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https://www.readbyqxmd.com/read/28541034/microfluidic-capillaric-circuit-for-rapid-and-facile-bacteria-detection
#1
Ayokunle Oluwafemi Olanrewaju, Andy Ng, Philippe Decorwin-Martin, Alessandra Robillard, David Juncker
Urinary tract infections (UTI) are one of the most common bacterial infections and would greatly benefit from a rapid point-of-care diagnostic test. Although significant progress has been made in developing microfluidic systems for nucleic acid and whole bacteria immunoassay tests, their practical application is limited by complex protocols, bulky peripherals, and slow operation. Here we present a microfluidic capillaric circuit (CC) optimized for rapid and automated detection of bacteria in urine. Molds for CCs were constructed using previously-established design rules, then 3D-printed and replicated into poly(dimethylsiloxane)...
May 25, 2017: Analytical Chemistry
https://www.readbyqxmd.com/read/28540727/noiseless-performance-of-prussian-blue-based-bio-sensors-through-power-generation
#2
Maria A Komkova, Elena E Karyakina, Arkady A Karyakin
In contrast to 'self-powered' (bio)sensors aiming to generate maximum energy output, we propose the systems with the lowest potential difference between the working and the counter electrodes, which in galvanic mode would provide achievement of the best analytical performance characteristics. Prussian Blue based (bio)sensors known to operate at 0.00 V versus Ag|AgCl reference, in short-circuit regime generate the current proportional to analyte concentration. Sensitivity and dynamic range of Prussian Blue based (bio)sensors in power generation mode are, respectively, even slightly higher and wider compared to the same (bio)sensors operated in the conventional three-electrode regime powered by a potentiostat...
May 25, 2017: Analytical Chemistry
https://www.readbyqxmd.com/read/28508862/nanogenerator-based-dual-functional-and-self-powered-thin-patch-loudspeaker-or-microphone-for-flexible-electronics
#3
Wei Li, David Torres, Ramón Díaz, Zhengjun Wang, Changsheng Wu, Chuan Wang, Zhong Lin Wang, Nelson Sepúlveda
Ferroelectret nanogenerators were recently introduced as a promising alternative technology for harvesting kinetic energy. Here we report the device's intrinsic properties that allow for the bidirectional conversion of energy between electrical and mechanical domains; thus extending its potential use in wearable electronics beyond the power generation realm. This electromechanical coupling, combined with their flexibility and thin film-like form, bestows dual-functional transducing capabilities to the device that are used in this work to demonstrate its use as a thin, wearable and self-powered loudspeaker or microphone patch...
May 16, 2017: Nature Communications
https://www.readbyqxmd.com/read/28506573/nanogenerators-for-human-body-energy-harvesting
#4
REVIEW
Antonino Proto, Marek Penhaker, Silvia Conforto, Maurizio Schmid
Humans generate remarkable quantities of energy while performing daily activities, but this energy usually dissipates into the environment. Here, we address recent progress in the development of nanogenerators (NGs): devices that are able to harvest such body-produced biomechanical and thermal energies by exploiting piezoelectric, triboelectric, and thermoelectric physical effects. In designing NGs, the end-user's comfort is a primary concern. Therefore, we focus on recently developed materials giving flexibility and stretchability to NGs...
May 12, 2017: Trends in Biotechnology
https://www.readbyqxmd.com/read/28485449/a-smart-mobile-pouch-as-a-biomechanical-energy-harvester-towards-self-powered-smart-wireless-power-transfer-applications
#5
Arunkumar Chandrasekhar, Nagamalleswara Rao Alluri, M S P Sudhakaran, Young Sun Mok, Sang-Jae Kim
A Smart Mobile Pouch Triboelectric Nanogenerator (SMP-TENG) is introduced as a promising eco-friendly approach for scavenging biomechanical energy for powering next generation intelligent devices and smart phones. This is a cost-effective and robust method for harvesting energy from human motion, by utilizing worn fabrics as a contact material. The SMP-TENG is capable of harvesting energy in two operational modes: lateral sliding and vertical contact and separation. Moreover, the SMP-TENG can also act as a self-powered emergency flashlight and self-powered pedometer during normal human motion...
