Optical Beam Deflection Based AFM with Integrated Hardware and Software Platform for an Undergraduate Engineering Laboratory

Loh, Siu Hong; Cheah, Wei Jie

doi:10.3390/app7030226

Cited by 7 publications

(3 citation statements)

References 24 publications

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“…imaging using transmission electron microscopes (TEM) at 4.5m€, scanning electron microscopes (SEM) at 2.4m€ and scanning probe microscopes like atomic force microscopes (AFM) and scanning tunneling microscopes (STM) at 0.7m€. Several research groups have developed their own AFM/STMs and thus a high-quality FOSH AFMs and STMs can be expected in the near term (Babu et al, 2014;Kang, 2015;Li et al, 2016;Loh et al, 2017;Open AFM, 2018). However, the development of both SEM and TEM technologies come with significant hurdles because of the complexity of the technologies and there is thus an opportunity for Finland to benefit from developing FOSH versions of these technologies.…”

Section: Resultsmentioning

confidence: 99%

Towards national policy for open source hardware research: The case of Finland

Heikkinen

Savin

Partanen

et al. 2020

Technological Forecasting and Social Change

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Section: Resultsmentioning

confidence: 99%

Towards national policy for open source hardware research: The case of Finland

Heikkinen

Savin

Partanen

et al. 2020

Technological Forecasting and Social Change

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“…13). The appearance of "elevations" or "depressions" under the tip leads to a change in the force acting on the probe, and hence to a change in the amount of cantilever bending [89].…”

Section: Atomic Force Microscopy (Afm)mentioning

confidence: 99%

Perspectives for the creation of a new type of vaccine preparations based on pseudovirus particles using polio vaccine as an example

Zhdanov,

Ivin,

Shishparenok

et al. 2023

BIOMED KHIM

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Traditional antiviral vaccines are currently created by inactivating the virus chemically, most often using formaldehyde or β-propiolactone. These approaches are not optimal since they negatively affect the safety of the antigenic determinants of the inactivated particles and require additional purification stages. The most promising platforms for creating vaccines are based on pseudoviruses, i.e., viruses that have completely preserved the outer shell (capsid), while losing the ability to reproduce owing to the destruction of the genome. The irradiation of viruses with electron beam is the optimal way to create pseudoviral particles. In this review, with the example of the poliovirus, the main algorithms that can be applied to characterize pseudoviral particles functionally and structurally in the process of creating a vaccine preparation are presented. These algorithms are, namely, the analysis of the degree of genome destruction and coimmunogenicity. The structure of the poliovirus and methods of its inactivation are considered. Methods for assessing residual infectivity and immunogenicity are proposed for the functional characterization of pseudoviruses. Genome integrity analysis approaches, atomic force and electron microscopy, surface plasmon resonance, and bioelectrochemical methods are crucial to structural characterization of the pseudovirus particles.

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“…Several projects have focused on building low-cost AFMs that can be used for hands-on nanotechnology educational purposes. Loh et al demonstrated an AFM costing $12,300 for undergraduate laboratories [40] . This AFM can achieve a scan rate of 0.14 lines/s (18 min/frame for 150 × 150 pixels), with lateral and vertical resolutions of up to 20 nm.…”

Section: Hardware In Contextmentioning

confidence: 99%