Novel Whitlockite/Alginate/C60 Fullerene Composites: Synthesis, Characterization and Properties for Medical Application

A new side-chain C60-fullerene functionalized thiophene copolymer bearing tributylphosphine-substituted hexylic lateral groups was successfully synthesized by means of a fast and effective post-polymerization reaction on a regioregular ω-alkylbrominated polymeric precursor. The growth of the polymeric intermediate was followed by NMR spectrometry in order to determine the most convenient reaction time. The obtained copolymer was soluble in water and polar solvents and was used as a photoactive layer in single-material organic photovoltaic (OPV) solar cells. The copolymer photovoltaic efficiency was compared with that of an OPV cell containing a water-soluble polythiophenic homopolymer, functionalized with the same tributylphosphine-substituted hexylic side chains, in a blend with a water-soluble C60-fullerene derivative. The use of a water-soluble double-cable copolymer made it possible to enhance the control on the nanomorphology of the active blend, thus reducing phase-segregation phenomena, as well as the macroscale separation between the electron acceptor and donor components. Indeed, the power conversion efficiency of OPV cells based on a single material was higher than that obtained with the classical architecture, involving the presence of two distinct ED and EA materials (PCE: 3.11% vs. 2.29%, respectively). Moreover, the synthetic procedure adopted to obtain single material-based cells is more straightforward and easier than that used for the preparation of the homopolymer-based BHJ solar cell, thus making it possible to completely avoid the long synthetic pathway which is required to prepare water-soluble fullerene derivatives.

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Flow velocity quantification by exploiting the principles of the Doppler effect and magnetic particle imaging

Scientific Reports ◽

10.1038/s41598-021-83821-w ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Dennis Pantke ◽

Florian Mueller ◽

Sebastian Reinartz ◽

Fabian Kiessling ◽

Volkmar Schulz

Keyword(s):

Flow Velocity ◽

Magnetic Particle ◽

Imaging Techniques ◽

Radiation Risk ◽

Medical Application ◽

Velocity Estimation ◽

Magnetic Particle Imaging ◽

Measurable Velocity ◽

Depth Dependency ◽

Particle Imaging

AbstractChanges in blood flow velocity play a crucial role during pathogenesis and progression of cardiovascular diseases. Imaging techniques capable of assessing flow velocities are clinically applied but are often not accurate, quantitative, and reliable enough to assess fine changes indicating the early onset of diseases and their conversion into a symptomatic stage. Magnetic particle imaging (MPI) promises to overcome these limitations. Existing MPI-based techniques perform velocity estimation on the reconstructed images, which restricts the measurable velocity range. Therefore, we developed a novel velocity quantification method by adapting the Doppler principle to MPI. Our method exploits the velocity-dependent frequency shift caused by a tracer motion-induced modulation of the emitted signal. The fundamental theory of our method is deduced and validated by simulations and measurements of moving phantoms. Overall, our method enables robust velocity quantification within milliseconds, with high accuracy, no radiation risk, no depth-dependency, and extended range compared to existing MPI-based velocity quantification techniques, highlighting the potential of our method as future medical application.

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Design and control of a passive compliant actuation with positioning measurement by LED and photodiode detector for medical application

Measurement and Control ◽

10.1177/0020294021989749 ◽

2021 ◽

Vol 54 (3-4) ◽

pp. 216-230

Author(s):

Anan Suebsomran

Keyword(s):

Supervisory Control ◽

Electromagnetic Interference ◽

Medical Application ◽

Torque Control ◽

Assistive Device ◽

Joint Control ◽

Design Error ◽

Exoskeleton Robot ◽

Compliant Actuation ◽

Wearable Exoskeleton

Control of assistive exoskeleton robot recently has to be crucial of development and innovation of medical application. To support daily motions for humans, control application of assistive exoskeleton robot allows for limb movement with increased strength and endurance during patient’s wearable exoskeleton robot application. The interaction between such exoskeleton device and the human body at the connecting joint, especially the knees, is the main interest of this design formation. The assistive device requires to design and to develop into innovation design aspect. This research presents the novel design of an active compliant actuation joint in order to increasing the higher torque of actuation than conventional actuation joint. Control design of the higher torque actuation usually difficult priori to conventional torque control. This will contributed to applying the supervisory control for compliant actuation that verified by experiment method. Then the hybrid Radial Basis Function neural network (RBFNN) and PID were proposed for actuating torque control methods. Experimental results show that the design of supervisory control is get better response, and higher producing torque output than the conventional design. Error of torque control of compliant actuation is not instead of [Formula: see text] N·m for applying supervisory control, RBFNN with PID controller. Indeed, the low electromagnetic interference (EMI) positioning system using LED and photodiode detector is proposed to be usable in medical application.

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Influence of cryopreserved piglets skin fragments or aqueous colloidal solution of C60 fullerene on destruction and inflammation severity after skin cryodestruction

Cryobiology ◽

10.1016/j.cryobiol.2020.10.055 ◽

2020 ◽

Vol 97 ◽

pp. 261-262

Author(s):

Oleksandr Vlasov ◽

Gennadiy Kovalov ◽

Mykola Chizh ◽

Serhii Galchenko

Keyword(s):

Colloidal Solution ◽

C60 Fullerene ◽

Aqueous Colloidal Solution

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Low Power Contactless Bioimpedance Sensor for Monitoring Breathing Activity

Sensors ◽

10.3390/s21062081 ◽

2021 ◽

Vol 21 (6) ◽

pp. 2081

Author(s):

Marko Pavlin ◽

Franc Novak ◽

Gregor Papa

Keyword(s):

Dielectric Properties ◽

Low Power ◽

Medical Application ◽

Fast Response ◽

The Body ◽

Frequency Change ◽

Tissue Composition ◽

Medical Sector ◽

Bioimpedance Measurement ◽

Wide Operating

An electronic circuit for contactless detection of impedance changes in a tissue is presented. It operates on the principle of resonant frequency change of the resonator having the observed tissue as a dielectric. The operating frequency reflects the tissue dielectric properties (i.e., the tissue composition and on the tissue physiological changes). The sensor operation was tested within a medical application by measuring the breathing of a patient, which was an easy detectable physiological process. The advantage over conventional contact bioimpedance measurement methods is that no direct contact between the resonator and the body is required. Furthermore, the sensor’s wide operating range, ability to adapt to a broad range of measured materials, fast response, low power consumption, and small outline dimensions enables applications not only in the medical sector, but also in other domains. This can be extended, for example, to food industry or production maintenance, where the observed phenomena are reflected in dynamic dielectric properties of the observed object or material.

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Endo- and exohedral chloro-fulleride as η5 ligands: A DFT study on the first-row transition metal complexes

Physical Chemistry Chemical Physics ◽

10.1039/d0cp05612j ◽

2021 ◽

Author(s):

Sebastian Anila ◽

Cherumuttathu Hariharan Suresh

Keyword(s):

Transition Metal ◽

Transition Metals ◽

Metal Complexes ◽

Transition Metal Complexes ◽

Dft Study ◽

C60 Fullerene ◽

Ring Fusion ◽

Coordination Modes

C60 fullerene coordinates to transition metals in η2-fashion through its C-C bond at [6,6] ring fusion whereas other coordination modes η3, η4, η5 and η6 are rarely observed. The coordination...

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An improvement of rough sets’ accuracy measure using containment neighborhoods with a medical application

Information Sciences ◽

10.1016/j.ins.2021.04.016 ◽

2021 ◽

Author(s):

Tareq M. Al-shami

Keyword(s):

Rough Sets ◽

Medical Application ◽

Accuracy Measure

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