May 9, 2017: Nanoscale
https://www.readbyqxmd.com/read/28473298/maintenance-of-neural-activities-in-torpid-rhinolophus-ferrumequinum-bats-revealed-by-2d-gel-based-proteome-analysis
#6
Qiuyuan Yin, Yijian Zhang, Dong Dong, Ming Lei, Shuyi Zhang, Chen-Chung Liao, Yi-Hsuan Pan
Bats are the only mammals capable of self-powered flying. Many bat species hibernate in winter. A reversible control of cerebral activities is critical for bats to accommodate a repeated torpor-arousal cycle during hibernation. Little is known about the molecular mechanisms that regulate neuronal activities in torpid bats. In this study, Rhinolophus ferrumequinum bat brain proteins were fractionated, and their abundance in active and torpid states was compared. Results of 2D gel-based proteomics showed that 38% of identified proteins with a significant change in abundance are involved in synaptic vesicle recycling and cytoskeletal integrity...
May 1, 2017: Biochimica et Biophysica Acta
https://www.readbyqxmd.com/read/28469179/highly-selective-and-sensitive-self-powered-glucose-sensor-based-on-capacitor-circuit
#7
Gymama Slaughter, Tanmay Kulkarni
Enzymatic glucose biosensors are being developed to incorporate nanoscale materials with the biological recognition elements to assist in the rapid and sensitive detection of glucose. Here we present a highly sensitive and selective glucose sensor based on capacitor circuit that is capable of selectively sensing glucose while simultaneously powering a small microelectronic device. Multi-walled carbon nanotubes (MWCNTs) is chemically modified with pyrroloquinoline quinone glucose dehydrogenase (PQQ-GDH) and bilirubin oxidase (BOD) at anode and cathode, respectively, in the biofuel cell arrangement...
May 3, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28463363/from-natural-cotton-thread-to-sewable-energy-dense-supercapacitors
#8
Jian Zhi, Oliver Reiser, Youfu Wang, Aiguo Hu
Considering cost and flexibility, cotton thread is an ideal material for the fabrication of wearable and portable electronics. However, the capacitance of cotton thread based supercapacitors remains extremely low (below 50 mF cm(-2)) due to the insufficient capacitive utilization of active materials. In this work, ordered mesoporous carbon (OMC) membranes are rationally coupled with chemical vapour deposition derived graphene (CVD gr), to form a highly conductive carbon coating around cotton yarn. In this material design, OMC membranes act as hydrophilic nanoporous "ion reservoirs" to accumulate sufficient cations from a gel electrolyte, while CVD gr endows the composite thread low liner resistance (3...
May 18, 2017: Nanoscale
https://www.readbyqxmd.com/read/28452402/high-performance-piezoelectric-nanogenerators-with-imprinted-p-vdf-trfe-batio3-nanocomposite-micropillars-for-self-powered-flexible-sensors
#9
Xiaoliang Chen, Xiangming Li, Jinyou Shao, Ningli An, Hongmiao Tian, Chao Wang, Tianyi Han, Li Wang, Bingheng Lu
Piezoelectric nanogenerators with large output, high sensitivity, and good flexibility have attracted extensive interest in wearable electronics and personal healthcare. In this paper, the authors propose a high-performance flexible piezoelectric nanogenerator based on piezoelectrically enhanced nanocomposite micropillar array of polyvinylidene fluoride-trifluoroethylene (P(VDF-TrFE))/barium titanate (BaTiO3 ) for energy harvesting and highly sensitive self-powered sensing. By a reliable and scalable nanoimprinting process, the piezoelectrically enhanced vertically aligned P(VDF-TrFE)/BaTiO3 nanocomposite micropillar arrays are fabricated...
April 28, 2017: Small
https://www.readbyqxmd.com/read/28451316/quantitative-self-powered-electrochromic-biosensors
#10
Miguel Aller Pellitero, Anton Guimerà, Maria Kitsara, Rosa Villa, Camille Rubio, Boris Lakard, Marie-Laure Doche, Jean-Yves Hihn, F Javier Del Campo
Self-powered sensors are analytical devices able to generate their own energy, either from the sample itself or from their surroundings. The conventional approaches rely heavily on silicon-based electronics, which results in increased complexity and cost, and prevents the broader use of these smart systems. Here we show that electrochromic materials can overcome the existing limitations by simplifying device construction and avoiding the need for silicon-based electronics entirely. Electrochromic displays can be built into compact self-powered electrochemical sensors that give quantitative information readable by the naked eye, simply controlling the current path inside them through a combination of specially arranged materials...
