles and of clusters**"

D. F. Schwanzer, D. Coslovich, G. Kahl *Journal of Physics: Condensed Matter* **28**, 414015 (2016)

7. "**Equilibrium structures of anisometric, quadrupolar particles confined to a monolayer**"

T. Heinemann, M. Antlanger, M. Mazars, S. H. L. Klapp, G. Kahl *The Journal of Chemical Physics* **144**, 074504 (2016)

## 2015

1. "**Generalized inverse patchy colloid model**"

M. Stipsitz, G. Kahl, and E. Bianchi *The Journal of Chemical Physics* **142**, 114905 (2015)

2. "**Inclusions of a two dimensional fluid with competing interactions in a disordered, porous matrix**"

C. Bores, N. G. Almarza, E. Lomba, and G. Kahl *Journal of Physics: Condensed Matter* **27**, 194127 (2015)

3. "**Self-assembly of DNA-functionalized colloids**"

P.E. Theodorakis, N.G. Fytas, G. Kahl , and Ch. Dellago *Condensed Matter Physics* **18**, 1--24 (2015)

4. "**Obtaining equilibrium states in ultrasoft cluster forming systems using a combined thermo- and barostat**"

M. Montes-Saralegui and G. Kahl *Journal of Physics: Condensed Matter* **27**, 325102 (2015)

5. "**Patchy Particles**"

E. Bianchi, G. Kahl, C. N. Likos, and F. Sciortino (editorial) *Journal of Physics: Condensed Matter* **27**, 230301 (2015)

6. "**Phase behaviour of inverse patchy colloids: effect of the model parameters**"

E. Noya and E. Bianchi *Journal of Physics: Condensed Matter* **27**, 234103 (2015)

7. "**Inverse patchy colloids with small patches: fluid structure and dynamical slowing down**"

S. Ferrari, E. Bianchi, Y. Kalyuzhnyi, and G. Kahl *Journal of Physics: Condensed Matter* **27**, 234104 (2015)

8. "**Effective interactions of DNA-stars**"

C. Abaurrea Velasco, C. N. Likos, and G. Kahl (invited) *Molecular Physics* **113**, 2699--2706 (2015)

9. "**Hybrid quantum systems with collectively coupled spin states: suppression of decoherence through spectral hole burning**"

__D. Krimer__, B. Hartl, S. Rotter *Physical Review Letters* **115**, 033601 (2015)

10. "**Soft-patchy nanoparticles: modeling and self-organization**"

E. Bianchi, B. Capone, G. Kahl, and C. N. Likos *Faraday Discussions* **181**, 123 (2015)

11. "**Self-assembly of Janus particles under shear**"

A. Nikoubashman, E. Bianchi, and A. Z. Panagiotopoulos (see erratum *Soft Matter* **11**, 3946 (2015)) *Soft Matter* **11**, 3767--3771 (2015)

12. "**Theoretical and numerical investigations of inverse patchy colloids in the fluid phase**"

Y. Kalyuzhnyi, E. Bianchi, S. Ferrari, and G. Kahl *Journal of Chemical Physics* **142**, 114108 (2015)

## 2014

1. "**Explicit spatial description of fluid inclusions in porous matrices in terms of an inhomogeneous integral equation**"

E. Lomba, C. Bores, and G. Kahl *Journal of Chemical Physics* **141**, 164704 (2014)

2. "**Frictional dynamics of stiff monolayers: from nucleation dynamics to thermal sliding**"

J. Hasnain, S. Jungblut, A. Troester, and C. Dellago *Nanoscale* **6(17)**, 10161 (2014)

3. "**Nanoscale Phase Transformations in Functional Materials**"

T. Waitz, W. Schranz, and A. Troester *'Mesoscopic Phenomena in Multifunctional Materials' Springer Series in Materials Science* **198**, chapter 2 (p. 23-56) (2014)

4. "**Computer simulation of heterogeneous nucleation of colloidal crystals at planar walls**"

B. J. Block, D. Deb, F. Schmitz, A. Statt, A. Troester, A. Winkler, T. Zykova-Timan, P. Virnau, and K. Binder *The European Physical Journal Special Topics* **223**, 347--361 (2014)

5. "**Fourier Monte Carlo Simulation of Hexatic Membranes**"

A. Troester *Journal of Physics: Conference Series* **510(1)**, 012008 (2014)

6. "**Fourier Monte Carlo Implementation Guide**"

A. Troester *Physics Procedia* **53**, 96--103 (2014)

7. "**Fully Consistent Finite-Strain Landau Theory for High-Pressure Phase Transitions**"

A. Troester, W. Schranz, F. Karsai, and P. Blaha *Physical Review X* **4**, 031010 (2014)

8. "**Merging and hopping processes in systems of ultrasoft, cluster forming particles under compression**"

M. Montes Saralegui, A. Nikoubashman, and G. Kahl *J. Chem. Phys.* **141**, 124908 (2014)

9. "**Phase diagram of inverse patchy colloids assembling into an equilibrium laminar phase**"

