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1. Long-Term Aging Study of a Silicon Nitride Nanomechanical Resonator

Author

Stephan, Michel, Bouchard, Alexandre, Hodges, Timothy, Green, Richard G., Koukoulas, Triantafillos, Wu, Lixue, and St-Gelais, Raphael

Subjects
Condensed Matter - Materials Science
Abstract

Short-term changes in the resonance frequency of silicon nitride (SiN) nanomechanical resonators can be measured very precisely due to low thermomechanical fluctuations resulting from large mechanical quality factors. These properties enable high-performance detection of quasi-instantaneous stimuli, such as sudden exposure to radiation or adsorption of mass. However, practical use of such sensors will eventually raise questions regarding their less-studied longer-term stability, notably for calibration purposes. We characterize aging of an as-fabricated SiN membrane by continuously tracking changes of its resonance frequency over 135 days in a temperature-controlled high vacuum environment. The aging behavior is consistent with previously reported double-logarithmic and drift-reversal aging trends observed in quartz oscillators. The aging magnitude (300 ppm) is also comparable to typical temperature compensated quartz oscillators (TCXO), after normalization to account for the greater importance of interfaces in our thin (90 nm) resonator, compared to several microns thick TCXOs. Possible causes of aging due to surface adsorption are investigated. We review models on how water adsorption and desorption can cause significant frequency changes, predominantly due to chemisorption stress. Chemical species adsorbed on the resonator surface are also identified by X-ray photoelectron spectroscopy (XPS). These measurements show a significant increase in carbon every time the sample is placed under vacuum, while subsequent exposure to air causes an increase in oxidated carbon. Developing models for the contribution of carbon and oxygen to the membrane stress should therefore be an important future direction. Other contaminants, notably alkaline and halide ions, are detected in smaller quantities and briefly discussed.

Published
2024

2. Vibration Sensitivity of one-port and two-port MEMS microphones

Author

Doyon-D'Amour, Francis, Stalder, Carly, Hodges, Timothy, Stephan, Michel, Wu, Lixiue, Koukoulas, Triantafillos, Leahy, Stephane, and St-Gelais, Raphael

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

Micro-electro-mechanical system (MEMS) microphones (mics) with two acoustic ports are currently receiving considerable interest, with the promise of achieving higher directional sensitivity compared to traditional one-port architectures. However, measuring pressure differences in two-port microphones typically commands sensing elements that are softer than in one-port mics, and are therefore presumably more prone to interference from external vibration. Here we derive a universal expression for microphone sensitivity to vibration and we experimentally demonstrate its validity for several emerging two-port microphone technologies. We also perform vibration measurements on a one-port mic, thus providing a one-stop direct comparison between one-port and two-port sensing approaches. We find that the acoustically-referred vibration sensitivity of two-port MEMS mics, in units of measured acoustic pressure per external acceleration (i.e., Pascals per g), does not depend on the sensing element stiffness nor on its natural frequency. We also show that this vibration sensitivity in two-port mics is inversely proportional to frequency as opposed to the frequency independent behavior observed in one-port mics. This is confirmed experimentally for several types of microphone packages., Comment: 8 pages, 14 figures

Published
2024

4. Localized Thermal Gradients On-Chip by Radiative Cooling of Silicon Nitride Nanomechanical Resonators

Author

Bouchard, Alexandre, Hodges, Timothy, Stephan, Michel, Wu, Lixue, Koukoulas, Triantafillos, Green, Richard, and St-Gelais, Raphael

Subjects
Physics - Applied Physics
Abstract

Small scale renewable energy harvesting is an attractive solution to the growing need for power in remote technological applications. For this purpose, localized thermal gradients on-chip--created via radiative cooling--could be exploited to create microscale renewable heat engines running on environmental heat. This could allow self-powering in small scale portable applications, thus reducing the need for non-renewable sources of electricity and hazardous batteries. In this work, we demonstrate the creation of a local thermal gradient on-chip by radiative cooling of a 90 nm thick freestanding silicon nitride nanomechanical resonator integrated on a silicon substrate that remains at ambient temperature. The reduction in temperature of the thin film is inferred by tracking its mechanical resonance frequency, under high vacuum, using an optical fiber interferometer. Experiments were conducted on 15 different days during fall and summer months, resulting in successful radiative cooling of the membrane in each case. Maximum temperature drops of 9.3 K and 7.1 K are demonstrated during the day and night, respectively, in close correspondence with our heat transfer model. Future improvements to the experimental setup could improve the temperature reduction to 48 K for the same membrane, while emissivity engineering potentially yields a maximum theoretical cooling of 67 K with an ideal emitter., Comment: Submitted for publication in Nano Energy

Published
2022

5. Comparison of measurement systems for assessing number- and mass-based particle filtration efficiency

Author

Sipkens, Timothy A., Corbin, Joel C., Koukoulas, Triantafillos, Oldershaw, Andrew, Lavoie, Thierry, Oliaee, Jalal Norooz, Liu, Fengshan, Leroux, Ian D., Smallwood, Gregory J., Lobo, Prem, and Green, Richard G.