March 1, 2017: Chemical Science
https://www.readbyqxmd.com/read/28451116/self-powered-fluorescence-display-devices-based-on-a-fast-self-charging-recharging-battery-mg-prussian-blue
#11
Hui Zhang, You Yu, Lingling Zhang, Yiwen Zhai, Shaojun Dong
Stimuli-responsive (such as voltage and/or light) fluorescence display systems have attracted particular attention in their promising fields of application. However, there are few examples of self-powered fluorescence display devices. Here we designed and fabricated a self-powered fluorescence display device based on a fast-charging/recharging battery. The specially designed battery was composed of a Prussian blue (PB) cathode and a magnesium metal anode with a high theoretical redox potential difference (∼2...
November 1, 2016: Chemical Science
https://www.readbyqxmd.com/read/28451105/conducting-polymer-ppy-nanowire-based-triboelectric-nanogenerator-and-its-application-for-self-powered-electrochemical-cathodic-protection
#12
Siwen Cui, Youbin Zheng, Jun Liang, Daoai Wang
As a new type of energy harvesting device, the triboelectric nanogenerator (TENG) can convert almost all kinds of mechanical energy into electricity based on the coupling of triboelectrification and electrostatic induction. Here, a novel TENG is constructed with a conducting polymer polypyrrole nanowire (PPy NW) electrode, which is prepared by an electrochemical polymerization method with anodic aluminum oxide (AAO) as the template. The PPy NW-based TENG shows high output performance with a maximum short circuit current density of 23...
October 1, 2016: Chemical Science
https://www.readbyqxmd.com/read/28445007/cobalt-phosphide-double-shelled-nanocages-broadband-light-harvesting-nanostructures-for-efficient-photothermal-therapy-and-self-powered-photoelectrochemical-biosensing
#13
Jingqi Tian, Houjuan Zhu, Jie Chen, Xinting Zheng, Hongwei Duan, Kanyi Pu, Peng Chen
Ultra-broadband light-absorbing materials are highly desired for effective solar-energy harvesting. Herein, novel cobalt phosphide double-shelled nanocages (CoP-NCs) are synthesized. Uniquely, these CoP-NCs are able to nonselectively absorb light spanning the full solar spectrum, benefiting from its electronic properties and hollow nanostructure. They promise a wide range of applications involving solar energy utilization. As proof-of-concept demonstrations, CoP-NCs are employed here as effective photothermal agents to ablate cancer cells by utilizing their ability of near-infrared heat conversion, and as photoactive material for self-powered photoelectrochemical sensing by taking advantage of their ability of photon-to-electricity conversion...
April 26, 2017: Small
https://www.readbyqxmd.com/read/28443846/on-chip-enzymatic-microbiofuel-cell-powered-integrated-circuits
#14
Andrew G Mark, Emmanuel Suraniti, Jérôme Roche, Harald Richter, Alexander Kuhn, Nicolas Mano, Peer Fischer
A variety of diagnostic and therapeutic medical technologies rely on long term implantation of an electronic device to monitor or regulate a patient's condition. One proposed approach to powering these devices is to use a biofuel cell to convert the chemical energy from blood nutrients into electrical current to supply the electronics. We present here an enzymatic microbiofuel cell whose electrodes are directly integrated into a digital electronic circuit. Glucose oxidizing and oxygen reducing enzymes are immobilized on microelectrodes of an application specific integrated circuit (ASIC) using redox hydrogels to produce an enzymatic biofuel cell, capable of harvesting electrical power from just a single droplet of 5 mM glucose solution...
April 26, 2017: Lab on a Chip
https://www.readbyqxmd.com/read/28439415/stretchable-biofuel-cells-as-wearable-textile-based-self-powered-sensors
#15
Itthipon Jeerapan, Juliane R Sempionatto, Adriana Pavinatto, Jung-Min You, Joseph Wang
Highly stretchable textile-based biofuel cells (BFCs), acting as effective self-powered sensors, have been fabricated using screen-printing of customized stress-enduring inks. Due to synergistic effects of nanomaterial-based engineered inks and the serpentine designs, these printable bioelectronic devices endure severe mechanical deformations, e.g., stretching, indentation, or torsional twisting. Glucose and lactate BFCs with the single enzyme and membrane-free configurations generated the maximum power density of 160 and 250 µW cm(-2) with the open circuit voltages of 0...
