Showing total 139 results

1. Pencil-paper on-skin electronics.

Author

Xu Y, Zhao G, Zhu L, Fei Q, Zhang Z, Chen Z, An F, Chen Y, Ling Y, Guo P, Ding S, Huang G, Chen PY, Cao Q, and Yan Z

Subjects

Electric Power Supplies, Electrodes, Equipment Design, Humans, Paper, Electronics instrumentation, Graphite, Monitoring, Physiologic instrumentation, Skin, Wearable Electronic Devices

Abstract

Pencils and papers are ubiquitous in our society and have been widely used for writing and drawing, because they are easy to use, low-cost, widely accessible, and disposable. However, their applications in emerging skin-interfaced health monitoring and interventions are still not well explored. Herein, we report a variety of pencil-paper-based on-skin electronic devices, including biophysical (temperature, biopotential) sensors, sweat biochemical (pH, uric acid, glucose) sensors, thermal stimulators, and humidity energy harvesters. Among these devices, pencil-drawn graphite patterns (or combined with other compounds) serve as conductive traces and sensing electrodes, and office-copy papers work as flexible supporting substrates. The enabled devices can perform real-time, continuous, and high-fidelity monitoring of a range of vital biophysical and biochemical signals from human bodies, including skin temperatures, electrocardiograms, electromyograms, alpha, beta, and theta rhythms, instantaneous heart rates, respiratory rates, and sweat pH, uric acid, and glucose, as well as deliver programmed thermal stimulations. Notably, the qualities of recorded signals are comparable to those measured with conventional methods. Moreover, humidity energy harvesters are prepared by creating a gradient distribution of oxygen-containing groups on office-copy papers between pencil-drawn electrodes. One single-unit device (0.87 cm 2 ) can generate a sustained voltage of up to 480 mV for over 2 h from ambient humidity. Furthermore, a self-powered on-skin iontophoretic transdermal drug-delivery system is developed as an on-skin chemical intervention example. In addition, pencil-paper-based antennas, two-dimensional (2D) and three-dimensional (3D) circuits with light-emitting diodes (LEDs) and batteries, reconfigurable assembly and biodegradable electronics (based on water-soluble papers) are explored., Competing Interests: The authors declare no competing interest.

Published

2020

2. Wearable and Implantable Epidermal Paper-Based Electronics.

Author

Sadri B, Goswami D, Sala de Medeiros M, Pal A, Castro B, Kuang S, and Martinez RV

Subjects

Humans, Temperature, Electronics methods, Paper, Polymers chemistry, Prostheses and Implants economics, Prostheses and Implants standards, Wearable Electronic Devices economics, Wearable Electronic Devices standards

Abstract

Traditional manufacturing methods and materials used to fabricate epidermal electronics for physiological monitoring, transdermal stimulation, and therapeutics are complex and expensive, preventing their adoption as single-use medical devices. This work describes the fabrication of epidermal, paper-based electronic devices (EPEDs) for wearable and implantable applications by combining the spray-based deposition of silanizing agents, highly conductive nanoparticles, and encapsulating polymers with laser micromachining. EPEDs are inexpensive, stretchable, easy to apply, and disposable by burning. The omniphobic character and fibrous structure of EPEDs make them breathable, mechanically stable upon stretching, and facilitate their use as electrophysiological sensors to record electrocardiograms, electromyograms, and electrooculograms, even under water. EPEDs can also be used to provide thermotherapeutic treatments to joints, map temperature spatially, and as wirelessly powered implantable devices for stimulation and therapeutics. This work makes epidermal electronic devices accessible to high-throughput manufacturing technologies and will enable the fabrication of a variety of wearable medical devices at a low cost.