Subjects
Physics - Medical Physics, Physics - Applied Physics
Abstract

The particle filtration efficiency (PFE) of a respirator or face mask is one of its key properties. While the physics of particle filtration results in the PFE being size-dependent, measurement standards are specified using a single, integrated PFE, for simplicity. This integrated PFE is commonly defined with respect to either the number (NBFE) or mass (MBFE) distribution of particles as a function of size. This relationship is non-trivial; it is influenced by both the shape of the particle distribution and the fact that multiple practical definitions of particle size are used. This manuscript discusses the relationship between NBFE and MBFE in detail, providing a guide to practitioners. Our discussion begins with a theoretical discussion of the underlying principles. We then present experimental results for a database of size-resolved PFE (SPFE) measurements for over 900 candidate respirators and filter media, including filter media with systematically varied properties and commercial samples that span the 20%-99.8% MBFE. The observed relationships between NBFE and MBFE are discussed in terms of the most-penetrating particle size (MPPS) and charge state of the media. For the NaCl particles used here, we observed that MBFEs were greater than NBFEs for charged materials and vice versa for uncharged materials. This relationship is observed because a shift from NBFE to MBFE weights the distribution towards larger sizes, while charged materials shift the MPPS to smaller sizes. Results are validated by comparing the output of a pair of TSI 8130As, a common instrument used in gauging standards compliance, to that of MBFEs computed from a system capable of measuring SPFE., Comment: 20 pages, 6 figures

Published
2022

6. Systematic experimental comparison of particle filtration efficiency test methods for commercial respirators and face masks

Author

Corbin, Joel C., Smallwood, Greg J., Leroux, Ian, Oliaee, Jalal Norooz, Liu, Fengshan, Sipkens, Timothy A., Green, Richard G., Murnaghan, Nathan F., Koukoulas, Triantafillos, and Lobo, Prem

Subjects
Physics - Medical Physics, Physics - Data Analysis, Statistics and Probability
Abstract

Respirators, medical masks, and barrier face coverings all filter airborne particles using similar physical principles. However, they are tested for certification using a variety of standardized test methods, creating challenges for the comparison of differently certified products. We have performed systematic experiments to quantify and understand the differences between standardized test methods for N95 respirators (NIOSH TEB-APR-STP-0059 under US 42 CFR 84), medical face masks (ASTM F2299/F2100), and COVID-19-related barrier face coverings (ASTM F3502-21). Our experiments demonstrate the role of face velocity, particle properties (mean size, size variability, electric charge, density, and shape), measurement techniques, and environmental preconditioning. The measured filtration efficiency was most sensitive to changes in face velocity and particle charge. Relative to the NIOSH method, users of the ASTM F2299/F2100 method have commonly used non-neutralized (highly charged) aerosols as well as smaller face velocities, each of which may result in approximately 10% higher measured filtration efficiencies. In the NIOSH method, environmental conditioning at elevated humidity increased filtration efficiency in some commercial samples while decreasing it in others, indicating that measurement should be performed both with and without conditioning. More generally, our results provide an experimental basis for the comparison of respirators certified under various international methods, including FFP2, KN95, P2, Korea 1st Class, and DS2., Comment: 34 pages, 8 figures, 3 tables

Published
2021
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7. On clustering uncertain and structured data with Wasserstein barycenters and a geodesic criterion for the number of clusters

Author

Papayiannis, G. I., Domazakis, G. N., Drivaliaris, D., Koukoulas, S., Tsekrekos, A. E., and Yannacopoulos, A. N.