E. Noya, G. Doppelbauer, I. Kolovos, G. Kahl, and E. Bianchi *Soft Matter* **10**, 8464--8474 (2014)

10. "**Tunable Assembly of heterogeneously Charged Colloids**"

E. Bianchi, C. N. Likos, and G. Kahl *NANO Letters* **14**, 3412--3418 (2014)

11. "**Antinematic local order in dendrimer liquids**"

I. A. Georgiou, P. Ziherl, and G. Kahl *Europhysics Letters* **106**, 44004 (2014)

12. "**Taking one charge off a two-dimensional Wigner crystal**"

Moritz Antlanger, Martial Mazars, Ladislav Samaj, Gerhard Kahl, and Emmanuel Trizac *Molecular Physics* **112(9--10)**, 1336--1349 (2014)

13. "**From square-well to Janus: Improved algorithm for integral equation theory and comparison with thermodynamic perturbation theory within the Kern-Frenkel model**"

A. Giacometti, C. Goegelein, F. Lado, F. Sciortino, S. Ferrari, and G. Pastore *Journal of Chemical Physics* **140**, 094104 (2014)

14. "**From square-well to Janus: Improved algorithm for integral equation theory and comparison with thermodynamic perturbation theory within the Kern-Frenkel model**"

A. Giacometti, C. Goegelein, F. Lado, F. Sciortino, S. Ferrari, and G. Pastore *Journal of Chemical Physics* **140**, 094104 (2014)

## 2013

1. "**Solvent-mediated folding of dicarboxylate dianions: aliphatic chain length dependence and origin of the IR intensity quenching **"

Marius Wanko, Torsten Wende, Marta Montes Saralegui, Ling Jiang, Angel Rubio, and Knut R. Asmis *Physical Chemistry Chemical Physics * **15**, 20463--20472 (2013)

2. "**Fourier Monte Carlo Simulation of Crystalline Membranes in the Flat Phase**"

A. Troester *J. Phys: Conf. Ser.* **454**, 012032 (2013)

3. "**Wigner crystals for a planar, equimolar binary mixture of classical, charged particles**"

M. Antlanger and G. Kahl *Condensed Matter Physics* **16(4)**, 43501 (2013)

4. "**Specific Heat Exponent of Random-Field ising Magnets**"

P. E. Theodorakis, I. Georgiou, and N. G. Fytas *American Journal of Condensed M atter Physics* **3(1)**, 9-12 (2013)

5. "**Critical aspects of the random-field Ising model**"

N. G. Fytas, P. E. Theodorakis, I. Georgiou, and I. Lelidis *Eur. Phys. J. B* **86**, 268 (2013)

6. "**Direct calculation of the solid-liquid Gibbs free energy difference in a single equilibrium simulation**"

U. R. Pedersen *J. Chem. Phys.* **139**, 104102 (2013)

7. "**Computing Gibbs free energy differences by interface pinning**"

U. R. Pedersen, Felix Hummel, Georg Kresse, Gerhard Kahl, and Christoph Dellago *Phys. Rev. B* **88**, 094101 (2013)

8. "**Self-Assembly of Heterogeneously Charged Particles under Confinement**"

E. Bianchi, C. N. Likos, and G. Kahl *ACS Nano* **7**, 4657-4667 (2013)

9. "**High Precision Fourier Monte Carlo Simulation of Crystalline Membranes**"

A. Troester *Phys. Rev. B* **87**, 104112 (2013)

10. "**Fluctuations and criticality in the random-field Ising model**"

P. E. Theodorakis, I. Georgiou, and N. G. Fytas *Phys. Rev. E.* **87**, 032119 (2013)

11. "**Hopping and diffusion of ultrasoft particles in cluster crystals in the explicit presence of a solvent**"

M. Montes, A. Nikoubashman, and G. Kahl *J. Phys.: Condens. Matter* **25**, 195101 (2013)

12. "**Computer simulations of colloidal particles under flow in microfluidic channels**"

A. Nikoubashman, C. N. Likos, and G. Kahl *Soft Matter* **9**, 2603 (2013)

13. "**A coarse-grained model for DNA-functionalized spherical colloids, revisited: Effective pair potential from parallel replica simulations**"

P. E. Theodorakis, C. Dellago, and G. Kahl *J. Chem. Phys.* **138**, 025101 (2013)

## 2012

1. "**Beyond the van der Waals Loop: What can be learned from simulating Lennard-Jones fluids inside the region of phase coexistence**"

K. Binder, B.J. Block, P. Virnau, and A. Troester *Am. J. Phys.* **80**, 1099-1109 (2012)

2. "**Superelastic softening of ferroelastic multidomain crystals**"

W. Schranz, H. Kabelka, and A. Troester *Ferroelectrics* **426**, 242 (2012)

3. "**Microcanonical determination of the interface tension of ﬂat and curved interfaces from Monte Carlo simulations**"

A. Troester and K. Binder *Jour. Phys. C.: Condensed Matter* **24**, 284107 (2012)

4. "**Numerical approaches to determine the interface tension of curved interfaces from free energy calculations**"

A. Troester, M. Oette, B. Bloc, P. Virnau, and K. Binder *J. Chem. Phys.* **136**, 064709 (2012)
[selected as Editor's Choice 2013 by J. Chem. Phys.]

