Small changes to front and research pages

Author: ecisneros8

index.md

@@ -32,17 +32,18 @@ hero: true
       <p>
         <strong>Esteban Cisneros--Garibay</strong> is an Assistant Professor at the
         University of Tennessee Space Institute (UTSI) and the University of
-        Tennessee, Knoxville (UTK).
-        [<em>Add a 2–3 sentence bio here: your position, research focus, and what
-        draws you to this work.</em>]
+        Tennessee, Knoxville (UTK). He specializes in high-speed reacting flows
+	and computational methods. 
       </p>
       <p>
-        Prior to joining UTSI, he completed his [degree/postdoc] at
-        [previous institution]. His research is supported by [funding agencies].
+        Esteban obtained his PhD in Theoretical &amp; Applied Mechanics at the
+	University of Illinois in 2021. He was a Presidential Postdoctoral
+	Fellow at Princeton University from 2021 to 2022. He was a staff
+	scientist at Bayer R&D from 2022 to 2025.
       </p>
       <p>
         <strong>Email:</strong> <a href="mailto:ecisneros@utsi.edu">ecisneros@utsi.edu</a><br>
-        <strong>Office:</strong> [G Wing &amp; 222], UTSI, Tullahoma, TN 37388
+        <strong>Office:</strong> G-222, UTSI, Tullahoma, TN 37388
       </p>
     </div>
   </div>
@@ -75,19 +76,22 @@ hero: true
       </span>
     </div>
 
+    <! --
     <div class="news-item">
       <span class="news-date">Feb 2026</span>
       <span class="news-text">
         New paper accepted at <em>[Journal Name]</em>:
         "<a href="#">[Paper title placeholder]</a>."
       </span>
     </div>
+    -->
 
     <div class="news-item">
       <span class="news-date">Feb 2026</span>
       <span class="news-text">
-        Esteban will present work on compressible flames at 2026 the
-        International Symposium on Combustion.
+        Esteban;s paper on compressible flames has been accepted
+	for presentation at 2026 the International Symposium
+	on Combustion.
       </span>
     </div>
 
@@ -113,24 +117,22 @@ hero: true
       of turbulent reacting flows.
     </p>
     <p>
-      <strong>PhD students:</strong> Please apply to the UTSI PhD program, and fill out this <a href="https://forms.gle/UTaPee69qpb6Gk426" target="_blank" rel="noopener">[form].
+      <strong>PhD students:</strong> Please apply to the UTSI PhD program, and fill out this <a href="https://forms.gle/UTaPee69qpb6Gk426" target="_blank" rel="noopener">[form]</a>.
       You can send a follow-up email to
       <a href="mailto:ecisneros@utsi.edu">ecisneros@utsi.edu</a>.
       Admitted students are typically supported through research assistantships.
     </p>
     <p>
       <strong>MS students:</strong> There are no openings for students seeking a MS degree. 
     </p>
+    <p>
+      <strong> Undergraduate students:</strong> Research opportunities are available through independent study, and the UTSI summer internship program. Stop by or send a short email describing your interests.
+    </p>
     <p>
       <strong>Postdoctoral researchers:</strong> Funded positions are announced
       here when available. Candidates with strong backgrounds in DNS/LES,
       numerical methods, or combustion modeling are encouraged to reach out at
       any time.
     </p>
-    <p>
-      <strong>Undergraduate students at UTK/UTSI:</strong> Research opportunities
-      (SURF, independent study, course credit) are available. Stop by or send
-      a short email describing your interests.
-    </p>
   </div>
 </section>

research.md

@@ -7,20 +7,16 @@ title: Research
   <h2>Overview</h2>
   <p>
     The Cisneros Group develops and applies high-fidelity computational methods
-    to study <strong>turbulent reacting flows</strong> in aerospace propulsion
-    contexts. Our work spans direct numerical simulation (DNS), large-eddy
-    simulation (LES), and reduced-order modeling, with a focus on regimes where
+    to study <strong>turbulent reacting flows</strong>. Our work includes direct
+    numerical simulation (DNS), large-eddy simulation (LES), and reduced modeling,
+    with a focus on regimes where
     compressibility, shock waves, and chemical kinetics interact at high Mach
     numbers.
   </p>
   <p>
-    [<em>Expand this paragraph: describe your specific research philosophy,
-    the open questions you are tackling, and what makes your approach unique.</em>]
-  </p>
-  <p>
-    Our solvers are developed for leadership-class HPC resources (ORNL
-    Summit/Frontier, ALCF Polaris) and leverage GPU acceleration to enable
-    simulations at parameter regimes that were previously inaccessible.
+    Our solvers are developed for leadership-class HPC resources and leverage
+    GPU acceleration to enable simulations at regimes that were previously
+    inaccessible.
   </p>
 </section>