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Statistics - Applications
Abstract

In this work clustering schemes for uncertain and structured data are considered relying on the notion of Wasserstein barycenters, accompanied by appropriate clustering indices based on the intrinsic geometry of the Wasserstein space where the clustering task is performed. Such type of clustering approaches are highly appreciated in many fields where the observational/experimental error is significant (e.g. astronomy, biology, remote sensing, etc.) or the data nature is more complex and the traditional learning algorithms are not applicable or effective to treat them (e.g. network data, interval data, high frequency records, matrix data, etc.). Under this perspective, each observation is identified by an appropriate probability measure and the proposed clustering schemes rely on discrimination criteria that utilize the geometric structure of the space of probability measures through core techniques from the optimal transport theory. The advantages and capabilities of the proposed approach and the geodesic criterion performance are illustrated through a simulation study and the implementation in two real world applications: (a) clustering eurozone countries according to their observed government bond yield curves and (b) classifying the areas of a satellite image to certain land uses categories, a standard task in remote sensing., Comment: 23 pages, 7 figures

Published
2019
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9. A Network of Sites and Upskilled Therapists to Deliver Best-Practice Stroke Rehabilitation of the Arm: Protocol for a Knowledge Translation Study

Author

Leeanne M. Carey, Liana S. Cahill, Jannette M. Blennerhassett, Michael Nilsson, Natasha A. Lannin, Vincent Thijs, Susan Hillier, Dominique A. Cadilhac, Geoffrey A. Donnan, Meg E. Morris, Leonid Churilov, Marion Walker, Shanthi Ramanathan, Michael Pollack, Esther May, Geoffrey C. Cloud, Sharon McGowan, Tissa Wijeratne, Marc Budge, Fiona McKinnon, John Olver, Toni Hogg, Michael Murray, Brendon Haslam, Irene Koukoulas, Brittni Nielsen, Yvonne Mak-Yuen, Megan Turville, Cheryl Neilson, Anna Butler, Joosup Kim, and Thomas A. Matyas

Subjects
stroke, implementation science, neurological rehabilitation, stroke rehabilitation, somatosensory, healthcare services, Medicine
Abstract

Implementation of evidence-informed rehabilitation of the upper limb is variable, and outcomes for stroke survivors are often suboptimal. We established a national partnership of clinicians, survivors of stroke, researchers, healthcare organizations, and policy makers to facilitate change. The objectives of this study are to increase access to best-evidence rehabilitation of the upper limb and improve outcomes for stroke survivors. This prospective pragmatic, knowledge translation study involves four new specialist therapy centers to deliver best-evidence upper-limb sensory rehabilitation (known as SENSe therapy) for survivors of stroke in the community. A knowledge-transfer intervention will be used to upskill therapists and guide implementation. Specialist centers will deliver SENSe therapy, an effective and recommended therapy, to stroke survivors in the community. Outcomes include number of successful deliveries of SENSe therapy by credentialled therapists; improved somatosensory function for stroke survivors; improved performance in self-selected activities, arm use, and quality of life; treatment fidelity and confidence to deliver therapy; and for future implementation, expert therapist effect and cost-effectiveness. In summary, we will determine the effect of a national partnership to increase access to evidence-based upper-limb sensory rehabilitation following stroke. If effective, this knowledge-transfer intervention could be used to optimize the delivery of other complex, evidence-based rehabilitation interventions.

Published
2023
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11. ERK signaling controls productive HIF‐1 binding to chromatin and cancer cell adaptation to hypoxia through HIF‐1α interaction with NPM1

Author

Kreon Koukoulas, Antonis Giakountis, Angeliki Karagiota, Martina Samiotaki, George Panayotou, George Simos, and Ilias Mylonis

Subjects
cancer, HIF, hypoxia, NPM1, nucleophosmin, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

The hypoxia‐inducible factor HIF‐1 is essential for oxygen homeostasis. Despite its well‐understood oxygen‐dependent expression, regulation of its transcriptional activity remains unclear. We show that phosphorylation by extracellular signal‐regulated kinases1/2 (ERK1/2), in addition to promoting HIF‐1α nuclear accumulation, also enhances its interaction with chromatin and stimulates direct binding to nucleophosmin (NPM1), a histone chaperone and chromatin remodeler. NPM1 is required for phosphorylation‐dependent recruitment of HIF‐1 to hypoxia response elements, its interaction with acetylated histones, and high expression of HIF‐1 target genes under hypoxia. Transcriptome analysis revealed a significant number of hypoxia‐related genes commonly regulated by NPM1 and HIF‐1. These NPM1/HIF‐1α co‐upregulated genes are enriched in three different cancer types, and their expression correlates with hypoxic tumor status and worse patient prognosis. In concert, silencing of NPM1 expression or disruption of its association with HIF‐1α inhibits metabolic adaptation of cancer cells and triggers apoptotic death upon hypoxia. We suggest that ERK‐mediated phosphorylation of HIF‐1α regulates its physical interaction with NPM1, which is essential for the productive association of HIF‐1 with hypoxia target genes and their optimal transcriptional activation, required for survival under low oxygen or tumor growth.

