Gladys Ornelas scite author profile

A giant barocaloric effect (BCE) in a molecular material Fe3(bntrz)6(tcnset)6 (FBT) is reported, where bntrz = 4‐(benzyl)‐1,2,4‐triazole and tcnset = 1,1,3,3‐tetracyano‐2‐thioethylepropenide. The crystal structure of FBT contains a trinuclear transition metal complex that undergoes an abrupt spin‐state switching between the state in which all three FeII centers are in the high‐spin (S = 2) electronic configuration and the state in which all of them are in the low‐spin (S = 0) configuration. Despite the strongly cooperative nature of the spin transition, it proceeds with a negligible hysteresis and a large volumetric change, suggesting that FBT should be a good candidate for producing a large BCE. Powder X‐ray diffraction and calorimetry reveal that the material is highly susceptible to applied pressure, as the transition temperature spans the range from 318 at ambient pressure to 383 K at 2.6 kbar. Despite the large shift in the spin‐transition temperature, its nonhysteretic character is maintained under applied pressure. Such behavior leads to a remarkably large and reversible BCE, characterized by an isothermal entropy change of 120 J kg−1 K−1 and an adiabatic temperature change of 35 K, which are among the highest reversible values reported for any caloric material thus far.

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Scalable Microfabrication Procedures for Adhesive-Integrated Flexible and Stretchable Electronic Sensors

Kang

Kim

Ornelas

et al. 2015

Sensors

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New classes of ultrathin flexible and stretchable devices have changed the way modern electronics are designed to interact with their target systems. Though more and more novel technologies surface and steer the way we think about future electronics, there exists an unmet need in regards to optimizing the fabrication procedures for these devices so that large-scale industrial translation is realistic. This article presents an unconventional approach for facile microfabrication and processing of adhesive-peeled (AP) flexible sensors. By assembling AP sensors on a weakly-adhering substrate in an inverted fashion, we demonstrate a procedure with 50% reduced end-to-end processing time that achieves greater levels of fabrication yield. The methodology is used to demonstrate the fabrication of electrical and mechanical flexible and stretchable AP sensors that are peeled-off their carrier substrates by consumer adhesives. In using this approach, we outline the manner by which adhesion is maintained and buckling is reduced for gold film processing on polydimethylsiloxane substrates. In addition, we demonstrate the compatibility of our methodology with large-scale post-processing using a roll-to-roll approach.

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High‐density surface electromyography: A visualization method of laryngeal muscle activity

et al. 2019

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Objectives/Hypothesis Laryngeal muscle activation is a complex and dynamic process. Current evaluation methods include needle and surface electromyography (sEMG). Limitations of needle electromyography include patient discomfort, interpretive complexity, and limited duration of recording. sEMG demonstrates interpretive challenges given loss of spatial selectivity. Application of high‐density sEMG (HD sEMG) arrays were evaluated for potential to compensate for spatial selectivity loss while retaining benefits of noninvasive monitoring. Study Design Basic science. Methods Ten adults performed phonatory tasks while a 20‐channel array recorded spatiotemporal data of the anterior neck. Data were processed to provide average spectral power of each electrode. Comparison was made between rest, low‐, and high‐pitch phonation. Two‐dimensional (2D) spectral energy maps were created to evaluate use in gross identification of muscle location. Results Three phonatory tasks yielded spectral power measures across the HD sEMG array. Each electrode within the array demonstrated unique power values across all subjects (P < .001). Comparison of each electrode to itself across phonatory tasks yielded differences in all subjects during rest versus low versus high, rest versus low, and rest versus high and in 9/10 subjects (P < .001) for low versus high phonation. Symmetry of HD sEMG signal was noted. Review of 2D coronal energy maps allowed for gross identification of cricothyroid muscle amidst anterior strap musculature. Conclusions HD sEMG can be used to identify differences in anterior neck muscle activity between rest, low‐, and high‐pitch phonation. HD sEMG of the anterior neck holds potential to enhance diagnostic and therapeutic monitoring for pathologies of laryngeal function. Level of Evidence NA Laryngoscope, 129:2347–2353, 2019

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Mp07-02 a Pilot Trial to Evaluate a High-Resolution, Non-Invasive Urodynamic Study to Monitor Electrical Activity of the Human Bladder

Lee

Coleman

et al. 2019

Journal of Urology

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MS, SCI, or spina bifida to calculate Cronbach's alpha of 0.76; the external validity was high, with correlations between specific NBSS-SF domains/total scores and the Qualiveen-SF, ICIQ, and AUASS, and between the NBSS-SF domains and the full NBSS domains. In the subset of 120 patients who completed the testretest reliability assessment, the ICC for the NBSS-SF total score was 0.84. These results were then confirmed in a second independent dataset of 1479 SCI patients: Cronbach's alpha for the NBSS-SF total was 0.75 and external validity was again demonstrated with a moderate correlation between the calculated NBSS-SF total and the SCI-QOL Bladder complications score, and strong correlations between the NBSS-SF domains/total score and the full NBSS domains/total. CONCLUSIONS: The total score of the eight question NBSS-SF has appropriate validity and reliability, and could be used in patient care settings. The full NBSS is better suited when researchers want to evaluate individual NBSS domains in addition to the total score.

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Gladys Ornelas

Giant and Reversible Barocaloric Effect in Trinuclear Spin‐Crossover Complex Fe₃(bntrz)₆(tcnset)₆

Scalable Microfabrication Procedures for Adhesive-Integrated Flexible and Stretchable Electronic Sensors

High‐density surface electromyography: A visualization method of laryngeal muscle activity

Mp07-02 a Pilot Trial to Evaluate a High-Resolution, Non-Invasive Urodynamic Study to Monitor Electrical Activity of the Human Bladder

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Gladys Ornelas

Giant and Reversible Barocaloric Effect in Trinuclear Spin‐Crossover Complex Fe3(bntrz)6(tcnset)6

Scalable Microfabrication Procedures for Adhesive-Integrated Flexible and Stretchable Electronic Sensors

High‐density surface electromyography: A visualization method of laryngeal muscle activity

Mp07-02 a Pilot Trial to Evaluate a High-Resolution, Non-Invasive Urodynamic Study to Monitor Electrical Activity of the Human Bladder

Contact Info

Product

Resources

About

Giant and Reversible Barocaloric Effect in Trinuclear Spin‐Crossover Complex Fe₃(bntrz)₆(tcnset)₆