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Thin Films for Next Generation Technologies: A Comprehensive Review of Fundamentals, Growth, Deposition Strategies, Applications, and Emerging Frontiers

A. Arun, Niranjana Sreenivasan, Jagadish H. Patil, Raviraj Kusanur, Hemanth L. Ramachandraiah, Mushti V. Ramakrishna

2025Processes24 citationsDOIOpen Access PDF

Abstract

Thin films have become indispensable in shaping the landscape of modern and future technologies, offering versatile platforms where properties can be engineered at the atomic to microscale to deliver performance unattainable with bulk materials. Historically evolving from protective coatings and optical layers, the field has advanced into a highly interdisciplinary domain that underpins innovations in microelectronics, energy harvesting, optoelectronics, sensing, and biomedical devices. In this review, a structured approach has been adopted to consolidate the fundamentals of thin film growth and the governing principles of nucleation, surface dynamics, and interface interactions, followed by an in-depth comparison of deposition strategies such as physical vapor deposition, chemical vapor deposition, atomic layer deposition (ALD), and novel solution-based techniques, highlighting their scalability, precision, and application relevance. By critically evaluating experimental studies and technological implementations, this review identifies key findings linking microstructural evolution to device performance, while also addressing the pressing challenges of stability, degradation pathways, and reliability under operational stresses. The synthesis of evidence points to the transformative role of advanced deposition controls, in situ monitoring, and emerging AI-driven optimization in overcoming current bottlenecks. Ultimately, this work concludes that thin film technologies are poised to drive the next generation of sustainable, intelligent, and multifunctional devices, with emerging frontiers such as hybrid heterostructures, quantum materials, and bio-integrated systems charting the future roadmap.

Topics & Concepts

NanotechnologyThin filmMaterials scienceAtomic layer depositionMicroscale chemistryChemical vapor depositionDeposition (geology)Engineering physicsPhysical vapor depositionTransformative learningComputer scienceEmerging technologiesReliability (semiconductor)Field (mathematics)Vapour depositionDisruptive technologyClean energyKey (lock)Work (physics)Characterization (materials science)Energy resourcesEnergy (signal processing)Metalorganic vapour phase epitaxyInterface (matter)Electronic and Structural Properties of OxidesSemiconductor materials and devicesOptical Coatings and Gratings
Thin Films for Next Generation Technologies: A Comprehensive Review of Fundamentals, Growth, Deposition Strategies, Applications, and Emerging Frontiers | Litcius