Published
2021
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13. Systematic experimental comparison of particle filtration efficiency test methods for commercial respirators and face masks

Author

Joel C. Corbin, Greg J. Smallwood, Ian D. Leroux, Jalal Norooz Oliaee, Fengshan Liu, Timothy A. Sipkens, Richard G. Green, Nathan F. Murnaghan, Triantafillos Koukoulas, and Prem Lobo

Subjects
Medicine, Science
Abstract

Abstract Respirators, medical masks, and barrier face coverings all filter airborne particles using similar physical principles. However, they are tested for certification using a variety of standardized test methods, creating challenges for the comparison of differently certified products. We have performed systematic experiments to quantify and understand the differences between standardized test methods for N95 respirators (NIOSH TEB-APR-STP-0059 under US 42 CFR 84), medical face masks (ASTM F2299/F2100), and COVID-19-related barrier face coverings (ASTM F3502-21). Our experiments demonstrate the role of face velocity, particle properties (mean size, size variability, electric charge, density, and shape), measurement techniques, and environmental preconditioning. The measured filtration efficiency was most sensitive to changes in face velocity and particle charge. Relative to the NIOSH method, users of the ASTM F2299/F2100 method have commonly used non-neutralized (highly charged) aerosols as well as smaller face velocities, each of which may result in approximately 10% higher measured filtration efficiencies. In the NIOSH method, environmental conditioning at elevated humidity increased filtration efficiency in some commercial samples while decreasing it in others, indicating that measurement should be performed both with and without conditioning. More generally, our results provide an experimental basis for the comparison of respirators certified under various international methods, including FFP2, KN95, P2, Korea 1st Class, and DS2.

Published
2021
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14. Contributors

Author

Anand, S.C., primary, Bhat, G.S., additional, Brunnschweiler, D., additional, Brydon, A.G., additional, Chapman, R.A., additional, Gharaei, R., additional, Goswami, P., additional, Islam, S., additional, Kilic, A., additional, Koukoulas, A.A., additional, Malkan, S.R., additional, Mao, N., additional, Molinari, M., additional, Pourdeyhimi, B., additional, Pourmohammadi, A., additional, Rana, S., additional, Russell, S.J., additional, Stojanovska, E., additional, Swarbrick, G., additional, Tipper, M.J., additional, Tronci, G., additional, Ward, R., additional, and Wilson, A., additional

Published
2022
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16. An IoT-Based Participatory Antitheft System for Public Safety Enhancement in Smart Cities

Author

Nikos Papadakis, Nikos Koukoulas, Ioannis Christakis, Ilias Stavrakas, and Dionisis Kandris

Subjects
IoT, smart cities, public safety, social welfare and innovation, antitheft systems, Bluetooth Low Energy, Engineering (General). Civil engineering (General), TA1-2040
Abstract

The risk of theft of goods is certainly an important source of negative influence in human psychology. This article focuses on the development of a scheme that, despite its low cost, acts as a smart antitheft system that achieves small property detection. Specifically, an Internet of Things (IoT)-based participatory platform was developed in order to allow asset-tracking tasks to be crowd-sourced to a community. Stolen objects are traced by using a prototype Bluetooth Low Energy (BLE)-based system, which sends signals, thus becoming a beacon. Once such an item (e.g., a bicycle) is stolen, the owner informs the authorities, which, in turn, broadcast an alert signal to activate the BLE sensor. To trace the asset with the antitheft tag, participants use their GPS-enabled smart phones to scan BLE tags through a specific smartphone client application and report the location of the asset to an operation center so that owners can locate their assets. A stolen item tracking simulator was created to support and optimize the aforementioned tracking process and to produce the best possible outcome, evaluating the impact of different parameters and strategies regarding the selection of how many and which users to activate when searching for a stolen item within a given area.

