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[journal article]

dc.contributor.authorAgboola, Olasoji O.de
dc.contributor.authorAgboola, Olamidujulo O.de
dc.contributor.authorOvioke, David T.de
dc.contributor.authorAdenowo, Tomas K.de
dc.date.accessioned2025-04-02T07:40:12Z
dc.date.available2025-04-02T07:40:12Z
dc.date.issued2025de
dc.identifier.issn2413-9009de
dc.identifier.urihttps://www.ssoar.info/ssoar/handle/document/101213
dc.description.abstractAdvanced microscopy, biophotonics, and optoacoustic technologies have emerged as transformative scientific platforms that enable unprecedented insights into complex biological systems. This research investigates the integrated performance of these technologies through a comprehensive interdisciplinary methodology. By combining quantum sensing techniques, advanced computational approaches, and sophisticated signal processing strategies, researchers developed innovative technological platforms that generated high-resolution observations of molecular interactions. Key findings revealed significant improvements in imaging resolution and signal detection capabilities, with quantum-enhanced sensing techniques enabling molecular-level observations that transcend traditional limitations. Statistical validation confirmed robust performance across multiple research dimensions, demonstrating extraordinary reliability in biological research methodologies. The study identified critical technological challenges, including computational complexity and signal resolution limitations, while providing recommendations emphasising quantum computational technologies and interdisciplinary collaboration. The investigation demonstrates that integrated technological platforms can generate transformative scientific insights, creating new pathways for understanding complex biological systems. These findings have significant implications for medical diagnostics, personalised healthcare, and complex scientific observation, promising continued technological innovation and scientific discovery.de
dc.languageende
dc.subject.ddcNaturwissenschaftende
dc.subject.ddcScienceen
dc.subject.otherBiophotonics; Opto acoustic imaging; Quantum sensing; Molecular imaging; Signal processing; Computational integration; Medical diagnostics; High-resolution microscopy; Interdisciplinary research; Biological systemde
dc.titleAdvances in Microscopy, Biophotonics, Opto Acoustic: Role in Biology and Medicinede
dc.description.reviewbegutachtet (peer reviewed)de
dc.description.reviewpeer revieweden
dc.identifier.urlhttps://pathofscience.org/index.php/ps/article/view/3440/1661de
dc.source.journalPath of Science
dc.source.volume11de
dc.publisher.countryMISCde
dc.source.issue2de
dc.subject.classozNaturwissenschaften, Technik(wissenschaften), angewandte Wissenschaftende
dc.subject.classozNatural Science and Engineering, Applied Sciencesen
dc.rights.licenceCreative Commons - Namensnennung 4.0de
dc.rights.licenceCreative Commons - Attribution 4.0en
internal.statusformal und inhaltlich fertig erschlossende
dc.type.stockarticlede
dc.type.documentZeitschriftenartikelde
dc.type.documentjournal articleen
dc.source.pageinfo4001-4009de
internal.identifier.classoz50200
internal.identifier.journal1570
internal.identifier.document32
internal.identifier.ddc500
dc.identifier.doihttps://doi.org/10.22178/pos.114-8de
dc.description.pubstatusVeröffentlichungsversionde
dc.description.pubstatusPublished Versionen
internal.identifier.licence16
internal.identifier.pubstatus1
internal.identifier.review1
internal.dda.referencehttps://pathofscience.org/index.php/index/oai/@@oai:ojs.pathofscience.org:article/3440
ssoar.urn.registrationfalsede


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