5. "**Universality aspects of the trimodal random-field Ising model**"

N. G. Fytas, P. E. Theodorakis, and I. Georgiou *Eur. Phys. J. B.* **85**, 349 (2012)

6. "**Numerical approaches to determine the interface tension of curved interfaces from free energy calculations**"

A. Troester, M. Oettel, B. Block, P. Virnau, and K. Binder *J. Chem. Phys.* **136**, 064709 (2012)

7. "**Mean-field theory of the phase diagram of ultrasoft, oppositely charged polyions in solution**"

A. Nikoubashman, J.-P. Hansen, and G. Kahl *J. Chem. Phys.* **137**, 094905 (2012)

8. "**Self assembly scenarios of patchy particles**"

G. Doppelbauer, E. G. Noya, E. Bianchi, and G. Kahl *Soft Matter* **8**, 7768 (2012)

9. "**Competing ordered structures formed by particles with a regular tetrahedral patch decoration**"

G. Doppelbauer, E. G. Noya, E. Bianchi, and G. Kahl *J. Phys.: Condens. Matter* **24**, 284124 (2012)

10. "**The Eighth Liquid Matter Conference**"

C. Dellago, G. Kahl, and C. N. Likos (eds.) *J. Phys.: Condens. Matter* **24**, 280401 (2012)

11. "**Predicting patchy particle crystals: variable box shape simulations and evolutionary algorithms**"

E. Bianchi, G. Doppelbauer, L. Filion, M. Dijkstra, and G. Kahl *J. Chem. Phys* **136**, 214102 (2012)

12. "**A study for the static properties of symmetric linear multiblock copolymers under poor solvent conditions**"

P. E. Theodorakis and N. G. Fytas *J. Chem. Phys* **136**, 094902 (2012)

13. "**Flow quantization and nonequilibrium nucleation of soft crystals**"

A. Nikoubashman, G. Kahl, and C. N. Likos *Soft Matter* **8**, 4121 (2012)

## 2011

1. "**Positive tolman length in a lattice gas with three-body interactions**"

A. Troester and K. Binder *Phys. Rev. Lett.* **107**, 265701 (2011)

2. "**Effective interactions between oppositely charged polyelectrolytes in the presence of salt**"

J.-P. Hansen, D. Coslovich, and G. Kahl *Mol. Phys.* **109**, 2953 (2011)

3. "**Structure of bottle-brush brushes under good solvent conditions: a molecular dynamics study**"

H. Maleki and P. E. Theodorakis *J. Phys.: Condens. Matter* **23**, 505104 (2011)

4. "**Computer simulation of bottle-brush polymers with flexible backbone: Good solvent versus theta solvent conditions**"

P. E. Theodorakis, H.-P. Hsu, W. Paul, and K. Binder *J. Chem. Phys.* **135**, 164903 (2011)

5. "**Two-dimensional systems with competing interactions: microphase formation under the effect of a disordered porous matrix**"

D. F. Schwanzer and G. Kahl *Condens. Matter Phys.* **14**, 33801:1-12 (2011)

6. "**On the stability of Archimedean tilings formed by patchy particles**"

M. Antlanger, G. Doppelbauer, and G. Kahl *J. Phys.: Condens. Matter* **23**, 404206 (2011)

7. "**Special section on Computational materials science**"

G. Kahl and G. Kresse (eds.) *J. Phys.: Condens. Matter* **23**, 400201 (2011)

8. "**Inverse patchy colloids: from microscopic description to mesoscopic coarse-graining**"

E. Bianchi, G. Kahl, and C. N. Likos *Soft Matter* **7**, 8313 (2011)

9. "**Cluster Crystals under Shear**"

A. Nikoubashman, G. Kahl, and C. N. Likos *Phys. Rev. Lett.* **107**, 068302 (2011)

10. "**Ultrasoft primitive model of polyionic solutions: Structure, aggreation, and dynamics**"

D. Coslovich, J.-P. Hansen, and G. Kahl *J. Chem. Phys.* **134**, 244514 (2011)

11. "**Analysis of the cluster formation in two-component cylindrical bottle-brush polymers under poor solvent conditions. A simulation study**"

P. E. Theodorakis, W. Paul, and K. Binder *Eur. Phys. J. E* **34**, 52 (2011)

12. "**Analysis of The static properties of cluster formations in symmetric linear multiblock copolymers**"

N. G. Fytas and P. E. Theodorakis *J. Phys.: Condens. Matter* **23**, 235106 (2011)

13. "**Dynamic arrest of colloids in porous environments: disentangling crowding and confinement**"

