diff --git a/joss.06330/10.21105.joss.06330.crossref.xml b/joss.06330/10.21105.joss.06330.crossref.xml
index 6a1758fd84..0b349cfebb 100644
--- a/joss.06330/10.21105.joss.06330.crossref.xml
+++ b/joss.06330/10.21105.joss.06330.crossref.xml
@@ -6,8 +6,8 @@
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            xsi:schemaLocation="http://www.crossref.org/schema/5.3.1 http://www.crossref.org/schemas/crossref5.3.1.xsd">
   <head>
-    <doi_batch_id>20240708205337-6483f670f88c6d1a047dcebd719f15b35103dbe0</doi_batch_id>
-    <timestamp>20240708205337</timestamp>
+    <doi_batch_id>20240709161800-6483f670f88c6d1a047dcebd719f15b35103dbe0</doi_batch_id>
+    <timestamp>20240709161800</timestamp>
     <depositor>
       <depositor_name>JOSS Admin</depositor_name>
       <email_address>admin@theoj.org</email_address>
@@ -215,7 +215,7 @@ https://doi.org/10.1016/j.renene.2021.08.016</unstructured_citation>
           </citation>
           <citation key="Sasanpour2021">
             <article_title>Strategic policy targets and the contribution
-of hydrogen in a 100% renewable european power system</article_title>
+of hydrogen in a 100% renewable European power system</article_title>
             <author>Sasanpour</author>
             <journal_title>Energy Reports</journal_title>
             <volume>7</volume>
@@ -224,7 +224,7 @@ of hydrogen in a 100% renewable european power system</article_title>
             <cYear>2021</cYear>
             <unstructured_citation>Sasanpour, S., Cao, K.-K., Gils, H.
 C., &amp; Jochem, P. (2021). Strategic policy targets and the
-contribution of hydrogen in a 100% renewable european power system.
+contribution of hydrogen in a 100% renewable European power system.
 Energy Reports, 7, 4595–4608.
 https://doi.org/10.1016/j.egyr.2021.07.005</unstructured_citation>
           </citation>
@@ -296,7 +296,7 @@ https://doi.org/10.1016/j.renene.2016.12.043</unstructured_citation>
           </citation>
           <citation key="Cao2021">
             <article_title>To prevent or promote grid expansion?
-Analyzing the future role of power transmission in the european energy
+Analyzing the future role of power transmission in the European energy
 system</article_title>
             <author>Cao</author>
             <journal_title>Frontiers in Energy Research</journal_title>
@@ -306,7 +306,7 @@ system</article_title>
             <cYear>2021</cYear>
             <unstructured_citation>Cao, K.-K., Pregger, T., Haas, J.,
 &amp; Lens, H. (2021). To prevent or promote grid expansion? Analyzing
-the future role of power transmission in the european energy system.
+the future role of power transmission in the European energy system.
 Frontiers in Energy Research, 8, 371.
 https://doi.org/10.3389/fenrg.2020.541495</unstructured_citation>
           </citation>
@@ -421,7 +421,7 @@ https://doi.org/10.1016/j.simpa.2020.100028</unstructured_citation>
           </citation>
           <citation key="Cao2021b">
             <article_title>Bridging granularity gaps to decarbonize
-large-scale energy systems—the case of power system
+large-scale energy systems—The case of power system
 planning</article_title>
             <author>Cao</author>
             <journal_title>Energy Science &amp;
@@ -433,13 +433,13 @@ Engineering</journal_title>
             <unstructured_citation>Cao, K.-K., Haas, J., Sperber, E.,
 Sasanpour, S., Sarfarazi, S., Pregger, T., Alaya, O., Lens, H., Drauz,
 S. R., &amp; Kneiske, T. M. (2021). Bridging granularity gaps to
-decarbonize large-scale energy systems—the case of power system
+decarbonize large-scale energy systems—The case of power system
 planning. Energy Science &amp; Engineering, 9(8), 1052–1060.
