diff --git a/AUTHORS.txt b/AUTHORS.txt
index fd6d6505b898fa66ff366a2b40b7bda45b0adc4e..b0dba6103dfb10677721c3b62fba9269f2f5ec72 100644
--- a/AUTHORS.txt
+++ b/AUTHORS.txt
@@ -13,7 +13,9 @@ Dominik Bartuschat
 Ehsan Fattahi
 Felix Winterhalter
 Florian Schornbaum
+Grigorii Drozdov
 Helen Schottenhamml
+Igor Ostanin
 Jan Götz
 Jan Hönig
 João Victor Tozatti Risso
diff --git a/README.md b/README.md
index 9d87364cf6bf7d1cd6f9794133d5d2183483eed0..bca339ae96fdaff55538741d951e82e5fb6440a6 100644
--- a/README.md
+++ b/README.md
@@ -1,12 +1,12 @@
 # waLBerla
 
-waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively 
-parallel framework for multi physics applications. Besides its original 
-objective, Lattice Boltzmann solvers for hydrodynamics, it now contains 
-modules for other applications like Multigrid and rigid body dynamics 
-as well. Great emphasis is placed on the interoperability between the modules 
-in particular the fluid-particle coupling. 
-It scales from laptops to current and future supercomputers while maintaining 
+waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively
+parallel framework for multi physics applications. Besides its original
+objective, Lattice Boltzmann solvers for hydrodynamics, it now contains
+modules for other applications like Multigrid and rigid body dynamics
+as well. Great emphasis is placed on the interoperability between the modules
+in particular the fluid-particle coupling.
+It scales from laptops to current and future supercomputers while maintaining
 near-perfect efficiency.
 
 See https://www.walberla.net/ for more information and a showcase of applications.
@@ -47,15 +47,30 @@ Many thanks go to waLBerla's [contributors](AUTHORS.txt)
 
 If you use waLBerla in a publication, please cite the following articles:
 
-- C. Godenschwager, F. Schornbaum, M. Bauer, H. Köstler, and U. Rüde. A
-framework for hybrid parallel flow simulations with a trillion cells in complex
-geometries. In: Proceedings of the International Conference on High Performance
-Computing, Networking, Storage and Analysis, page 35. ACM, 2013.
-- M. Bauer, S. Eibl, C. Godenschwager, N. Kohl, M. Kuron, C. Rettinger,
-F. Schornbaum, C. Schwarzmeier, D. Thönnes, H. Köstler, and U. Rüde. waLBerla:
-A block-structured high-performance framework for multiphysics simulations. In:
-Computers & Mathematics with Applications, doi:10.1016/j.camwa.2020.01.007.
-Elsevier, 2020.
+Overview:
+  - M. Bauer et al, *waLBerla: A block-structured high-performance framework for
+    multiphysics simulations*. Computers & Mathematics with Applications, 2020.
+    https://doi.org/10.1016/j.camwa.2020.01.007.
+
+Grid Refinement:
+  - F. Schornbaum and U. Rüde, *Massively parallel algorithms for the lattice boltzmann
+    method on nonuniform grids*. SIAM Journal on Scientific Computing, 2016.
+    https://doi.org/10.1137/15M1035240
+
+LBM - Particle Coupling:
+  - C. Rettinger and U. Rüde, *A comparative study of fluid-particle coupling methods for
+    fully resolved lattice Boltzmann simulations*. Computers & Fluids, 2017.
+    https://doi.org/10.1016/j.compfluid.2017.05.033
+
+MESA-PD:
+  - S. Eibl and U. Rüde, *A Modular and Extensible Software Architecture for Particle Dynamics*.
+    Proceedings Of The 8Th International Conference On Discrete Element Methods.
+    https://mercurylab.co.uk/dem8/full-papers/#page-content
+
+Carbon Nanotubes:
+  - G. Drozdov et al, *Densification of single-walled carbon nanotube films:
+    Mesoscopic distinct element method simulations and experimental validation*.
+    Journal of Applied Physics, 2020. https://doi.org/10.1063/5.0025505
 
 ## License