J. Kurzidim, D. Coslovich, and G. Kahl *J. Phys.: Condens. Matter* **23**, 234122 (2011)

14. "**Complex dynamics of fluids in disordered and crowded environments**"

D. Coslovich, G. Kahl, and V. Krakoviack *J. Phys.: Condens. Matter* **23**, 230302 (2011)

15. "**Continuum Theory for Cluster Morphologies of Soft Colloids**"

A. Košmrlj, G. J. Pauschenwein, G. Kahl, and P. Ziherl *J. Phys. Chem. B* **115**, 7206-7217 (2011)

16. "**Monomer-Resolved Simulations of Cluster-Forming Dendrimers**"

D. A. Lenz, B. M. Mladek, C. N. Likos, G. Kahl, and R. Blaak *J. Phys. Chem. B* **115**, 7218-7226 (2011)

17. "**Wang-Landau study of the 3D Ising model with bond disorder**"

P. E. Theodorakis and N. G. Fytas *Eur. Phys. J. B* **81**, 245 (2011)

18. "**Phase behavior of linear symmetric multiblock copolymers**"

P. E. Theodorakis and N. G. Fytas *Europhys. Lett.* **93**, 43001 (2011)

19. "**Locally preferred structures and many-body static correlations in viscous liquids**"

D. Coslovich *Phys. Rev. E* **83**, 051505 (2011)

20. "**Heterogeneous slow dynamics and the interaction potential of glass-forming liquids**"

D. Coslovich and C. M. Roland *J. Non Cryst. Solids* **357**, 397 (2011)

21. "**Confined Diffusion in Periodic Porous Nanostructures**"

R. Raccis, A. Nikoubashman, M. Retsch, U. Jonas, K. Koynov, H. Butt, C. N. Likos, and G. Fytas *ACS Nano* **5**, 4607-4616 (2011)

22. "**Accessible volume in quenched-annealed mixtures of hard spheres: a geometric decomposition**"

J. Kurzidim and G. Kahl *Mol. Phys.* **109**, 1331 (2011)

23. "**Patchy colloids: state of the art and perspectives**"

E. Bianchi, R. Blaak, and C. N. Likos *Phys. Chem. Chem. Phys.* **13**, 6397 (2011)

24. "**Hopping and microscopic dynamics of ultrasoft particles in cluster crystals**"

D. Coslovich, L. Strauss, and G. Kahl *Soft Matter* **7**, 2127 (2011)

25. "**Clustering, conductor-insulator transition and phase separation of an ultrasoft model of electrolytes**"

D. Coslovich, J.-P. Hansen, and G. Kahl *Soft Matter* **7**, 1690 (2011)

## 2010

1. "**Ordered equilibrium structures of soft particles in thin layers**"

M. Kahn, J.-J. Weis, and G. Kahl *J. Chem. Phys.* **133**, 224504 (2010)

2. "**Impact of random obstacles on the dynamics of a dense colloidal fluid**"

J. Kurzidim, D. Coslovich, and G. Kahl *Phys. Rev. E* **82**, 041505 (2010)

3. "**Correlation of nonexponentiality with dynamic heterogeneity from four-point dynamic susceptibility &chi _{4}(t) and its approximation &chi_{T}(t)**"

C. M. Roland, D. Fragiadakis, D. Coslovich, S. Capaccioli, and K. L. Ngai

*J. Chem. Phys.*

**133**, 124507 (2010)

4. "**Two-dimensional systems with competing interactions: microphase formation versus liquid-vapour phase separation**"

D. F. Schwanzer and G. Kahl *J. Phys.: Condens. Matter* **22**, 415103 (2010)

5. "**Tailoring the phonon band structure in binary colloidal mixtures**"

J. Fornleitner, G. Kahl, and C. N. Likos *Phys. Rev. E* **81**, 060401 (2010)

6. "**Special issue on new trends in simulating colloids and self-assembling systems**"

G. Foffi and G. Kahl (eds.) *J. Phys.: Condens. Matter* **22**, No. 10 (2010)

7. "**Self-assembly scenarios of patchy particles in two dimensions**"

G. Doppelbauer, E. Bianchi, and G. Kahl *J. Phys.: Condens. Matter* **22**, 104105 (2010)

8. "**Pattern formation in two-dimensional square-shoulder systems**"

J. Fornleitner and G. Kahl *J. Phys.: Condens. Matter* **22**, 104118 (2010)

## 2009

1. "**Special Issue in Honour of Professor Jean-Jacques Weis**"

G. Kahl and J.-P. Hansen (eds.) *Mol. Phys.* **107**, Nos. 4-6 (2009)

2. "**Stable centred tetragonal phases in the hard core Yukawa system**"

G. Kahl and G. Pauschenwein *J. Phys.: Condens. Matter* **21**, 474202 (2009)

3. "**Classical density functional theory: an ideal tool to study heterogeneous crystal nucleation**"

