deploy: 242dde167e49d9dc60659966cda02400f820d7f5

index.xml

@@ -32,7 +32,7 @@
       <pubDate>Mon, 01 Jan 0001 00:00:00 +0000</pubDate>
       <author>mveril@irsamc.ups-tlse.fr (M. Véril)</author>
       <guid>https://lcpq.github.io/QUESTDB_website/subsets/</guid>
-      <description>The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \(n \rightarrow \pi^\star\)   , \(\pi \rightarrow \pi^\star\)   , singlet, doublet, triplet, and double excitations) for molecules ranging from diatomics to molecules as large as naphthalene. This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.</description>
+      <description>The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \(n \rightarrow \pi^\star\)   , \(\pi \rightarrow \pi^\star\)   , singlet, doublet, triplet, charge transfer, and double excitations) for molecules ranging from diatomics to bicyclic molecules (see below). This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.</description>
     </item>
     
     <item>

subsets/index.html

@@ -8,7 +8,7 @@
   <meta name="viewport" content="width=device-width, initial-scale=1.0, maximum-scale=1.0">
 
   <title>Subsets - QUEST: a database of highly-accurate excitation energies</title>
-  <meta name="description" content="The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \(n \rightarrow \pi^\star\)   , \(\pi \rightarrow \pi^\star\)   , singlet, doublet, triplet, and double excitations) for molecules ranging from diatomics to molecules as large as naphthalene. This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.">
+  <meta name="description" content="The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \(n \rightarrow \pi^\star\)   , \(\pi \rightarrow \pi^\star\)   , singlet, doublet, triplet, charge transfer, and double excitations) for molecules ranging from diatomics to bicyclic molecules (see below). This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.">
   <meta name="author" content="M. Véril"/><script type="application/ld+json">
 {
     "@context": "http://schema.org",
@@ -57,9 +57,9 @@
     "name" : "M. Véril"
   },
   "headline": "Subsets",
-  "description" : "The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \\(n \\rightarrow \\pi^\\star\\)   , \\(\\pi \\rightarrow \\pi^\\star\\)   , singlet, doublet, triplet, and double excitations) for molecules ranging from diatomics to molecules as large as naphthalene. This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.",
+  "description" : "The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \\(n \\rightarrow \\pi^\\star\\)   , \\(\\pi \\rightarrow \\pi^\\star\\)   , singlet, doublet, triplet, charge transfer, and double excitations) for molecules ranging from diatomics to bicyclic molecules (see below). This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.",
   "inLanguage" : "en",
-  "wordCount":  1019 ,
+  "wordCount":  1020 ,
   "datePublished" : "0001-01-01T00:00:00",
   "dateModified" : "0001-01-01T00:00:00",
   "image" : "https:\/\/lcpq.github.io\/QUESTDB_website\/img\/TOC_JPCL.png",
@@ -79,7 +79,7 @@
 </script>
 
 <meta property="og:title" content="Subsets" />
-<meta property="og:description" content="The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \(n \rightarrow \pi^\star\)   , \(\pi \rightarrow \pi^\star\)   , singlet, doublet, triplet, and double excitations) for molecules ranging from diatomics to molecules as large as naphthalene. This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.">
+<meta property="og:description" content="The QUEST database provides theoretical best estimates (TBEs) for more than 600 highly-accurate excitation energies of various natures (valence, Rydberg, \(n \rightarrow \pi^\star\)   , \(\pi \rightarrow \pi^\star\)   , singlet, doublet, triplet, charge transfer, and double excitations) for molecules ranging from diatomics to bicyclic molecules (see below). This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.">
 <meta property="og:image" content="https://lcpq.github.io/QUESTDB_website/img/TOC_JPCL.png" />
 <meta property="og:url" content="https://lcpq.github.io/QUESTDB_website/subsets/" />
 <meta property="og:type" content="website" />
@@ -293,10 +293,10 @@ MathJax.Hub.Config({
                 
       <img style="display:inline;vertical-align:middle;" src="https://latex.codecogs.com/gif.latex?\inline&space;%5cpi%20%5crightarrow%20%5cpi%5e%5cstar" title="\pi \rightarrow \pi^\star" />
   
-</noscript>, singlet, doublet, triplet, and double excitations) for molecules ranging from diatomics to molecules as large as naphthalene.
+</noscript>, singlet, doublet, triplet, charge transfer, and double excitations) for molecules ranging from diatomics to bicyclic molecules (see below).
 This set is also chemically diverse, with organic and inorganic systems, open- and closed-shell compounds, acyclic and cyclic systems, pure hydrocarbons and various heteroatomic structures, etc.
 The molecules included in the QUEST dataset have been systematically optimized at the CC3/aug-cc-pVTZ level of theory, except for a very few cases.
-The QUEST dataset of vertical excitations is composed by 5 subsets:</p>
+The QUEST dataset of vertical excitations is composed by 7 subsets:</p>
 
 <link rel="stylesheet" href="https://lcpq.github.io/QUESTDB_website/css/hugo-easy-gallery.css" />
 <div class="box" >
@@ -305,7 +305,7 @@ The QUEST dataset of vertical excitations is composed by 5 subsets:</p>
       <img itemprop="thumbnail" src="https://lcpq.github.io/QUESTDB_website/img/subsets.png" alt="/img/subsets.png"/>
     </div>
     <a href="https://lcpq.github.io/QUESTDB_website/img/subsets.png" itemprop="contentUrl"></a>
-      <figcaption><h4>Composition of each of the five subsets making up the present QUEST dataset of highly-accurate vertical excitation energies</h4>
+      <figcaption><h4>Composition of each of the seven subsets making up the present QUEST dataset of highly-accurate vertical excitation energies</h4>
       </figcaption>
   </figure>
 </div>