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Year : 2024 | Volume : | : | Page : –

Dr. Hari Shankar Biswas,

Amit Kumar Kundu,

Shib Shankar Biswas,

Assistant Professor, Department of Chemistry, Surendranath College, 24/2, M. G. Road, Kolkata, India
Assistant Professor, Department of Chemistry, Sripat Singh College, Jiaganj, Murshidabad, India
Assistant Professor, Department of Physics, Surendranath College, 24/2, M. G. Road, Kolkata, India

Abstract document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_abs_127070’);});Edit Abstract & Keyword

Materials synthesis and processing are pivotal in advancing technologies across domains such as electronics and biomedical applications. This review provides a detailed exploration of recent advancements in thin film deposition techniques, focusing on hydrogenated diamond-like carbon (HDLC) films and various surface modification methodologies. Beginning with an overview of HDLC films, the paper highlights their unique properties and wide-ranging applications, emphasizing their importance in modern materials science. Key sections of the review examine different HDLC film deposition methods, particularly chemical vapor deposition (CVD) and physical vapor deposition (PVD). Additionally, the paper delves into surface modification techniques, including plasma treatment, ion implantation, and laser processing, offering insights into their mechanisms and potential uses. By integrating theoretical concepts with practical applications, this review aims to provide researchers and engineers with a comprehensive understanding of advanced materials synthesis and processing techniques. The synthesis of HDLC films and the application of surface modifications are discussed in detail, demonstrating their impact on enhancing material performance. This paper serves as a valuable resource by encapsulating recent developments and methodologies in thin film deposition and surface modification, fostering innovation, and paving the way for transformative applications across various scientific and technological fields. Through this synthesis of knowledge, the review contributes to ongoing advancements in materials science and engineering, supporting the development of future technologies.

Keywords: HDLC, Thin Film, Surface modification, CVD, PVD

How to cite this article:
Dr. Hari Shankar Biswas, Amit Kumar Kundu, Shib Shankar Biswas. Advancements in Hydrogenated Diamond-Like Carbon Thin Film Deposition & Surface Modification. Journal of Polymer and Composites. 2024; ():-.

How to cite this URL:
Dr. Hari Shankar Biswas, Amit Kumar Kundu, Shib Shankar Biswas. Advancements in Hydrogenated Diamond-Like Carbon Thin Film Deposition & Surface Modification. Journal of Polymer and Composites. 2024; ():-. Available from: https://journals.stmjournals.com/jopc/article=2024/view=0

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References
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1. Muneer N. Emerging Materials and Technologies for the Next Generation of Engineering Solutions. Liberal Journal of Language and Literature Review. 2023 Dec 31;1(01):39-46. 2. Jadhav AC, Annaldewar BN, Jadhav NC. 2 A current perspective on nanocomposite and nanohybrid material: Developments and trends. Nanocomposite and Nanohybrid Materials: Processing and Applications. 2023 Nov 6;17:29-54. 3. Sadiku MN, Ajayi-Majebi AJ, Adebo PO. Emerging technologies in manufacturing. Springer; 2023 Mar 15. 4. Bouiti K, Labjar N, Benmessaoud M, Chraka A, Omari M, Jebbari S, Nasrellah H, El Hajjaji S. Nano-hybrid Smart Coatings: Advancements in Self-Healing and Responsive Functionalities. InNano-hybrid Smart Coatings: Advancements in Industrial Efficiency and Corrosion Resistance 2024 (pp. 279-302). American Chemical Society. 5. Biswas HS, Datta J, Mandal P, Poddar S, Kundu AK, Saha I. Optimized study of theannealing effect on the electrical and structural properties of HDLC thin-films. RSC advances. 2022;12(46):29805-12.

Ahead of Print Open Access Original Research

Journal of Polymer and Composites

ISSN: 2321–2810

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Received	31/08/2024
Accepted	23/10/2024
Published	09/12/2024

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Advancements in Hydrogenated Diamond-Like Carbon Thin Film Deposition & Surface Modification