Published
2021
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17. Diversity of Giant Viruses Infecting Vermamoeba vermiformis

Author

Khalil Geballa-Koukoulas, Bernard La Scola, Guillaume Blanc, and Julien Andreani

Subjects
Vermamoeba vermiformis, kaumoebavirus, faustovirus, tupanvirus, yasminevirus, orpheovirus, Microbiology, QR1-502
Abstract

The discovery of Acanthamoeba polyphaga mimivirus in 2003 using the free-living amoeba Acanthamoeba polyphaga caused a paradigm shift in the virology field. Twelve years later, using another amoeba as a host, i.e., Vermamoeba vermiformis, novel isolates of giant viruses have been discovered. This amoeba–virus relationship led scientists to study the evolution of giant viruses and explore the origins of eukaryotes. The purpose of this article is to review all the giant viruses that have been isolated from Vermamoeba vermiformis, compare their genomic features, and report the influence of these viruses on the cell cycle of their amoebal host. To date, viruses putatively belonging to eight different viral taxa have been described: 7 are lytic and 1 is non-lytic. The comparison of giant viruses infecting Vermamoeba vermiformis has suggested three homogenous groups according to their size, the replication time inside the host cell, and the number of encoding tRNAs. This approach is an attempt at determining the evolutionary origins and trajectories of the virus; therefore, more giant viruses infecting Vermamoeba must be discovered and studied to create a comprehensive knowledge on these intriguing biological entities.

Published
2022
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25. Hepcidin as a Sensitive and Treatment-Responsive Acute-Phase Marker in Patients with Bacteremia: A Pilot Study

Author

Kreon Koukoulas, Vasiliki Lygoura, Philip Kartalidis, Nikolaos K. Gatselis, Efthymia Petinaki, George N. Dalekos, and George Simos

Subjects
hepcidin, bacteremia, ferritin, CRP, acute phase marker, Medicine (General), R5-920
Abstract

Hepcidin regulates iron metabolism by inhibiting intestinal iron absorption and iron release from iron stores. In addition to iron overload, inflammatory conditions also up-regulate hepcidin synthesis, which may serve as an antimicrobial defense by reducing iron availability to the invading microbes. The purpose of this study is to test this hypothesis in human patients by determining serum hepcidin concentration by enzyme linked immunosorbent assay (ELISA) in healthy blood donors (n = 60) and patients hospitalized because of bacteremia (n = 50), before (day 0) and after seven days (day 7) of appropriate antibiotic treatment. Serum hepcidin was significantly increased in patients with bacteremia, both at day 0 and at day 7, compared to healthy controls. However, there was significant reduction of serum hepcidin after 7-day treatment, in concert with changes in serum C-reactive protein (CRP). The hepcidin changes were similar for both Gram-negative and Gram-positive single infection cases, while CRP was significantly reduced only in the former. In contrast to hepcidin, the levels of serum ferritin in the patients remained high after treatment, irrespective of infection type. These data confirm the stimulation of hepcidin secretion in human subjects upon different types of systemic microbial infection and suggest that hepcidin is a more sensitive and treatment-responsive acute-phase marker than ferritin in bacteremia, which needs to be explored with bigger-sized and better-matched patient cohorts.

Published
2022
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29. Daedalus: An ICT Tool for Employment within the Mediterranean Basin Region

Author

Salichos, P., Polemi, D., Douligeris, C., Qusa, H., Elhallaq, Y., Koukoulas, G., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Dwivedi, Yogesh K., editor, Mäntymäki, Matti, editor, Ravishankar, M.N., editor, Janssen, Marijn, editor, Clement, Marc, editor, Slade, Emma L., editor, Rana, Nripendra P., editor, Al-Sharhan, Salah, editor, and Simintiras, Antonis C., editor

Published
2016
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35. A Network of Sites and Upskilled Therapists to Deliver Best-Practice Stroke Rehabilitation of the Arm: Protocol for a Knowledge Translation Study

Author

Carey, LM, Cahill, LS, Blennerhassett, JM, Nilsson, M, Lannin, NA, Thijs, V, Hillier, S, Cadilhac, DA, Donnan, GA, Morris, ME, Churilov, L, Walker, M, Ramanathan, S, Pollack, M, May, E, Cloud, GC, McGowan, S, Wijeratne, T, Budge, M, McKinnon, F, Olver, J, Hogg, T, Murray, M, Haslam, B, Koukoulas, I, Nielsen, B, Mak-Yuen, Y, Turville, M, Neilson, C, Butler, A, Kim, J, Matyas, TA, Carey, LM, Cahill, LS, Blennerhassett, JM, Nilsson, M, Lannin, NA, Thijs, V, Hillier, S, Cadilhac, DA, Donnan, GA, Morris, ME, Churilov, L, Walker, M, Ramanathan, S, Pollack, M, May, E, Cloud, GC, McGowan, S, Wijeratne, T, Budge, M, McKinnon, F, Olver, J, Hogg, T, Murray, M, Haslam, B, Koukoulas, I, Nielsen, B, Mak-Yuen, Y, Turville, M, Neilson, C, Butler, A, Kim, J, and Matyas, TA

