📢 New CiteScore Received! We are pleased to inform you that Nanomaterials has received an updated CiteScore of 8.5, an increase of about 15% compared with the 2022 metric. NANOMATERIALS’s CiteScore ranks as follows: Q1 (44 out of 273) in "General Chemical Engineering" Q1 (93 out of 463) in "General Materials Science" 🔗 For more journal statistics, please visit https://lnkd.in/euRwvhv6. ❤️ This is a reflection of the excellent performance, support, and dedication of all journal editors, reviewers, authors, and readers. We would like to take this opportunity to thank all of you who have contributed to the journal.
Nanomaterials MDPI
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Nanomaterials (IF 4.4) is an international open access journal covering all aspects of #nano published online by MDPI.
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Nanomaterials (ISSN 2079-4991) is an international and interdisciplinary scholarly open access journal. It publishes reviews, regular research papers, communications, and short notes that are relevant to any field of study that involves nanomaterials, with respect to their science and application. Thus, theoretical and experimental articles will be accepted, along with articles that deal with the synthesis and use of nanomaterials. Articles that synthesize information from multiple fields, and which place discoveries within a broader context, will be preferred. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental or methodical details, or both, must be provided for research articles. Computed data or files regarding the full details of the experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material. Nanomaterials is dedicated to a high scientific standard. All manuscripts undergo a rigorous reviewing process and decisions are based on the recommendations of independent reviewers.
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Nanomaterials MDPI hat dies direkt geteilt
Nanocomposite (NC) hydrogels have been widely studied for tissue engineering and #Biomedical applications 👩🔬👨🔬 Now, using Human Primary Dermal Fibroblast cells from ATCC, researchers at Universität Münster have made strides in this important area! Read about the team's 3D-printable oxygen and drug-carrying NC hydrogels for enhanced cell viability in Nanomaterials MDPI: https://okt.to/6hegHp #JournalClub
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🌟 Highly Cited Paper Spotlight! 🌟 Effects of Solvent and Electrospinning Parameters on the Morphology and Piezoelectric Properties of PVDF Nanofibrous Membrane By Jia-Yi Yin, Carlo Boaretti, Alessandra Lorenzetti, Alessandro Martucci, Martina Roso and Michele Modesti 🔑 Key Highlights: - Enhanced Properties: Use solvents and electrospinning parameters to improve piezoelectric properties. - High Crystallinity: Membranes achieved over 48% crystallinity and 80% β-phase fraction. - Low-Toxicity Solvent: Use DMSO for optimal membrane morphology and functionality. Access the full paper at: mdpi.com/1541924
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🌟 Highly Cited Paper Spotlight! 🌟 Graphene Oxide Thin Films with Drug Delivery Function By Alexandra M. L. Oliveira et al. 🔑 Key Highlights: - Leveraging its unique physical and chemical properties, graphene oxide is explored for its potential in controlled drug release. - The review emphasizes the biocompatibility of graphene oxide, making it a prime candidate for biomedical applications. - From in vitro to in vivo assays, this paper covers the extensive research on graphene oxide films in biomedical devices. Access the full paper at: mdpi.com/1566650
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🌟 Highly Cited Paper Spotlight! 🌟 Silver and Copper Nanoparticles Induce Oxidative Stress in Bacteria and Mammalian Cells By Thelma Ameh, Matthew Gibb, Ph.D., Dinny Stevens, Sahar Pradhan, Evan Braswell and Christie M. Sayes This study explores the antibacterial properties of silver and copper nanoparticles (AgNPs and CuNPs). 🔑 Key Findings: - AgNPs and CuNPs, especially when coated with stabilizing moieties, effectively induce oxidative stress in both bacteria and mammalian cells. - The nanoparticles exhibited varying levels of toxicity, with CuNPs inducing higher levels of reactive oxygen species than AgNPs. - These findings bridge the knowledge gap in differential toxicities of these nanoparticles, paving the way for improved biomedical interventions. Access the full paper at: mdpi.com/1724814 #Nanoparticles #Biomedical #OxidativeStress #Antibacterial
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🌟 Highly Cited Paper Spotlight! 🌟 The Impact of Fine Particulate Matter 2.5 on the Cardiovascular System: A Review of the Invisible Killer By Shaherin Basith et al. This study delves into the severe effects of PM2.5 on cardiovascular health, revealing its role in increasing the risk of heart disease and premature death. By summarizing global data and mechanistic insights, the authors highlight the urgent need for preventive measures against this "invisible killer." 🔑 Key Findings: - PM2.5 exposure links to acute and chronic cardiovascular conditions. - Detailed mechanisms of how PM2.5 affects heart health. - Strategies for mitigating the adverse effects of air pollution. Access the full paper at: mdpi.com/1757124 #CardiovascularHealth #AirPollution #Research #PublicHealth #Nanomaterials
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✨ Today is the day! Join our Webinar: X-ray Absorption Spectroscopy for the Characterization of Nanostructured Materials Register for free at: https://brnw.ch/21wLkTc We will start at 2:00 pm CEST | 8:00 am EDT | 8:00 pm CST Asia
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This paper belongs to the Special Issue "Carbon Nanostructures as Promising Future Materials: 2nd Edition", edited by Prof. Dr. Marcel Popa and Prof. Dr. Leonard Ionut Atanase. We invite you to submit your work for consideration before 30 September 2024. For more information, visit: mdpi.com/si/149448 #carbon #graphene #fullerene #nanotube
🔋 We are pleased to share a paper authored by Lok Shrestha and coworkers that explores the potential of nanoporous hollow carbon spheres for energy storage applications. 🌟 Key Highlights: - Synthesis Method: The team used a dynamic liquid-liquid interfacial precipitation (DLLIP) method followed by high-temperature carbonization to create high-surface-area carbon spheres from fullerene assemblies. - Performance: These carbon materials showed a specific capacitance of 293 F g⁻¹ and retained 96% capacitance after 10,000 charge/discharge cycles, indicating their potential use in high-performance supercapacitors. - Material Properties: The carbon spheres exhibited a specific surface area of up to 1616 m² g⁻¹ and a pore volume of 1.295 cm³ g⁻¹. ➡ Read the full paper here: mdpi.com/2176914 #fullerene #supercapacitor
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🔋 We are pleased to share a paper authored by Lok Shrestha and coworkers that explores the potential of nanoporous hollow carbon spheres for energy storage applications. 🌟 Key Highlights: - Synthesis Method: The team used a dynamic liquid-liquid interfacial precipitation (DLLIP) method followed by high-temperature carbonization to create high-surface-area carbon spheres from fullerene assemblies. - Performance: These carbon materials showed a specific capacitance of 293 F g⁻¹ and retained 96% capacitance after 10,000 charge/discharge cycles, indicating their potential use in high-performance supercapacitors. - Material Properties: The carbon spheres exhibited a specific surface area of up to 1616 m² g⁻¹ and a pore volume of 1.295 cm³ g⁻¹. ➡ Read the full paper here: mdpi.com/2176914 #fullerene #supercapacitor
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📣 Call for Reading Study on Microstructure and Tribological Mechanism of Mo Incorporated (AlCrTiZr)N High-Entropy Ceramics Coatings Prepared by Magnetron Sputtering 🔗 Read the full open access paper at: https://lnkd.in/eHJfSAYG
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