add cidemode ref

LLNL · May 31, 2024 · a2429c6 · a2429c6
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diff --git a/joss/paper.bib b/joss/paper.bib
@@ -210,3 +210,16 @@ @article{li2024topology
   year={2024},
   doi={10.48550/arXiv.2403.18184}
 }
+
+@article{aylagas2022cidemod,
+    doi = {10.1149/1945-7111/ac91fb},
+    year = 2022,
+    month = sep,
+    publisher = {The Electrochemical Society},
+    volume = {169},
+    number = {9},
+    pages = {090528},
+    author = {Raul Ciria Aylagas and Clara Ganuza and Ruben Parra and Maria Ya{\~{n}}ez and Elixabete Ayerbe},
+    title = {{cideMOD}: An Open Source Tool for Battery Cell Inhomogeneous Performance Understanding},
+    journal = {Journal of The Electrochemical Society}
+}
diff --git a/joss/paper.md b/joss/paper.md
@@ -117,6 +117,7 @@ Finally, since everything needs to be set up through the GUI, scripting and coup
 
 There is a growing number of open-source software for electrochemistry, especially Python-based packages [@zheng2023python], many of which are specialized for specific applications, notably batteries.
 One such package, PyBaMM [@sulzer2021python], is a battery modelling code with a flexible implementation, allowing for new models and numerical methods to be tested.
+Similarly, cideMOD [@aylagas2022cidemod] leverages FEniCSx in a manner analogous to how EchemFEM employs Firedrake, thus enabling the simulation of 2D and 3D battery cell geometries.
 OpenFOAM [@openfoamwebsite] is a popular tool that is mainly used for computational fluid dynamics, but implementation of custom transport mechanisms, such as those from electrochemistry, can have a steep learning curve.
 
 <!--- Why echemfem --->