G. Kahl and H. Löwen *J. Phys.: Condens. Matter* **21**, 464101 (2009)

4. "**Density scaling in viscous liquids: From relaxation times to four-point susceptibilities**"

D. Coslovich and C. M. Roland *J. Chem. Phys.* **131**, 151103 (2009)

5. "**Single-particle and collective slow dynamics of colloids in porous confinement**"

J. Kurzidim, D. Coslovich, and G. Kahl *Phys. Rev. Lett.* **103**, 138303 (2009)

6. "**The minimum distance parametrization of crystal lattices**"

G. J. Pauschenwein * J. Phys. A: Math. Theor.* **42**, 355204 (2009)

7. "**Ordered equilibrium structures in soft matter systems between two and three dimensions**"

M. Kahn, J.-J. Weis, C. N. Likos, and G. Kahl *Soft Matter* **5**, 2852 (2009)

8. "**Ordering in Two-Dimensional Dipolar Mixtures**"

J. Fornleitner, F. Lo Verso, G. Kahl, and C. N. Likos *Langmuir* **25**, 7836 (2009)

9. "**Dynamics and energy landscape in a tetrahedral network glass-former: direct comparison with models of fragile liquids**"

D. Coslovich and G. Pastore *J. Phys.: Condens. Matter* **21**, 285107 (2009)

10. "**Effects of porous confinement on the structural properties of the Gaussian core model**"

D. Schwanzer, D. Coslovich, J. Kurzidim, and G. Kahl *Mol. Phys.* **107**, 433 (2009)

11. "**Multiple Glass Transitions in Star Polymer Mixtures: Insights from Theory and Simulations**"

C. Mayer, F. Sciortino, C. N. Likos, P. Tartaglia, H. Löwen, and E. Zaccarelli *Macromolecules* **42**, 423 (2009)

12. "**Pressure-energy correlations and thermodynamics scaling in viscous Lennard-Jones liquids**"

D. Coslovich and C. M. Roland *J. Chem. Phys.* **130**, 014508 (2009)

## 2008

1. "**Proceedings of the 7th Liquid Matter Conference (Lund, Sweden, 27 June - 1 July 2008)**"

G. Kahl, F. Sciortino, and M. Ullmer (eds.) *J. Phys.: Condens. Matter* **20**, No. 49 (2008)

2. "**Multiple occupancy crystals formed by purely repulsive soft particles**"

B. M. Mladek, P. Charbonneau, C. N. Likos, D. Frenkel, and G. Kahl *J. Phys.: Condens. Matter* **20**, 494245 (2008)

3. "**Ground states of model core-softened colloids**"

J. Dobnikar, J. Fornleitner, and G. Kahl *J. Phys.: Condens. Matter* **20**, 494220 (2008)

4. "**Zero temperature phase diagram of the square-shoulder system**"

G. J. Pauschenwein and G. Kahl *J. Chem. Phys.* **129**, 174107 (2008)

5. "**Clusters, columns, and lamellae - minimum energy configurations in core softened potentials**"

G. J. Pauschenwein and G. Kahl *Soft Matter* **4**, 1396 (2008)

6. "**Cluster-forming systems of ultrasoft repulsive particles: statics and dynamics**"

C. N. Likos, B. M. Mladek, A. J. Moreno, D. Gottwald, and G. Kahl *Comp. Phys. Comm.* **179**, 71 (2008)

7. "**Self-consistent Ornstein-Zernike approximation for the Yukawa fluid with improved direct correlation function**"

A. Reiner and J. S. Høye *J. Chem. Phys.* **128**, 114507 (2008)

8. "**Lane formation vs. cluster formation in two-dimensional square-shoulder systems - A genetic algorithm approach**"

J. Fornleitner and G. Kahl *Europhys. Lett.* **82**, 18001 (2008)

9. "**Genetic algorithms predict formation of exotic ordered configurations for two-component dipolar monolayers**"

J. Fornleitner, F. Lo Verso, G. Kahl, and C. N. Likos *Soft Matter* **4**, 480 (2008)

10. "**Computer Assembly of Cluster-Forming Amphiphilic Dendrimers**"

B. M. Mladek, G. Kahl, and C. N. Likos *Phys. Rev. Lett.* **100**, 28301 (2008)

## 2007

1. "**Phase Coexistence of Cluster Crystals: Beyond the Gibbs Phase Rule**"

B. M. Mladek, P. Charbonneau, and D. Frenkel *Phys. Rev. Lett.* **99**, 235702 (2007)

2. "**Clustering in the Absence of Attractions: Density Functional Theory and Computer Simulations**"

B. M. Mladek, D. Gottwald, G. Kahl, M. Neumann, and C. N. Likos *J. Phys. Chem. B* **111**, 12799 (2007)

3. "**Why do ultrasoft repulsive particles cluster and crystallize? Analytical results from density-functional theory **"

