https://sloap.org/journal/index.php/ijcms/issue/feedInternational journal of chemical & material sciences2026-12-31T00:00:00+00:00Editorial Officeeditorsloap@gmail.comOpen Journal Systems<p style="text-align: justify;"><strong>IJCMS </strong>is published in English and it is open to authors around the world regardless of the nationality. The frequency or number of issues per year is continous.<br />ISSN 2632-9468</p>https://sloap.org/journal/index.php/ijcms/article/view/2470Electronic Structure and Visible-Light Response of a Phosphonate-Coordinated Tungsten Oxide (WO3) Model: A First-Principles Study 2026-03-05T08:57:08+00:00Carlos N Kabengelecarlokabengele1@gmail.comGiresse N Kasiamagiressekasiama@gmail.comClement L Inkotoclementinkoto@gmail.comDamien S-T Tshibangutshibangud@gmail.comKoto-Te-Nyiwa Ngboluajpngbolua@unikin.ac.cdPius T Mpianaptmpiana@gmail.comDorothée D Tshilandadtshilanda@gmail.com<p><span class="TextRun SCXW4631176 BCX0" lang="EN-US" xml:lang="EN-US" data-contrast="auto"><span class="NormalTextRun SCXW4631176 BCX0">The rational design of visible-light-active photocatalysts requires a detailed understanding of how local coordination environments modulate the electronic structure and key photocatalytic descriptors. In this work, we present a first-principles investigation of the electronic structure and optical properties of a tungsten–phosphonate metal–organic framework model using density functional theory. A minimal W–phosphonate cluster, consisting of a WO? unit coordinated by phosphonate groups, is adopted to capture the essential features of the W–O–P motif while </span><span class="NormalTextRun SCXW4631176 BCX0">maintaining</span><span class="NormalTextRun SCXW4631176 BCX0"> computational tractability. Electronic structure calculations performed at the PBE level reveal a semiconducting character with a valence band dominated by ligand-derived O 2p states and a conduction band primarily composed of W 5d orbitals, indicative of ligand-to-metal charge transfer (LMCT) excitations. Hybrid HSE06 calculations yield an improved band gap of 1.92 eV and enable </span><span class="NormalTextRun SCXW4631176 BCX0">an accurate</span><span class="NormalTextRun SCXW4631176 BCX0"> alignment of band edges with respect to the vacuum level and water redox potentials. The resulting band positions </span><span class="NormalTextRun SCXW4631176 BCX0">indicate</span><span class="NormalTextRun SCXW4631176 BCX0"> a strong thermodynamic driving force for the hydrogen evolution reaction, while oxygen evolution is found to be marginally accessible. Time-dependent DFT calculations further </span><span class="NormalTextRun SCXW4631176 BCX0">demonstrate</span><span class="NormalTextRun SCXW4631176 BCX0"> pronounced visible-light absorption, with an intense band centered at approximately 545 nm originating from LMCT transitions. Overall, this study elucidates the electronic and optical consequences of phosphonate coordination on tungsten-based frameworks and </span><span class="NormalTextRun SCXW4631176 BCX0">provides</span><span class="NormalTextRun SCXW4631176 BCX0"> atomistic insights relevant </span><span class="NormalTextRun ContextualSpellingAndGrammarErrorV2Themed SCXW4631176 BCX0">for</span><span class="NormalTextRun SCXW4631176 BCX0"> the rational design of visible-light-responsive photocatalysts.</span></span><span class="EOP SCXW4631176 BCX0" data-ccp-props="{"134233117":false,"134233118":false,"201341983":0,"335551550":6,"335551620":6,"335557856":16777215,"335559685":240,"335559737":0,"335559738":0,"335559739":0,"335559740":279,"335559991":240}"> </span></p>2026-04-24T00:00:00+00:00Copyright (c) 2026 International journal of chemical & material sciences