Abstract

Implementation of evidence-informed rehabilitation of the upper limb is variable, and outcomes for stroke survivors are often suboptimal. We established a national partnership of clinicians, survivors of stroke, researchers, healthcare organizations, and policy makers to facilitate change. The objectives of this study are to increase access to best-evidence rehabilitation of the upper limb and improve outcomes for stroke survivors. This prospective pragmatic, knowledge translation study involves four new specialist therapy centers to deliver best-evidence upper-limb sensory rehabilitation (known as SENSe therapy) for survivors of stroke in the community. A knowledge-transfer intervention will be used to upskill therapists and guide implementation. Specialist centers will deliver SENSe therapy, an effective and recommended therapy, to stroke survivors in the community. Outcomes include number of successful deliveries of SENSe therapy by credentialled therapists; improved somatosensory function for stroke survivors; improved performance in self-selected activities, arm use, and quality of life; treatment fidelity and confidence to deliver therapy; and for future implementation, expert therapist effect and cost-effectiveness. In summary, we will determine the effect of a national partnership to increase access to evidence-based upper-limb sensory rehabilitation following stroke. If effective, this knowledge-transfer intervention could be used to optimize the delivery of other complex, evidence-based rehabilitation interventions.

Published
2023

38. Thermal gradients integrated on-chip by passive radiative cooling of silicon nitride nanomechanical resonators

Author

Alexandre Bouchard, Timothy Hodges, Michel Stephan, Lixue Wu, Triantafillos Koukoulas, Richard G. Green, and Raphael St-Gelais

Subjects
silicon nitride, Energy Engineering and Power Technology, radiative cooling, thermal gradient, nanomechanical resonator, Industrial and Manufacturing Engineering
Abstract

Radiative coupling of objects with outer space, through the atmospheric spectral transparency window, allows passive cooling below ambient temperature. Such passively created cold sinks can be used for converting ambient heat into other useful forms of energy. Using this approach, conversion of ambient heat to electricity has been demonstrated in macroscopic settings, where the radiatively cooled heat sink is a macroscopic object coupled with ambient heat through a heterogeneously attached, standalone, thermoelectric generator. In contrast, miniaturization and on-chip integration of such heat engines has not been demonstrated, although it could be useful in portable remote technological applications. Such integration would first require that both the radiatively cooled heat sink and the hot (ambient temperature) side of the engine are monolithically integrated on a single chip. This first step is the focus of our work: we demonstrate the creation of a local thermal gradient on-chip by radiative cooling of a 90 nm thick freestanding silicon nitride nanomechanical resonator integrated on a silicon substrate that remains at ambient temperature. The reduction in temperature of the thin film is inferred by tracking its mechanical resonance frequency, under high vacuum, using an optical fiber interferometer. Experiments were conducted on 15 different days during fall and summer months, under various solar illumination, resulting in successful radiative cooling of the membrane in each case. Maximum temperature drops of 9.3 K and 7.1 K are demonstrated during the day and night, respectively, in close correspondence with our heat transfer model. Future improvements to the experimental setup could improve the temperature reduction to 48 K for the same membrane, while emissivity engineering potentially yields a maximum theoretical cooling of 67 K with an ideal emitter.

Published
2023

41. The Kaumoebavirus LCC10 Genome Reveals a Unique Gene Strand Bias among 'Extended Asfarviridae'

Author

Khalil Geballa-Koukoulas, Julien Andreani, Bernard La Scola, and Guillaume Blanc

Subjects
Kaumoebavirus, nucleo-cytoplasmic large DNA virus, Nucleocytoviricota, extended Asfarviridae, Vermamoeba vermiformis, gene strand bias, Microbiology, QR1-502
Abstract