C. N. Likos, B. M. Mladek, D. Gottwald, and G. Kahl *J. Chem. Phys.* **126**, 224502 (2007)

4. "**Towards a unification of hierarchical reference theory and self-consistent Ornstein-Zernike approximation: Analysis of exactly solvable mean-spherical and generalized mean-spherical models **"

J. S. Høye and A. Reiner *Phys. Rev. E* **75**, 41113 (2007)

5. "**Structural properties of a fluid of polymers confined in a porous matrix of star polymers **"

M.-J. Fernaud, G. Kahl, and C. N. Likos *Eur. Phys. J. Special Topics* **141**, 251 (2007)

6. "**Liquid-vapor transition of systems with mean field universality class**"

G. J. Pauschenwein, J.-M. Caillol, D. Levesque, J.-J. Weis, E. Schöll-Paschinger, and G. Kahl *J. Chem. Phys.* **126**, 14501 (2007)

## 2006

1. "**Phase behavior of a symmetrical binary fluid mixture**"

J. Köfinger, N. B. Wilding, and G. Kahl *J. Chem. Phys.* **125**, 234503 (2006)

2. "**Soft core thermodynamics from self-consistent hard core fluids**"

E. Schöll-Paschinger and A. Reiner *J. Chem. Phys.* **125**, 164503 (2006)

3. "**Self-consistent Ornstein-Zernike approximation for molecules with soft cores**"

J. S. Høye and A. Reiner *J. Chem. Phys.* **125**, 104503 (2006)

4. "**Phase behaviour of a symmetrical binary mixture in a field**"

J. Köfinger, G. Kahl, and N. B. Wilding *Europhys. Lett.* **75**, 234 (2006)

5. "**Formation of Polymorphic Cluster Phases for a Class of Models of Purely Repulsive Soft Spheres**"

B. M. Mladek, D. Gottwald, G. Kahl, M. Neumann, and C. N. Likos *Phys. Rev. Lett.* **96**, 45701 (2006)
[Erratum]

6. "**Thermodynamically self-consistent liquid state theories for systems with bounded potentials**"

B. M. Mladek, G. Kahl, and M. Neumann *J. Chem. Phys.* **124**, 64503 (2006)

## 2005

1. "**Towards a unification of the hierarchical reference theory and the self-consistent Ornstein-Zernike approximation**"

A. Reiner and J. S. Høye *Phys. Rev. E* **72**, 61112 (2005)

2. "**Type IV phase behavior in fluids with an internal degree of freedom**"

E. Schöll-Paschinger and G. Kahl *J. Chem. Phys.* **123**, 134508 (2005)

3. "**Phase coexistence in a polydisperse charged hard-sphere fluid: Polymer mean spherical approximation**"

Yu. V. Kalyuzhnyi, G. Kahl, and P. T. Cummings *J. Chem. Phys.* **123**, 124501 (2005)

4. "**Towards the phase diagram of a polydisperse mixture of charged hard spheres**"

Yu. V. Kalyuzhnyi, G. Kahl, and P. T. Cummings *Europhys. Lett.* **72**, 96 (2005)

5. "**Charged colloids and polyelectrolytes: from statics to electrokinetics**"

H. Löwen, A. Esztermann, A. Wysocki, E. Allahyarov, R. Messina, A. Jusufi, N. Hoffmann, D. Gottwald, G. Kahl, M. Konieczny, and C. N. Likos *J. Phys.: Conf. Series* **11**, 207 (2005)

6. "**Predicting equilibrium structures in freezing processes**"

D. Gottwald, G. Kahl, and C. N. Likos *J. Chem. Phys.* **122**, 204503 (2005)

7. "**Ionic microgels as model systems for colloids with an ultrasoft electrosteric repulsion: Structure and thermodynamics**"

D. Gottwald, C. N. Likos, G. Kahl, and H. Löwen *J. Chem. Phys.* **122**, 74903 (2005)

8. "**On the thermodynamic properties of the generalized Gaussian core model **"

B. M. Mladek, M.-J. Fernaud, G. Kahl, and M. Neumann *Condens. Matter Phys.* **8**, 135 (2005)

9. "**Infinite compressibility states in the Hierarchical Reference Theory of fluids. I. Analytical considerations**"

A. Reiner *J. Stat. Phys.* **118**, 1107 (2005)

10. "**Infinite compressibility states in the Hierarchical Reference Theory of fluids. II. Numerical evidence**"

A. Reiner and G. Kahl *J. Stat. Phys.* **118**, 1129 (2005)

11. "**Phase diagram of a binary symmetric hard-core Yukawa mixture**"

E. Schöll-Paschinger, D. Levesque, J.-J. Weis, and G. Kahl *J. Chem. Phys.* **122**, 24507 (2005)

## 2004

1. "**Phase Behavior of Ionic Microgels**"

D. Gottwald, C. N. Likos, G. Kahl, and H. Löwen *Phys. Rev. Lett.* **92**, 68301 (2004)

2. "**The influence of thermodynamic self-consistency on the phase behaviour of symmetric binary mixtures**"