Published

2018

3. Integrated, paper-based potentiometric electronic tongue for the analysis of beer and wine.

Author

Nery EW and Kubota LT

Subjects

Beer, Electronics, Paper, Tongue, Wine

Abstract

The following manuscript details the stages of construction of a novel paper-based electronic tongue with an integrated Ag/AgCl reference, which can operate using a minimal amount of sample (40 μL). First, we optimized the fabrication procedure of silver electrodes, testing a set of different methodologies (electroless plating, use of silver nanoparticles and commercial silver paints). Later a novel, integrated electronic tongue system was assembled with the use of readily available materials such as paper, wax, lamination sheets, bleach etc. New system was thoroughly characterized and the ion-selective potentiometric sensors presented performance close to theoretical. An electronic tongue, composed of electrodes sensitive to sodium, calcium, ammonia and a cross-sensitive, anion-selective electrode was used to analyze 34 beer samples (12 types, 19 brands). This system was able to discriminate beers from different brands, and types, indicate presence of stabilizers and antioxidants, dyes or even unmalted cereals and carbohydrates added to the fermentation wort. Samples could be classified by type of fermentation (low, high) and system was able to predict pH and in part also alcohol content of tested beers. In the next step sample volume was minimalized by the use of paper sample pads and measurement in flow conditions. In order to test the impact of this advancement a four electrode system, with cross-sensitive (anion-selective, cation-selective, Ca(2+)/Mg(2+), K(+)/Na(+)) electrodes was applied for the analysis of 11 types of wine (4 types of grapes, red/white, 3 countries). Proposed matrix was able to group wines produced from different varieties of grapes (Chardonnay, Americanas, Malbec, Merlot) using only 40 μL of sample. Apart from that, storage stability studies were performed using a multimeter, therefore showing that not only fabrication but also detection can be accomplished by means of off-the-shelf components. This manuscript not only describes new paper-based, potentiometric sensors but also according to our knowledge is the first description of an electrochemical paper-based electronic tongue with integrated reference., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

4. An oxidized liquid metal-based microfluidic platform for tunable electronic device applications.

Author

Li G, Parmar M, and Lee DW

Subjects

Dimethylpolysiloxanes chemistry, Nanoparticles chemistry, Oxidation-Reduction, Paper, Particle Size, Surface Properties, Titanium chemistry, Alloys chemistry, Electronics, Lab-On-A-Chip Devices, Metals, Heavy chemistry

Abstract

Easy movement of oxidized Galinstan in microfluidic channels is a promising way for the wide application of the non-toxic liquid metal. In this paper, two different surface modification techniques (physical and chemical) are reported, which dramatically improve the non-wetting characteristics of oxidized Galinstan in the microfluidic channel. In the physical technique, normal paper textures are transferred to the inner wall of polydimethylsiloxane (PDMS) channels and four types of nanoparticles are then coated on the surface of the wall for further improvement of the non-wetting characteristics. Highest advancing angle of 167° and receding angle of 151° are achieved on the paper-textured PDMS with titanium oxide (TiO2) nanoparticles. In the chemical technique, three types of inorganic acids are employed to generate dual-scale structures on the PDMS surface. The inner wall surface treated with sulfuric acid (H2SO4) shows the highest contact angle of 167° and a low hysteresis of ~14° in the dynamic measurement. Creating, transporting, separating and merging of oxidized Galinstan droplets are successfully demonstrated in the fabricated PDMS microfluidic channels. After optimization of these modification techniques, the potential application of tunable capacitors and electronic filters is realized by using liquid metal-based microfluidic devices.

Published

2015

5. Open-source electronic data capture system offered increased accuracy and cost-effectiveness compared with paper methods in Africa.

Author

Dillon DG, Pirie F, Rice S, Pomilla C, Sandhu MS, Motala AA, and Young EH

Subjects

Africa, Cost-Benefit Analysis, Data Collection economics, Humans, Reproducibility of Results, Data Collection methods, Electronics economics, Paper, Surveys and Questionnaires economics

Abstract

Objectives: Existing electronic data capture options are often financially unfeasible in resource-poor settings or difficult to support technically in the field. To help facilitate large-scale multicenter studies in sub-Saharan Africa, the African Partnership for Chronic Disease Research (APCDR) has developed an open-source electronic questionnaire (EQ)., Study Design and Setting: To assess its relative validity, we compared the EQ against traditional pen-and-paper methods using 200 randomized interviews conducted in an ongoing type 2 diabetes case-control study in South Africa., Results: During its 3-month validation, the EQ had a lower frequency of errors (EQ, 0.17 errors per 100 questions; paper, 0.73 errors per 100 questions; P-value ≤0.001), and a lower monetary cost per correctly entered question, compared with the pen-and-paper method. We found no marked difference in the average duration of the interview between methods (EQ, 5.4 minutes; paper, 5.6 minutes)., Conclusion: This validation study suggests that the EQ may offer increased accuracy, similar interview duration, and increased cost-effectiveness compared with paper-based data collection methods. The APCDR EQ software is freely available (https://github.com/apcdr/questionnaire)., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2014