 https://doi.org/10.1002/ese3.891</unstructured_citation>
           </citation>
           <citation key="NITSCH2024">
-            <article_title>The future role of carnot batteries in
-central europe: Combining energy system and market
+            <article_title>The future role of Carnot batteries in
+Central Europe: Combining energy system and market
 perspective</article_title>
             <author>Nitsch</author>
             <journal_title>Journal of Energy Storage</journal_title>
@@ -448,8 +448,8 @@ perspective</article_title>
             <issn>2352-152X</issn>
             <cYear>2024</cYear>
             <unstructured_citation>Nitsch, F., Wetzel, M., Gils, H. C.,
-&amp; Nienhaus, K. (2024). The future role of carnot batteries in
-central europe: Combining energy system and market perspective. Journal
+&amp; Nienhaus, K. (2024). The future role of Carnot batteries in
+Central Europe: Combining energy system and market perspective. Journal
 of Energy Storage, 85, 110959.
 https://doi.org/10.1016/j.est.2024.110959</unstructured_citation>
           </citation>
diff --git a/joss.06330/10.21105.joss.06330.pdf b/joss.06330/10.21105.joss.06330.pdf
index 8ea1a4a41c..d51a8e2e09 100644
Binary files a/joss.06330/10.21105.joss.06330.pdf and b/joss.06330/10.21105.joss.06330.pdf differ
diff --git a/joss.06330/paper.jats/10.21105.joss.06330.jats b/joss.06330/paper.jats/10.21105.joss.06330.jats
index 077e65a80c..b2e527693f 100644
--- a/joss.06330/paper.jats/10.21105.joss.06330.jats
+++ b/joss.06330/paper.jats/10.21105.joss.06330.jats
@@ -181,7 +181,7 @@ a Creative Commons Attribution 4.0 International License (CC BY
 </license>
 </permissions>
 <kwd-group kwd-group-type="author">
-<kwd>energy systems modelling</kwd>
+<kwd>energy systems modeling</kwd>
 <kwd>optimization</kwd>
 <kwd>renewable energy systems</kwd>
 </kwd-group>
@@ -196,14 +196,16 @@ a Creative Commons Attribution 4.0 International License (CC BY
   demand for any commodity, usually representing energy carriers such as
   electricity, gases, or heat, and to flexibly link them with each
   other. All processes can be characterized by indicators such as costs
-  or CO2 emissions. The mathematical core of the framework allows
-  integer and continuous decision variables and the objective function
-  includes one or more indicators. Energy system infrastructures can be
-  considered for both economic dispatch as well as capacity expansion
-  planning along either single target years or full infrastructure
-  pathways. Research subjects are usually regional to continental
-  systems, and their transformation to a climate-neutral energy
-  supply.</p>
+  or CO<inline-formula><alternatives>
+  <tex-math><![CDATA[_2]]></tex-math>
+  <mml:math display="inline" xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:msub><mml:mi></mml:mi><mml:mn>2</mml:mn></mml:msub></mml:math></alternatives></inline-formula>
+  emissions. The mathematical core of the framework allows integer and
+  continuous decision variables and the objective function includes one
+  or more indicators. Energy system infrastructures can be considered
+  for both economic dispatch and capacity expansion planning along
+  either single target years or full infrastructure pathways. Research
+  subjects are usually regional to continental systems, and their
+  transformation to a climate-neutral energy supply.</p>
 </sec>
 <sec id="statement-of-need">
   <title>Statement of need</title>
@@ -253,13 +255,12 @@ a Creative Commons Attribution 4.0 International License (CC BY
   here. Its novelty consists in the combination of multiple features
   required to address current challenges of energy systems research
   (<xref alt="Pfenninger et al., 2014" rid="ref-Pfenninger2014" ref-type="bibr">Pfenninger
-  et al., 2014</xref>). These include the integrative optimization of
-  consistent transformation pathways of sector-coupled systems,
-  multi-criteria optimization and evaluation, and the ability to
-  efficiently compute models of ever-increasing complexity by its link
-  to the parallel solver PIPS-IPM++ for High Performance Computing. This
-  version of REMix is used in numerous ongoing research projects,
-  including
+  et al., 2014</xref>). These include the optimization of consistent
+  transformation pathways of sector-integrated systems, multi-criteria
+  optimization and evaluation, and the ability to efficiently compute
+  models of ever-increasing complexity by its link to the parallel
+  solver PIPS-IPM++ for High Performance Computing. This version of
+  REMix is used in numerous ongoing research projects, including
   (<xref alt="DLR, 2019-2023" rid="ref-UNSEEN2022" ref-type="bibr">DLR,
   2019-2023</xref>,
   <xref alt="2020-2023" rid="ref-Sesame2022" ref-type="bibr">2020-2023</xref>,
@@ -298,7 +299,7 @@ a Creative Commons Attribution 4.0 International License (CC BY
