diff --git a/README.md b/README.md
index a9d3b5b8e31b04b8164d9959fff3550ae0f9eae5..5b96b73667ac65f460024952ce0b0acae478598b 100644
--- a/README.md
+++ b/README.md
@@ -1,15 +1,27 @@
 ## BLASTER
 
-BLASTER (Boundary-Layer Adjoint Solver for Transonic External and high Reynolds number flow) is an open-source boundary layer solver and a Viscous-Inviscid Interaction (VII) interface written in C++ and python.
+BLASTER (Boundary Layer Adjoint Solver for Transonic External and high Reynolds number flow) is an open-source boundary layer solver and a Viscous-Inviscid Interaction (VII) interface written in C++ and Python. BLASTER is able to compute transonic high Reynolds number flows and laminar and turbulent subsonic compressible flows, including attached and mildly separated flows. It can accurately predict transitions using empirical correlations. The interface can handle two and three-dimensional geometries using a strip based methodology.
+
+Blaster is developed at the University of LiÃ¨ge by Paul Dechamps with the active collaboration of Adrien Crovato and Amaury Bilocq and the help of Romain Boman, and under the supervision of Grigorios Dimitriadis and Vincent E. Terrapon, since 2021.
 
 ![](/logo/logo.png)
 
-Blaster is developed at the University of LiÃ¨ge by Paul Dechamps with the active collaboration of Adrien Crovato and Amaury Bilocq and the help of Romain Boman, and under the supervision of Grigorios Dimitriadis and Vincent E. Terrapon, since 2021.
+# Interfaces
+
+Blaster is currently interfaced with different inviscid flow solvers in order to perform viscous-inviscid interaction
+
+- [DARTFlo](https://gitlab.uliege.be/am-dept/dartflo), a full potential transonic solver  developed by A. Crovato  
+[Steady Transonic Aerodynamic and Aeroelastic Modeling for Preliminary Aircraft Design](http://hdl.handle.net/2268/251906), PhD thesis, University of LiÃ¨ge, 2020.
+
+- [SU2](https://github.com/su2code/SU2.git) v7 Blackbird  (Euler solver), developed at Stanford University. An interface with the newer version v8 Harrier is under development.
+
+# References
+- Dechamps Paul, Adrien Crovato, Grigorios Dimitriadis, and Vincent Terrapon, [Three-dimensional pseudo-unsteady viscous-inviscid interaction for wings in transonic flow](https://orbi.uliege.be/handle/2268/311564), AIAA SCITECH 2024 Forum, doi:10.2514/6.2024-1947.
 
-# Working with
+- Dechamps Paul, [BLASTER Theory Manual](https://orbi.uliege.be/handle/2268/325665), 2024.
 
-Blaster is currently interfaced with different inviscid flow solvers in order to perform the viscous-inviscid interaction algorithm
+- Dechamps Paul, Amaury Bilocq, Adrien Crovato, Grigorios Dimitriadis, and Vincent Terrapon, [Pseudo-unsteady, quasi-simultaneous, two-dimensional interactive boundary layer methodology for preliminary aircraft design](https://hdl.handle.net/2268/295503), ACOMEN 2022.
 
-- dartflo, a full potential transonic solver [DARTFlo](https://gitlab.uliege.be/am-dept/dartflo) developed by A. Crovato [Steady Transonic Aerodynamic and Aeroelastic Modeling for Preliminary Aircraft Design](http://hdl.handle.net/2268/251906), PhD thesis, University of LiÃ¨ge, 2020.
+- Dechamps Paul, [Improvement of the viscous-inviscid interaction method implemented in DARTFLO](http://hdl.handle.net/2268.2/13886), Master Thesis, University of LiÃ¨ge, 2022.
 
-- SU2 (The Euler solver), developed at Stanford University [SU2](https://github.com/su2code/SU2.git). It is recommended to use our own fork of the project as different tools to have a correct interface have been implemented there [SU2 FORK](https://github.com/Paul-Dech/SU2.git).
+- Bilocq Amaury, [Implementation of a viscous-inviscid interaction scheme in a finite element full potential solver](http://hdl.handle.net/2268.2/10352), Master Thesis, University of LiÃ¨ge, 2020.
\ No newline at end of file
diff --git a/blast/coupler.py b/blast/coupler.py
index b6410728f8f5c2467d149769f8091ced51eac18c..de1c0369c89aed1f3ba4ed26b1cb585c5cf62329 100644
--- a/blast/coupler.py
+++ b/blast/coupler.py
@@ -41,7 +41,7 @@ class Coupler:
         print('|          / _  / /__/ __ |_\ \  / / / _// , _/          |')
         print('|         /____/____/_/ |_/___/ /_/ /___/_/|_|           |')
         print('|                                                        |')
-        print('| 2021-2024 University of Liege                          |')
+        print('| v1.0 2021-2024 University of Liege                     |')
         print('| Paul Dechamps (gitlab.uliege.be/pdechamps)             |')
         print(' ######################################################## ')
         print('')