6. Direct transfer of graphene onto flexible substrates.

Author

Martins LG, Song Y, Zeng T, Dresselhaus MS, Kong J, and Araujo PT

Subjects

Cellulose analogs & derivatives, Collodion, Hydrophobic and Hydrophilic Interactions, Paper, Paraffin, Polycarboxylate Cement, Polyethylene Terephthalates, Polymethyl Methacrylate, Polytetrafluoroethylene, Polyvinyl Chloride, Electronics trends, Graphite chemistry, Surface Properties

Abstract

In this paper we explore the direct transfer via lamination of chemical vapor deposition graphene onto different flexible substrates. The transfer method investigated here is fast, simple, and does not require an intermediate transfer membrane, such as polymethylmethacrylate, which needs to be removed afterward. Various substrates of general interest in research and industry were studied in this work, including polytetrafluoroethylene filter membranes, PVC, cellulose nitrate/cellulose acetate filter membranes, polycarbonate, paraffin, polyethylene terephthalate, paper, and cloth. By comparing the properties of these substrates, two critical factors to ensure a successful transfer on bare substrates were identified: the substrate's hydrophobicity and good contact between the substrate and graphene. For substrates that do not satisfy those requirements, polymethylmethacrylate can be used as a surface modifier or glue to ensure successful transfer. Our results can be applied to facilitate current processes and open up directions for applications of chemical vapor deposition graphene on flexible substrates. A broad range of applications can be envisioned, including fabrication of graphene devices for opto/organic electronics, graphene membranes for gas/liquid separation, and ubiquitous electronics with graphene.

Published

2013

7. Natural cellulose fiber as substrate for supercapacitor.

Author

Gui Z, Zhu H, Gillette E, Han X, Rubloff GW, Hu L, and Lee SB

Subjects

Electric Capacitance, Equipment Design, Equipment Failure Analysis, Materials Testing, Paper, Cellulose chemistry, Electric Power Supplies, Electronics instrumentation, Nanofibers chemistry, Nanofibers ultrastructure, Nanotubes, Carbon chemistry, Nanotubes, Carbon ultrastructure

Abstract

Cellulose fibers with porous structure and electrolyte absorption properties are considered to be a good potential substrate for the deposition of energy material for energy storage devices. Unlike traditional substrates, such as gold or stainless steel, paper prepared from cellulose fibers in this study not only functions as a substrate with large surface area but also acts as an interior electrolyte reservoir, where electrolyte can be absorbed much in the cellulose fibers and is ready to diffuse into an energy storage material. We demonstrated the value of this internal electrolyte reservoir by comparing a series of hierarchical hybrid supercapacitor electrodes based on homemade cellulose paper or polyester textile integrated with carbon nanotubes (CNTs) by simple solution dip and electrodeposited with MnO2. Atomic layer deposition of Al2O3 onto the fiber surface was used to limit electrolyte absorption into the fibers for comparison. Configurations designed with different numbers of ion diffusion pathways were compared to show that cellulose fibers in paper can act as a good interior electrolyte reservoir and provide an effective pathway for ion transport facilitation. Further optimization using an additional CNT coating resulted in an electrode of paper/CNTs/MnO2/CNTs, which has dual ion diffusion and electron transfer pathways and demonstrated superior supercapacitive performance. This paper highlights the merits of the mesoporous cellulose fibers as substrates for supercapacitor electrodes, in which the water-swelling effect of the cellulose fibers can absorb electrolyte, and the mesoporous internal structure of the fibers can provide channels for ions to diffuse to the electrochemical energy storage materials.

Published

2013

8. Large areal mass, flexible and free-standing reduced graphene oxide/manganese dioxide paper for asymmetric supercapacitor device.