       <graphic mimetype="application" mime-subtype="pdf" xlink:href="JOSS_overview_remix.pdf" />
     </fig>
     <sec id="technology-modeling">
-      <title>Technology Modeling</title>
+      <title>Technology modeling</title>
       <p>According to the possible abstraction of energy systems, all
       technologies in REMix are characterized as source, sink,
       converter, transfer links, or storage of commodities. The
@@ -327,11 +328,11 @@ a Creative Commons Attribution 4.0 International License (CC BY
       to indicators and defining the objective function. Indicators in
       REMix are used for general accounting purposes and can be freely
       defined. Typically, indicators include both system costs and
-      carbon emission as the most commonly used metrics in energy system
-      modeling. REMix implements a hierarchical indicator model to allow
-      indicators to either be derived from the individual system
-      components or from other indicators. This allows, for instance,
-      for the separation of cost components into investment,
+      carbon emissions as the most commonly used metrics in energy
+      system modeling. REMix implements a hierarchical indicator model
+      to allow indicators to either be derived from the individual
+      system components or from other indicators. This allows, for
+      instance, for the separation of cost components into investment,
       decommissioning, and operational costs. Any defined indicator can
       be used in conjunction with any number of model regions and any
       number of years, to enable e.g. modeling of carbon budgets.
@@ -351,8 +352,8 @@ a Creative Commons Attribution 4.0 International License (CC BY
     </sec>
   </sec>
 </sec>
-<sec id="acknowledgements">
-  <title>Acknowledgements</title>
+<sec id="acknowledgments">
+  <title>Acknowledgments</title>
   <p>The development of REMix was financed through numerous projects.
   The most important third-party funded projects include UNSEEN (FKZ
   03EI1004A), Sesame Seed (FKZ 03EI1021B), ReMoDigital (FKZ 03EI1020B),
@@ -428,7 +429,7 @@ a Creative Commons Attribution 4.0 International License (CC BY
         <name><surname>Gils</surname><given-names>Hans Christian</given-names></name>
         <name><surname>Jochem</surname><given-names>Patrick</given-names></name>
       </person-group>
-      <article-title>Strategic policy targets and the contribution of hydrogen in a 100% renewable european power system</article-title>
+      <article-title>Strategic policy targets and the contribution of hydrogen in a 100% renewable European power system</article-title>
       <source>Energy Reports</source>
       <year iso-8601-date="2021">2021</year>
       <volume>7</volume>
@@ -527,7 +528,7 @@ a Creative Commons Attribution 4.0 International License (CC BY
         <name><surname>Haas</surname><given-names>Jannik</given-names></name>
         <name><surname>Lens</surname><given-names>Hendrik</given-names></name>
       </person-group>
-      <article-title>To prevent or promote grid expansion? Analyzing the future role of power transmission in the european energy system</article-title>
+      <article-title>To prevent or promote grid expansion? Analyzing the future role of power transmission in the European energy system</article-title>
       <source>Frontiers in Energy Research</source>
       <year iso-8601-date="2021">2021</year>
       <volume>8</volume>
@@ -688,7 +689,7 @@ a Creative Commons Attribution 4.0 International License (CC BY
         <name><surname>Drauz</surname><given-names>Simon R.</given-names></name>
         <name><surname>Kneiske</surname><given-names>Tanja M.</given-names></name>
       </person-group>
-      <article-title>Bridging granularity gaps to decarbonize large-scale energy systems—the case of power system planning</article-title>
+      <article-title>Bridging granularity gaps to decarbonize large-scale energy systems—The case of power system planning</article-title>
       <source>Energy Science &amp; Engineering</source>
       <year iso-8601-date="2021">2021</year>
       <volume>9</volume>
@@ -707,7 +708,7 @@ a Creative Commons Attribution 4.0 International License (CC BY
         <name><surname>Gils</surname><given-names>Hans Christian</given-names></name>
         <name><surname>Nienhaus</surname><given-names>Kristina</given-names></name>
       </person-group>
-      <article-title>The future role of carnot batteries in central europe: Combining energy system and market perspective</article-title>
+      <article-title>The future role of Carnot batteries in Central Europe: Combining energy system and market perspective</article-title>
       <source>Journal of Energy Storage</source>
       <year iso-8601-date="2024">2024</year>
       <volume>85</volume>