Correction to “The hyper-Wiener index of diamond nanowires”

IF 2.3 3区 化学 Q3 CHEMISTRY, PHYSICAL International Journal of Quantum Chemistry Pub Date : 2025-01-29 DOI:10.1002/qua.27514
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The numbering is from the original article; the correct versions of the equations with the corrected proof can be found below.</p><p>Now we state our main results.</p><p>\n </p><p>\n </p><p>\n </p><p>Some of the first elements of the sequence defined above give the hyper-Wiener index of relatively small diamond grid samples, that is, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>1</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>460</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_1\\right)=460 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>2</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>3556</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_2\\right)=3556 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>3</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>14</mn>\n <mspace></mspace>\n <mn>306</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_3\\right)=14\\kern0.2em 306 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>4</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>40</mn>\n <mspace></mspace>\n <mn>432</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_4\\right)=40\\kern.2em 432 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>5</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>92</mn>\n <mspace></mspace>\n <mn>360</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_5\\right)=92\\kern.2em 360 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>6</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>183</mn>\n <mspace></mspace>\n <mn>220</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_6\\right)=183\\kern.2em 220 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>7</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>328</mn>\n <mspace></mspace>\n <mn>846</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_7\\right)=328\\kern.2em 846 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>8</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>547</mn>\n <mspace></mspace>\n <mn>776</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_8\\right)=547\\kern.2em 776 $$</annotation>\n </semantics></math>, <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mi>G</mi>\n <mn>9</mn>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>861</mn>\n <mspace></mspace>\n <mn>252</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_9\\right)=861\\kern0.2em 252 $$</annotation>\n </semantics></math> and <span></span><math>\n <semantics>\n <mrow>\n <mi>W</mi>\n <mi>W</mi>\n <mo>(</mo>\n <msub>\n <mrow>\n <mi>G</mi>\n </mrow>\n <mrow>\n <mn>10</mn>\n </mrow>\n </msub>\n <mo>)</mo>\n <mo>=</mo>\n <mn>1</mn>\n <mspace></mspace>\n <mn>293</mn>\n <mspace></mspace>\n <mn>220</mn>\n </mrow>\n <annotation>$$ WW\\left({G}_{10}\\right)=1\\kern.2em 293\\kern.2em 220 $$</annotation>\n </semantics></math> for the graphs representing 1 to 10 unit cells next to each other in the diamond grid.</p>","PeriodicalId":182,"journal":{"name":"International Journal of Quantum Chemistry","volume":"125 3","pages":""},"PeriodicalIF":2.3000,"publicationDate":"2025-01-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/qua.27514","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"International Journal of Quantum Chemistry","FirstCategoryId":"92","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/qua.27514","RegionNum":3,"RegionCategory":"化学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"CHEMISTRY, PHYSICAL","Score":null,"Total":0}
引用次数: 0

Abstract

B. Nagy, “ The Hyper-Wiener Index of Diamond Nanowires,” International Journal of Quantum Chemistry 124, no. 1 (2024): e27258.

There is a miscalculation in the above paper; the correct formula and value of hyper-Wiener indices are presented here. The numbering is from the original article; the correct versions of the equations with the corrected proof can be found below.

Now we state our main results.

Some of the first elements of the sequence defined above give the hyper-Wiener index of relatively small diamond grid samples, that is, W W ( G 1 ) = 460 $$ WW\left({G}_1\right)=460 $$ , W W ( G 2 ) = 3556 $$ WW\left({G}_2\right)=3556 $$ , W W ( G 3 ) = 14 306 $$ WW\left({G}_3\right)=14\kern0.2em 306 $$ , W W ( G 4 ) = 40 432 $$ WW\left({G}_4\right)=40\kern.2em 432 $$ , W W ( G 5 ) = 92 360 $$ WW\left({G}_5\right)=92\kern.2em 360 $$ , W W ( G 6 ) = 183 220 $$ WW\left({G}_6\right)=183\kern.2em 220 $$ , W W ( G 7 ) = 328 846 $$ WW\left({G}_7\right)=328\kern.2em 846 $$ , W W ( G 8 ) = 547 776 $$ WW\left({G}_8\right)=547\kern.2em 776 $$ , W W ( G 9 ) = 861 252 $$ WW\left({G}_9\right)=861\kern0.2em 252 $$ and W W ( G 10 ) = 1 293 220 $$ WW\left({G}_{10}\right)=1\kern.2em 293\kern.2em 220 $$ for the graphs representing 1 to 10 unit cells next to each other in the diamond grid.

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来源期刊
International Journal of Quantum Chemistry
International Journal of Quantum Chemistry 化学-数学跨学科应用
CiteScore
4.70
自引率
4.50%
发文量
185
审稿时长
2 months
期刊介绍: Since its first formulation quantum chemistry has provided the conceptual and terminological framework necessary to understand atoms, molecules and the condensed matter. Over the past decades synergistic advances in the methodological developments, software and hardware have transformed quantum chemistry in a truly interdisciplinary science that has expanded beyond its traditional core of molecular sciences to fields as diverse as chemistry and catalysis, biophysics, nanotechnology and material science.
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