December 21, 2016: Journal of Materials Chemistry. A, Materials for Energy and Sustainability
https://www.readbyqxmd.com/read/28435879/fast-moving-soft-electronic-fish
#16
Tiefeng Li, Guorui Li, Yiming Liang, Tingyu Cheng, Jing Dai, Xuxu Yang, Bangyuan Liu, Zedong Zeng, Zhilong Huang, Yingwu Luo, Tao Xie, Wei Yang
Soft robots driven by stimuli-responsive materials have unique advantages over conventional rigid robots, especially in their high adaptability for field exploration and seamless interaction with humans. The grand challenge lies in achieving self-powered soft robots with high mobility, environmental tolerance, and long endurance. We are able to advance a soft electronic fish with a fully integrated onboard system for power and remote control. Without any motor, the fish is driven solely by a soft electroactive structure made of dielectric elastomer and ionically conductive hydrogel...
April 2017: Science Advances
https://www.readbyqxmd.com/read/28425028/energy-harvesting-from-cerebrospinal-fluid-pressure-fluctuations-for-self-powered-neural-implants
#17
Levent Beker, Arnau Benet, Ali Tayebi Meybodi, Ben Eovino, Albert P Pisano, Liwei Lin
In this paper, a novel method to generate electrical energy by converting available mechanical energy from pressure fluctuations of the cerebrospinal fluid within lateral ventricles of the brain is presented. The generated electrical power can be supplied to the neural implants and either eliminate their battery need or extend the battery lifespan. A diaphragm type harvester comprised of piezoelectric material is utilized to convert the pressure fluctuations to electrical energy. The pressure fluctuations cause the diaphragm to bend, and the strained piezoelectric materials generate electricity...
June 2017: Biomedical Microdevices
https://www.readbyqxmd.com/read/28422664/diaper-embedded-urinary-tract-infection-monitoring-sensor-module-powered-by-urine-activated-batteries
#18
Weeseong Seo, Wuyang Yu, Tianlin Tan, Babak Ziaie, Byunghoo Jung
Urinary tract infection (UTI) is one of the most common infections in humans. UTI is easily treatable using antibiotics if identified in early stage. However, without early identification and treatment, UTI can be a major source of serious complications in geriatric patients, in particular, those suffering from neurodegenerative diseases. Also, for infants who have difficulty in describing their symptoms, UTI may lead to serious development of the disease making early identification of UTI crucial. In this paper, we present a diaper-embedded, wireless, self-powered, and autonomous UTI monitoring sensor module that allows an early detection of UTI with minimal effort...
June 2017: IEEE Transactions on Biomedical Circuits and Systems
https://www.readbyqxmd.com/read/28422085/resonant-rectifier-ics-for-piezoelectric-energy-harvesting-using-low-voltage-drop-diode-equivalents
#19
Amad Ud Din, Seneke Chamith Chandrathna, Jong-Wook Lee
Herein, we present the design technique of a resonant rectifier for piezoelectric (PE) energy harvesting. We propose two diode equivalents to reduce the voltage drop in the rectifier operation, a minuscule-drop-diode equivalent (MDDE) and a low-drop-diode equivalent (LDDE). The diode equivalents are embedded in resonant rectifier integrated circuits (ICs), which use symmetric bias-flip to reduce the power used for charging and discharging the internal capacitance of a PE transducer. The self-startup function is supported by synchronously generating control pulses for the bias-flip from the PE transducer...
April 19, 2017: Sensors
https://www.readbyqxmd.com/read/28418061/self-powered-electrochemical-systems-as-neurochemical-sensors-toward-self-triggered-in-vivo-analysis-of-brain-chemistry
#20
Fei Wu, Ping Yu, Lanqun Mao
Real-time in vivo analysis of neurochemical dynamics has great physiological and pathological implications for a full understanding of the brain. Self-powered electrochemical systems (SPESs) built on galvanic cell configurations bear the advantages of easy miniaturization for implantation and no interference to electric activities of neurons over traditional externally-powered electrochemical sensors for self-triggered in vivo analysis. However, this is still a new concept for in vivo neurochemical sensing with few implanted examples reported so far...
April 18, 2017: Chemical Society Reviews
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