Author

Sumboja A, Foo CY, Wang X, and Lee PS

Subjects

Elastic Modulus, Equipment Design, Equipment Failure Analysis, Materials Testing, Oxidation-Reduction, Electric Capacitance, Electronics instrumentation, Graphite chemistry, Manganese Compounds chemistry, Oxides chemistry, Paper

Abstract

Well-separated RGO sheets decorated with MnO2 nanoparticles facilitate easy access of the electrolyte ions to the high surface area of the paper electrode, enabling the fabrication of a thicker electrode with heavier areal mass and higher areal capacitance (up to 897 mF cm(-2) ). The electrochemical performance of the bent asymmetric device with a total active mass of 15 mg remains similar to the one in the flat configuration, demonstrating good mechanical robustness of the device., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

9. Solution processed aluminum paper for flexible electronics.

Author

Lee HM, Lee HB, Jung DS, Yun JY, Ko SH, and Park SB

Subjects

Ink, Organometallic Compounds chemical synthesis, Organometallic Compounds chemistry, Particle Size, Solutions, Surface Properties, Temperature, Aluminum chemistry, Electronics instrumentation, Paper

Abstract

As an alternative to vacuum deposition, preparation of highly conductive papers with aluminum (Al) features is successfully achieved by the solution process consisting of Al precursor ink (AlH(3){O(C(4)H(9))(2)}) and low temperature stamping process performed at 110 °C without any serious hydroxylation and oxidation problems. Al features formed on several kinds of paper substrates (calendar, magazine, and inkjet printing paper substrates) are less than ~60 nm thick, and their electrical conductivities were found to be as good as thermally evaporated Al film or even better (≤2 Ω/□). Strong adhesion of Al features to paper substrates and their excellent flexibility are also experimentally confirmed by TEM observation and mechanical tests, such as tape and bending tests. The solution processed Al features on paper substrates show different electrical and mechanical performance depending on the paper type, and inkjet printing paper is found to be the best substrate with high and stable electrical and mechanical properties. The Al conductive papers produced by the solution process may be applicable in disposal paper electronics.

Published

2012

10. Paper-based, capacitive touch pads.

Author

Mazzeo AD, Kalb WB, Chan L, Killian MG, Bloch JF, Mazzeo BA, and Whitesides GM

Subjects

Aluminum chemistry, Cellulose chemistry, Electric Capacitance, Metals chemistry, Electronics, Paper

Abstract

Metallized paper is patterned to create touch pads of arrayed buttons that are sensitive to contact with both bare and gloved fingers. The paper-based keypad detects the change in capacitance associated with the touch of a finger to one of its buttons. Mounted on an alarmed cardboard box, the keypad requires the appropriate sequence of touches to disarm the system., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

11. Hierarchical network architectures of carbon fiber paper supported cobalt oxide nanonet for high-capacity pseudocapacitors.

Author

Yang L, Cheng S, Ding Y, Zhu X, Wang ZL, and Liu M

Subjects

Equipment Design, Equipment Failure Analysis, Nanostructures ultrastructure, Nanotechnology instrumentation, Particle Size, Carbon chemistry, Cobalt chemistry, Electric Capacitance, Electronics instrumentation, Nanostructures chemistry, Oxides chemistry, Paper, Titanium chemistry

Abstract

We present a high-capacity pseudocapacitor based on a hierarchical network architecture consisting of Co(3)O(4) nanowire network (nanonet) coated on a carbon fiber paper. With this tailored architecture, the electrode shows ideal capacitive behavior (rectangular shape of cyclic voltammograms) and large specific capacitance (1124 F/g) at high charge/discharge rate (25.34 A/g), still retaining ~94% of the capacitance at a much lower rate of 0.25 A/g. The much-improved capacity, rate capability, and cycling stability may be attributed to the unique hierarchical network structures, which improves electron/ion transport, enhances the kinetics of redox reactions, and facilitates facile stress relaxation during cycling., (© 2011 American Chemical Society)

Published

2012

12. A system-on-chip and paper-based inkjet printed electrodes for a hybrid wearable bio-sensing system.

Author

Xie L, Yang G, Mäntysalo M, Jonsson F, and Zheng LR

Subjects

Equipment Design, Equipment Failure Analysis, Ink, Systems Integration, Biosensing Techniques instrumentation, Computer Peripherals, Electrodes, Electronics instrumentation, Monitoring, Ambulatory instrumentation, Paper, Printing instrumentation

Abstract

This paper presents a hybrid wearable bio-sensing system, which combines traditional small-area low-power and high-performance System-on-Chip (SoC), flexible paper substrate and cost-effective Printed Electronics. Differential bio-signals are measured, digitized, stored and transmitted by the SoC. The total area of the chip is 1.5 × 3.0 mm(2). This enables the miniaturization of the wearable system. The electrodes and interconnects are inkjet printed on paper substrate and the performance is verified in in-vivo tests. The quality of electrocardiogram signal sensed by printed electrodes is comparable with commercial electrodes, with noise level slightly increased. The paper-based inkjet printed system is flexible, light and thin, which makes the final system comfortable for end-users. The hybrid bio-sensing system offers a potential solution to the next generation wearable healthcare technology.

