Article
Chemistry, Multidisciplinary
Paolo Pellegrino, Isabella Farella, Mariafrancesca Cascione, Valeria De Matteis, Alessandro Paolo Bramanti, Antonio Della Torre, Fabio Quaranta, Rosaria Rinaldi
Summary: In recent years, Atomic Force Microscope (AFM)-based nanolithography techniques have become increasingly powerful. However, conventional methods are inefficient, have low pattern formation rates, and are complex to execute. In this study, we developed a simple and effective nanopatterning technique called Pulse-Atomic Force Lithography (P-AFL), which enabled us to pattern 2.5D nanogrooves on a thin polymer layer with sub-nanometre resolution, high accuracy, and reproducibility. We investigated the effects of P-AFL parameters on the morphology of 2.5D nanostructures and optimized the nanolithography process to achieve unconventional shape nanostructures with high accuracy and fidelity.
Editorial Material
Multidisciplinary Sciences
Telmo O. Paiva, Albertus Viljoen, Yves F. Dufrene
Summary: Advancements in atomic force microscopy (AFM) techniques and methodologies in microbiology have enhanced our understanding of microbial cell surfaces. Recent studies have shown that AFM imaging of cells and membranes at or near molecular resolution enables detailed visualization of membrane-drug interactions.
NATURE COMMUNICATIONS
(2022)
Article
Physics, Fluids & Plasmas
R. Mark Bradley, Patrick D. Shipman
Summary: In this study, the patterns created by scanning an atomic force microscope tip over a polymer surface were investigated using a mesoscopic model. The research discovered that the steady-state solution is only stable below a critical value, beyond which periodic stick-slip motion occurs.
Article
Chemistry, Physical
Xinran Zhang, Jiangang Guo, Weigao Zhao
Summary: The adhesion force between a single phenyl ring and monolayer graphene was measured and calculated through experimental and theoretical methods. The single-bond force played a key role in the desorption process and can be divided into two stages.
APPLIED SURFACE SCIENCE
(2021)
Article
Multidisciplinary Sciences
Izabela Zglobicka, Juergen Gluch, Zhongquan Liao, Stephan Werner, Peter Guttmann, Qiong Li, Piotr Bazarnik, Tomasz Plocinski, Andrzej Witkowski, Krzysztof J. Kurzydlowski
Summary: The diatom shell serves as a complex siliceous structure that demonstrates the process of digging into the third dimension using modern visualization techniques. This paper highlights the importance of a comprehensive multi-length scale approach to bio-structures/materials, utilizing state-of-the-art imaging techniques to gain deeper insights into their morphology. Using visible light, electron, and X-ray microscopy to image diatoms allows for a more comprehensive understanding of their frustules.
SCIENTIFIC REPORTS
(2021)
Article
Mechanics
Abbasali Abouei Mehrizi, Qiao Liu, Hao Wang
Summary: The extended thin-film region adjacent to the contact line plays a crucial role in heat transfer and wetting dynamics by enhancing heat transfer and influencing contact line morphology. The study focused on advancing contact line morphology induced by water vapor condensation at low rates. Results showed that the morphology of the liquid film in this process differs from nonvolatile cases, with a precursor nanofilm and nanodroplets detected beyond the contact line.
Article
Nanoscience & Nanotechnology
Keivan Asadi, Junghoon Yeom, Hanna Cho
Summary: Investigating internal resonance (IR) mechanisms in micro/nanoresonators reveals that intermodal coupling between second and third flexural modes in asymmetric structures provides an optimal condition for strong IR, with high energy transfer to the resonated mode. This study introduces design strategies that can be easily integrated into typical micro/nanoelectromechanical systems, offering potential for paradigm-shifting applications in micro/nanosystems.