Kaumoebavirus infects the amoeba Vermamoeba vermiformis and has recently been described as a distant relative of the African swine fever virus. To characterize the diversity and evolution of this novel viral genus, we report here on the isolation and genome sequencing of a second strain of Kaumoebavirus, namely LCC10. Detailed analysis of the sequencing data suggested that its 362-Kb genome is linear with covalently closed hairpin termini, so that DNA forms a single continuous polynucleotide chain. Comparative genomic analysis indicated that although the two sequenced Kaumoebavirus strains share extensive gene collinearity, 180 predicted genes were either gained or lost in only one genome. As already observed in another distant relative, i.e., Faustovirus, which infects the same host, the center and extremities of the Kaumoebavirus genome exhibited a higher rate of sequence divergence and the major capsid protein gene was colonized by type-I introns. A possible role of the Vermamoeba host in the genesis of these evolutionary traits is hypothesized. The Kaumoebavirus genome exhibited a significant gene strand bias over the two-third of genome length, a feature not seen in the other members of the “extended Asfarviridae” clade. We suggest that this gene strand bias was induced by a putative single origin of DNA replication located near the genome extremity that imparted a selective force favoring the genes positioned on the leading strand.

Published
2021
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42. Laser-induced ultrasonic measurements for the detection and reconstruction of surface defects

Author

Qian Feiming, Xing Guangzhen, Yang Ping, Hu Pengcheng, Zou Limin, and Koukoulas Triantafillos

Subjects
laser-induced ultrasound, surface defects detection, full matrix capture, total focusing method, Acoustics in engineering. Acoustical engineering, TA365-367, Acoustics. Sound, QC221-246
Abstract

Laser-induced ultrasonic measurement is a non-contact non-destructive technology that can be employed for the testing and assessment of surface defects. In order to improve the correct identification of defects, the full matrix capture (FMC) and total focusing method (TFM) are applied on the imaging process. FMC data includes A-scans resulting from the combination of all measurement axes defined by the sequential generation and detection of utilized laser beams in the system. In this paper, an aluminium block with four holes whose diameters range from 1 mm to 2.5 mm is assessed through B-scans, the synthetic aperture focusing technique (SAFT) and FMC/TFM. The results demonstrate that the FMC/TFM technology can significantly improve the imaging quality and signal-to-noise ratio (SNR). In addition, this method has higher lateral resolution and larger imaging range compared with traditional B-scans.

Published
2021
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43. Can Microbially Derived Advanced Biofuels Ever Compete with Conventional Bioethanol? A Critical Review

Author

Seena Illath Veettil, Linoj Kumar, and Alexander A. Koukoulas

Subjects
Biochemicals, Bioethanol, Biofuels, Fermentation, Biobutanol, Lignocellulosics, Biotechnology, TP248.13-248.65
Abstract

Microbially derived alkanes and their derivatives are recognized as promising alternatives to petroleum-based fuels and chemicals. We review recent developments in their production, assess progress, and their potential against conventional bioethanol fermentation pathways. The success rate of genetic engineering efforts and their commercialization prospects are assessed, as well as challenges for producing fuels and chemicals from lignocellulosic biomass. Although significant progress has been made in the genetic engineering of microbes used in the production of long-chain hydrocarbons and their derivatives, titer and yield of these biomolecules are currently too low to compete with petroleum-derived products. As for microbially derived isoprenoids or fatty acids, the inherent complexity of micro-organism development will continue to present formidable challenges, making it highly unlikely of any short-term commercial take off. Nonetheless, first generation bioethanol (starch/sugar based) production is commercially established and therefore continued advancements in chemical synthesis should enable broad-scale use of bio-ethanol as a chemical feedstock for the production of advanced biofuels including butanol and other long-chain hydrocarbons.

Published
2016
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45. Wet-Laid Nonwovens Manufacture – Chemical Approaches Using Synthetic and Cellulosic Fibers

Author

Martin A. Hubbe and Alexander A. Koukoulas

Subjects
Chopped synthetic fibers, Staple fibers, Dispersion, Colloidal stability, Entanglement, Cellulosic fibers, Product performance, Uniformity of formation, Biotechnology, TP248.13-248.65
Abstract

Wet-laid forming, which can be regarded as being analogous to conventional papermaking processes but with use of chopped synthetic or staple fibers, continues to draw attention as an advantageous way to prepare advanced nonwoven textile products. This review of the literature considers scientific advances in the field, with emphasis placed on applications involving cellulosic fibers as a significant component of the product. Some primary challenges with respect to wet-laid processing concern the dispersion of the synthetic fibers in aqueous media and methods for avoiding their subsequent entanglement. Both mechanical and chemical strategies have been employed in order to achieve well-formed sheets of high uniformity and binding among the fibers to meet a variety of end-use specifications. The incorporation of cellulosic fibers has been shown to facilitate fiber dispersion and to impart certain beneficial characteristics and properties to wet-laid fabrics. The contrasting attributes of synthetic and cellulosic fibers contribute to some unique challenges during the processing of their mixtures during wet-laid forming.