Published

2012

13. Direct monolithic integration of organic photovoltaic circuits on unmodified paper.

Author

Barr MC, Rowehl JA, Lunt RR, Xu J, Wang A, Boyce CM, Im SG, Bulović V, and Gleason KK

Subjects

Electrodes, Gases chemistry, Oxidation-Reduction, Paper, Polymers, Solar Energy, Electronics, Organic Chemicals chemistry

Published

2011

14. Pen-on-paper flexible electronics.

Author

Russo A, Ahn BY, Adams JJ, Duoss EB, Bernhard JT, and Lewis JA

Subjects

Ink, Paper, Silver chemistry, Electronics

Published

2011

15. Paper electronics.

Author

Tobjörk D and Österbacka R

Subjects

Electric Impedance, Electrodes, Printing, Semiconductors, Electronics instrumentation, Electronics methods, Paper

Abstract

Paper is ubiquitous in everyday life and a truly low-cost substrate. The use of paper substrates could be extended even further, if electronic applications would be applied next to or below the printed graphics. However, applying electronics on paper is challenging. The paper surface is not only very rough compared to plastics, but is also porous. While this is detrimental for most electronic devices manufactured directly onto paper substrates, there are also approaches that are compatible with the rough and absorptive paper surface. In this review, recent advances and possibilities of these approaches are evaluated and the limitations of paper electronics are discussed., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

16. Recent patents on electrophoretic displays and materials.

Author

Christophersen M and Phlips BF

Subjects

Color, Computer Terminals legislation & jurisprudence, Equipment Design, Ink, Multimedia, Nanotechnology legislation & jurisprudence, Optical Devices, Paper, Patents as Topic, Electronics instrumentation, Electronics legislation & jurisprudence

Abstract

Electrophoretic displays (EPDs) have made their way into consumer products. EPDs enable displays that offer the look and form of a printed page, often called "electronic paper". We will review recent apparatus and method patents for EPD devices and their fabrication. A brief introduction into the basic display operation and history of EPDs is given, while pointing out the technological challenges and difficulties for inventors. Recently, the majority of scientific publications and patenting activity has been directed to micro-segmented EPDs. These devices exhibit high optical reflectance and contrast, wide viewing angle, and high image resolution. Micro-segmented EPDs can also be integrated with flexible transistors technologies into flexible displays. Typical particles size ranges from 200 nm to 2 micrometer. Currently one very active area of patenting is the development of full-color EPDs. We summarize the recent patenting activity for EPDs and provide comments on perceiving factors driving intellectual property protection for EPD technologies.

Published

2010

17. Validation of a new hand-held electronic appetite rating system against the pen and paper method.

Author

Almiron-Roig E, Green H, Virgili R, Aeschlimann JM, Moser M, and Erkner A

Subjects

Adult, Eating physiology, Eating psychology, Female, Humans, Hunger, Male, Pain Measurement, Reproducibility of Results, Satiation, Sensitivity and Specificity, Sensory Thresholds, Surveys and Questionnaires, Thirst, Appetite physiology, Electronics, Paper

Abstract

This study describes the validation of a new electronic appetite rating system, and a statistical variance model for visual analogue scale (VAS) research. Thirty volunteers rated hunger, fullness, desire to eat, prospective intake, thirst and liking on 100mm paper VAS and on 70 mm electronic VAS presented on a Dell Pocket PC, after consuming breakfast, in a repeated trial. The electronic method was comparable in relative accuracy and reproducibility to the paper method, with weak differences between tests (within-subject SD < or =14 mm). The data obtained were used to generate a model for VAS data variability.