MICROSYSTEMS & NANOENGINEERING
(2021)
Article
Chemistry, Analytical
Xinyu Li, Li Zhao, Rongrong Feng, Xiaowei Du, Zelin Guo, Yu Meng, Yulan Zou, Wenchao Liao, Qiyuan Liu, Yaohuan Sheng, Gaowei Zhao, Haijian Zhong, Weidong Zhao
Summary: Using atomic force microscopy, it was found that Na(V)1.5 is irregularly distributed on the surfaces of both normal and cancer breast cells, with higher expression on cancer cells. The stability of the Na(V)1.5-antibody complex is higher on normal breast cells compared to cancer breast cells. These findings provide insights into the interactions of ion channel-antibody systems and the role of sodium channels in tumor metastasis and invasion.
ANALYTICAL METHODS
(2023)
Article
Physics, Applied
Shiquan Lin, Zhong Lin Wang
Summary: Inspired by TENG, scanning TENG is proposed for local surface charge density measurement using atomic force microscopy. The technique taps a conductive tip above a charged dielectric surface to induce an AC, with Fourier analysis showing a linear relation to surface charge density. Results demonstrate its power in probing nanoscale charge transfer in contact-electrification.
APPLIED PHYSICS LETTERS
(2021)
Article
Chemistry, Physical
Michal Bodik, Michaela Sojkova, Martin Hulman, Milan Tapajna, Martin Truchly, Karol Vegso, Matej Jergel, Eva Majkova, Marianna Spankova, Peter Siffalovic
Summary: The tribological properties of MoS2 films can be optimized by adjusting the crystallographic orientation, leading to different friction behaviors. Horizontally oriented MoS2 sheets exhibit a lower coefficient of friction compared to vertically oriented sheets.
APPLIED SURFACE SCIENCE
(2021)
Article
Chemistry, Analytical
Paolo Pellegrino, Isabella Farella, Mariafrancesca Cascione, Valeria De Matteis, Alessandro Paolo Bramanti, Lorenzo Vincenti, Antonio Della Torre, Fabio Quaranta, Rosaria Rinaldi
Summary: In recent years, mechanical tip-based nanolithography technique has been developed to meet the growing demand for nanostructures. However, the resulting pile-ups of nanostructures limit their use and integration. This study characterizes the structure of pile-ups at the edges of nanogrooves and proposes an effective strategy to remove them.
Article
Chemistry, Analytical
Luke Oduor Otieno, Bernard Ouma Alunda, Jaehyun Kim, Yong Joong Lee
Summary: Improving the imaging rate of a high-speed atomic force microscope requires specialized hardware and software, with ongoing efforts to enhance general applications. A compact HS-AFM scan-head design with minimal Z-scanner loading is presented in this study as an efficient solution for faster imaging.
Article
Chemistry, Multidisciplinary
Emilie Gachon, Patrick Mesquida
Summary: Collagen fibrils exhibit a surface charge dependency on longitudinal strain, becoming more positive within 10% strain and more negative between 10% to 17% strain. This change is correlated with fibril stiffness and may be influenced by structural rearrangements. Kelvin-probe force microscopy testing on fibrils attached to an extensible, thin polymer film allows for the determination of electrical surface potential.
Article
Chemistry, Physical
Miles F. Beaux, Reuben J. Peterson, Igor O. Usov
Summary: Atomic force microscopy was used to map the topography and qualitative mechanical characteristics of gallium-stabilized delta-phase plutonium coupons. The initial rough and heterogeneous surface of plutonium was observed, along with distinct striation patterns in qualitative nanomechanical mapping. Investigation suggested that the striations were not measurement artifacts or plutonium-specific features, and were influenced by mechanical working of the surface.
SURFACES AND INTERFACES
(2021)
Article
Physics, Applied
Gwangmook Kim, YoungJun Cho, Min-Kyun Cho, Dohun Kim, Wooyoung Shim
Summary: Cantilever-free scanning probe microscopy has potential for high-throughput topography imaging. However, the current imaging mechanism lacks efficiency in detection precision and bandwidth, limiting the application of this measurement system. We present a contact resistance-based imaging system using RF reflectometry, achieving sub-micrometer-scale topography imaging with a resolution of 230 nm and a bandwidth of approximately 8.5 MHz.
JOURNAL OF APPLIED PHYSICS
(2023)