E. Schöll-Paschinger, E. Gutlederer, and G. Kahl *J. Mol. Liq.* **112**, 5 (2004)

3. "**Phase coexistence in polydisperse charged hard-sphere fluids: Mean spherical approximation **"

Yu. V. Kalyuzhnyi, G. Kahl, and P. T. Cummings *J. Chem. Phys.* **120**, 10133 (2004)

4. "**Thermodynamic properties of polydisperse fluid mixtures**"

S. Leroch, D. Gottwald, and G. Kahl *Cond. Matt. Phys.* **7**, 301 (2004)

5. "**Self-consistent Ornstein-Zernike approximation for the Sogami-Ise fluid **"

E. Schöll-Paschinger *J. Chem. Phys.* **120**, 11698 (2004)

## 2003

1. "**Phase coexistence in polydisperse liquid mixtures: Beyond the van der Waals approximation**"

Yu. V. Kalyuzhnyi and G. Kahl *J. Chem. Phys.* **121**, 1168 (2003)
[Erratum]

2. "**Accurate determination of the phase diagram of model fullerenes **"

E. Schöll-Paschinger and G. Kahl *Europhys. Lett.* **63**, 538 (2003)

3. "**Theoretical description of phase coexistence in model C _{60}**"

D. Costa, G. Pellicane, C. Caccano, E. Schöll-Paschinger, and G. Kahl

*Phys. Rev. E*

**68**, 21104 (2003)

4. "**Structure and thermodynamic properties of a polydisperse fluid in contact with a polydisperse matrix**"

S. Jorge, E. Schöll-Paschinger, G. Kahl, and M. J. Fernaud *Mol. Phys.* **101**, 1733 (2003)

5. "**Self-consinstent Ornstein-Zernike approximation for a binary symmetric fluid mixture **"

E. Schöll-Paschinger and G. Kahl *J. Chem. Phys.* **118**, 7414 (2003)

## 2002

1. "**Implementation of the hierarchical reference theory for simple one-component fluids**"

A. Reiner and G. Kahl *Phys. Rev. E* **65**, 46701 (2002)

2. "**Pole topology of the structure functions of continuous systems**"

C. Tutschka and G. Kahl *Phys. Rev. E* **65**, 51104 (2002)

3. "**Fundamental measure theory for hard-sphere mixtures revisited: the White Bear version**"

R. Roth, R. Evans, A. Lang, and G. Kahl *J. Phys.: Condens. Mat.* **14**, 12063 (2002)

4. "**Analytical representations for the radial distribution functions of mixtures of adhesive spheres **"

C. Tutschka, G. Kahl, and E. Riegler *Mol. Phys.* **100**, 1025 (2002)

5. "**The hierarchical reference theory as applied to square well fluids of variable range**"

A. Reiner and G. Kahl *J. Chem. Phys.* **117**, 4925 (2002)

6. "**Model colloid-polymer mixtures in porous matrices: density functional versus integral equations**"

M. Schmidt, E. Schöll-Paschinger, J. Köfinger, and G. Kahl *J. Phys.: Condens. Mat.* **14**, 12099 (2002)

7. "**Phase transitions and critical behavior of simple fluids and their mixtures**"

G. Kahl, E. Schöll-Paschinger, and G. Stell *J. Phys.: Condens. Mat.* **14**, 9153 (2002)

## 2001

1. "**Phase Transitions and Critical Behavior of Binary Liquid Mixtures **"

G. Kahl, E. Schöll-Paschinger, and A. Lang *Chem. Monthly* **132**, 1413 (2001)

2. "**Pair distribution function of a binary Yukawa mixture and their asymptotic behavior **"

C. Tutschka, G. Kahl, and G. Pastore *Phys. Rev. E* **63**, 61110 (2001)

3. "**Phase diagram of a symmetric binary fluid in a porous matrix**"

E. Schöll-Paschinger, D. Levesque, J.-J. Weis, and G. Kahl *Phys. Rev. E* **64**, 11502 (2001)

4. "**On the phase separation of a binary fluid in a porous medium**"

E. Schöll-Paschinger, D. Levesque, G. Kahl, and J.-J. Weis *Europhys. Lett.* **55**, 178 (2001)

5. "**Thermodynamic properties of a polydisperse system**"

C. Tutschka and G. Kahl *Phys. Rev. E* **64**, 31104 (2001)

## 2000

1. "**On the triplet structure of binary liquids**"

S. Jorge, G. Kahl, E. Lomba, and J. L. F. Abascal *J. Chem. Phys.* **113**, 3302 (2000)

2. "**Criterion for determining clustering versus reentrant melting behavior for bounded interaction potentials**"

C. N. Likos, A. Lang, M. Watzlawek, and H. Löwen *Phys. Rev. E* **63**, 31206 (2000)

3. "**Analytic example of a free energy functional**"

C. Tutschka and G. Kahl *Phys. Rev. E* **62**, 3640 (2000)

4. "**Fluid and solid phases of the Gaussian core model**"

