diff --git a/_bibliography/phdtheses.bib b/_bibliography/phdtheses.bib
index 37b4c4b..d1bbc5b 100644
--- a/_bibliography/phdtheses.bib
+++ b/_bibliography/phdtheses.bib
@@ -12,6 +12,16 @@ @phdthesis{Gebauer2026
   abstract      = {Mechanobiological activity in living soft-biological tissue reacts to changes in the mechanical environment with tissue growth and remodeling to maintain a homeostatic state. This work develops a novel mechanobiology-based and microstructure-motivated computational framework for cardiac growth and remodeling. The proposed highly efficient simulation approaches enable finely resolved investigations of mechanobiological stability and reversal of tissue growth and remodeling following hypertension conditions.},
   url           = {<a href="https://mediatum.ub.tum.de/1784403">https://mediatum.ub.tum.de/1784403</a>}
 }
+@phdthesis{Satheesh2026,
+  author        = {Satheesh, Abhiroop},
+  title         = {A Finite Element Modeling Framework for Material Expansion Processes Involving Extreme Volume Change and Contact},
+  year          = {2026},
+  school        = {Technische Universit\"{a}t M\"{u}nchen},
+  pages         = {176},
+  language      = {en},
+  abstract      = {This thesis develops crucial approaches for the computational modeling of very large expansions of continua, which are relevant to various industrial applications. The main novel contributions include a mesh adaptation scheme to address localized mesh distortions and structure-preserving invariant interpolation schemes. The latter is particularly important for the consistent, accurate, and robust transfer of tensor data between meshes, a vital aspect of mesh adaptation.},
+  url           = {<a href="https://mediatum.ub.tum.de/1753031">https://mediatum.ub.tum.de/1753031</a>}
+}
 @phdthesis{Schmidt2026,
   author        = {Schmidt, Christoph Paul},
   title         = {A Computational Framework for Electro-Chemo-Mechanical Analyses of Microstructure-Resolved Solid-State Batteries},