Published
2016
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47. Comparative Genomics Unveils Regionalized Evolution of the Faustovirus Genomes

Author

Khalil Geballa-Koukoulas, Hadjer Boudjemaa, Julien Andreani, Bernard La Scola, and Guillaume Blanc

Subjects
Faustovirus, Asfarvirus, nucleo-cytoplasmic large DNA virus, genome evolution, Microbiology, QR1-502
Abstract

Faustovirus is a recently discovered genus of large DNA virus infecting the amoeba Vermamoeba vermiformis, which is phylogenetically related to Asfarviridae. To better understand the diversity and evolution of this viral group, we sequenced six novel Faustovirus strains, mined published metagenomic datasets and performed a comparative genomic analysis. Genomic sequences revealed three consistent phylogenetic groups, within which genetic diversity was moderate. The comparison of the major capsid protein (MCP) genes unveiled between 13 and 18 type-I introns that likely evolved through a still-active birth and death process mediated by intron-encoded homing endonucleases that began before the Faustovirus radiation. Genome-wide alignments indicated that despite genomes retaining high levels of gene collinearity, the central region containing the MCP gene together with the extremities of the chromosomes evolved at a faster rate due to increased indel accumulation and local rearrangements. The fluctuation of the nucleotide composition along the Faustovirus (FV) genomes is mostly imprinted by the consistent nucleotide bias of coding sequences and provided no evidence for a single DNA replication origin like in circular bacterial genomes.

Published
2020
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48. ERK signaling controls productive HIF‐1 binding to chromatin and cancer cell adaptation to hypoxia through HIF‐1α interaction with NPM1

Author

George Panayotou, Antonis Giakountis, Kreon Koukoulas, Angeliki Karagiota, Ilias Mylonis, George Simos, and Martina Samiotaki

Subjects
Cancer Research, Transcriptome, Histones, Neoplasms, Oxygen homeostasis, Genetics, medicine, Gene silencing, cancer, HIF, Humans, RC254-282, Research Articles, biology, hypoxia, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, General Medicine, Hypoxia (medical), Hypoxia-Inducible Factor 1, alpha Subunit, Cell Hypoxia, Chromatin, Cell biology, Histone, Oncology, Cancer cell, biology.protein, Molecular Medicine, Phosphorylation, NPM1, medicine.symptom, nucleophosmin, Research Article, Signal Transduction
Abstract

The hypoxia‐inducible factor HIF‐1 is essential for oxygen homeostasis. Despite its well‐understood oxygen‐dependent expression, regulation of its transcriptional activity remains unclear. We show that phosphorylation by extracellular signal‐regulated kinases1/2 (ERK1/2), in addition to promoting HIF‐1α nuclear accumulation, also enhances its interaction with chromatin and stimulates direct binding to nucleophosmin (NPM1), a histone chaperone and chromatin remodeler. NPM1 is required for phosphorylation‐dependent recruitment of HIF‐1 to hypoxia response elements, its interaction with acetylated histones, and high expression of HIF‐1 target genes under hypoxia. Transcriptome analysis revealed a significant number of hypoxia‐related genes commonly regulated by NPM1 and HIF‐1. These NPM1/HIF‐1α co‐upregulated genes are enriched in three different cancer types, and their expression correlates with hypoxic tumor status and worse patient prognosis. In concert, silencing of NPM1 expression or disruption of its association with HIF‐1α inhibits metabolic adaptation of cancer cells and triggers apoptotic death upon hypoxia. We suggest that ERK‐mediated phosphorylation of HIF‐1α regulates its physical interaction with NPM1, which is essential for the productive association of HIF‐1 with hypoxia target genes and their optimal transcriptional activation, required for survival under low oxygen or tumor growth., NPM1 marks and may organize hypoxia‐inducible promoters. Upper panel: In the absence of ERK‐mediated phosphorylation HIF‐1α binding to HRE is weak resulting in basal levels of transcriptional activity. Bottom panel: In cells with elevated ERK1/2 activity phosphorylated HIF‐1α can then bind to NPM1 and mediate stable association of HIF‐1 with a neighboring HRE resulting in maximal activation of transcription.

Published
2021

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