A. Lang, C. N. Likos, M. Watzlawek, and H. Löwen *J. Phys.: Condens. Mat.* **12**, 5087 (2000)

5. "**Structure and thermodynamic properties of a binary liquid in a porous matrix: The formalism**"

E. Schöll-Paschinger and G. Kahl *Phys. Rev. E* **61**, 5330 (2000)

6. "**Neither Gaussian chains nor hard spheres - star polymers seen as ultrasoft colloids**"

J. Stellbrink, J. Allgaier, M. Monkenbusch, D. Richter, A. Lang, C. N. Likos, M. Watzlawek, H. Löwen, G. Ehlers, and P. Schleger *Progr. Colloid Polym. Sci.* **115**, 88 (2000)

## 1999

1. "**Structure and thermodynamics of square-well and square-shoulder fluids**"

A. Lang, G. Kahl, C. N. Likos, H. Löwen, and M. Watzlawek *J. Phys.: Condens. Mat.* **11**, 10143 (1999)

2. "**Tight-binding model of selenium disordered phases**"

D. Molina, E. Lomba, and G. Kahl *Phys. Rev. B* **60**, 6372 (1999)

3. "**Pressure-variation of the structure factor of liquid Rubidium **"

J. Chihara and G. Kahl *Jpn. J. Appl. Phys.* **38**, 492 (1999)

4. "**Thermodynamic perturbation theory for polydisperse colloidal suspensions using orthogonal polynomial expansions**"

S. Leroch, G. Kahl, and F. Lado *Phys. Rev. E* **59**, 6973 (1999)

5. "**Single-particle motion in liquid and supercooled Mg _{70}Zn_{30} alloy**"

Ya. Chushak, G. Kahl, and J. Hafner

*J. Non-Cryst. Solids*

**250**, 645 (1999)

6. "**Freezing of simple liquid metals**"

A. R. Denton, G. Kahl, and J. Hafner *J. Non-Cryst. Solids* **250**, 15 (1999)

## 1998

1. "**Structure factor and electronic structure of compressed liquid rubidium **"

J. Chihara and G. Kahl *Phys. Rev. B* **58**, 5314 (1998)

2. "**An efficient method for calculating the pair-distribution functions of a ternary hard-sphere system in r-space within the Percus-Yevick approximation**"

E. Paschinger, A. Reiner, and G. Kahl

*Mol. Phys.*

**94**, 743 (1998)

3. "**The mean spherical model for a Lorentz-Berthelot mixture of sticky hard spheres**"

C. Tutschka and G. Kahl *J. Chem. Phys.* **108**, 9498 (1998)

## 1997

1. "**Generalized collective modes in a binary He _{0.65}Ne_{0.35} mixture**"

T. Bryk, O. Mryglod, and G. Kahl

*Phys. Rev. E*

**56**, 2903 (1997)

2. "**A theoretical approach to the tight-binding band structure of liquid carbon and silicon beyond linear approximations**"

E. Lomba, J.-L. López-Martín, J. A. Anta, J. S. Høye, and G. Kahl *J. Chem. Phys.* **106**, 10238 (1997)

3. "**The inverse problem for simple classical liquids: a density functional approach**"

Y. Rosenfeld and G. Kahl *J. Phys.: Condens. Mat.* **9**, (1997)

4. "**The generalized Stokes-Einstein relation for liquid sodium**"

U. Balucani, G. Nowotny, and G. Kahl *J. Phys.: Condens. Mat.* **9**, 3371 (1997)

5. "**An integral-equation approach to the electronic structure of liquid silicon**"

J.-L. López-Martín, E. Lomba, G. Kahl, M. D. Winn, and M. Rassinger *J. Phys.: Condens. Mat.* **9**, 3321 (1997)

## 1996

1. "**Structure and thermodynamics of binary liquid mixtures: Universality of the Bridge functional**"

G. Kahl, B. Bildstein, and Y. Rosenfeld

*Phys. Rev. E*

**54**, 5391 (1996)

2. "**Band structure for an sp^{3} liquid in the single superchain/effective medium approximation**"

E. Lomba, J.-L. López-Martín, and G. Kahl

*J. Chem. Phys.*

**105**, 7735 (1996)

3. "**Dynamical properties of liquid binary alloys: a memory function study**"

Ya. Chushak, T. Bryk, A. Baumketner, G. Kahl, and J. Hafner *Phys. Chem. Liq.* **32**, 87 (1996)

4. "**The dynamic structure of liquid lithium: results for a new type of interaction**"

S. Kambayashi, G. Nowotny, J. Chihara, and G. Kahl *J. Non-Cryst. Solids* **205**, 914 (1996)

5. "**Single particle motion in liquid sodium: a mode-coupling analysis**"

G. Nowotny and G. Kahl *J. Non-Cryst. Solids* **205**, 855 (1996)

## 1995

1. "**Triplet structure of simple liquids**"

B. Bildstein and G. Kahl *Phys. Rev. E* **52**, 2668 (1995)