Published

2009

18. Towards electronic paper displays made from microbial cellulose.

Author

Shah J and Brown RM Jr

Subjects

Acetobacter metabolism, Biotechnology, Data Display, Microscopy, Electron, Scanning, Cellulose isolation & purification, Cellulose ultrastructure, Electronics, Paper

Abstract

Cellulose (in the form of printed paper) has always been the prime medium for displaying information in our society and is far better than the various existing display technologies. This is because of its high reflectivity, contrast, low cost and flexibility. There is a major initiative to push for a dynamic display technology that emulates paper (popularly known as "electronic paper"). We have successfully demonstrated the proof of the concept of developing a dynamic display on cellulose. To the best of our knowledge, this is the first significant effort to achieve an electronic display using bacterial cellulose. First, bacterial cellulose is synthesized in a culture of Acetobacter xylinum in standard glucose-rich medium. The bacterial cellulose membrane thus formed (not pulp) is dimensionally stable, has a paper-like appearance and has a unique microfibrillar nanostructure. The technique then involves first making the cellulose an electrically conducting (or semi-conducting) sheet by depositing ions around the microfibrils to provide conducting pathways and then immobilizing electrochromic dyes within the microstructure. The whole system is then cased between transparent electrodes, and upon application of switching potentials (2-5 V) a reversible color change can be demonstrated down to a standard pixel-sized area (ca. 100 microm2). Using a standard back-plane or in-plane drive circuit, a high-resolution dynamic display device using cellulose as substrate can be constructed. The major advantages of such a device are its high paper-like reflectivity, flexibility, contrast and biodegradability. The device has the potential to be extended to various applications, such as e-book tablets, e-newspapers, dynamic wall papers, rewritable maps and learning tools.

Published

2005

19. Removal of polychlorinated biphenyls from capacitors and pressure-sensitive paper by vacuum thermal recycling.

Author

Ohbayashi H, Hosomi M, Kanbe H, Melber A, and Bruckamp J

Subjects

Paper, Pressure, Temperature, Vacuum, Conservation of Natural Resources, Electronics, Environmental Pollutants analysis, Environmental Pollution prevention & control, Polychlorinated Biphenyls analysis

Abstract

This paper describes a new vacuum thermal recycling (VTR) method for treating discarded polychlorinated biphenyls (PCB)-contaminated capacitors and pressure-sensitive paper. Based on results demonstrating an exceptionally high PCB separation efficiency and recovery ratio from capacitors containing high-concentration PCBs, i.e. > 99.9%, respectively, the presented VTR method is verified to effectively remove PCBs. In addition, associated safety aspects of the employed procedure were confirmed.

Published

2002

20. An electronic menstrual cycle calendar: comparison of data quality with a paper version.

Author

Johannes CB, Crawford SL, Woods J, Goldstein RB, Tran D, Mehrotra S, Johnson KB, and Santoro N

Subjects

Computers, Female, Humans, Menstruation, Paper, Patient Satisfaction, Pilot Projects, Quality Control, Records, Electronics, Menstrual Cycle

Abstract

Objectives: This pilot study compared a prototype electronic menstrual calendar on a handheld computer with a paper calendar for data quality and participants' perceptions., Design: Twenty-three women completed identical information about menstrual bleeding and symptoms using paper and electronic calendars for 1 month each., Results: Use of the paper calendar resulted in more missing data than the electronic calendar for bleeding characteristics (13% vs. 4%) and symptoms (35% vs. 4%). The electronic calendar's ability to log data entries revealed retrospective entry for 61% of the data. Total data entry and cleaning time was reduced by 81% with the electronic calendar. Overall, participants preferred the electronic (70%) to the paper (22%) calendar., Conclusions: Data quality with conventional paper calendars may be poorer than recognized. The data-logging feature, unique to the electronic calendar, is critical for assessing data quality. Electronic menstrual calendars can be useful data collection tools for research in women's health.

Published

2000

21. Occupational Contact Dermatitis in the Industrial Setting

Author

Pesqué, David, Svedman, Cecilia, Giménez-Arnau, Ana M., Berth-Jones, John, Series Editor, Goh, Chee Leok, Series Editor, Maibach, Howard I., Series Editor, and Giménez-Arnau, Ana M., editor

Published

2023

22. Electrochemical paper-based devices: sensing approaches and progress toward practical applications.

Author

Noviana, Eka, McCord, Cynthia P., Clark, Kaylee M., Jang, Ilhoon, and Henry, Charles S.

Subjects

*FOOD chemistry, *PROGRESS, *TOXICITY testing, *PAPER, *TECHNOLOGICAL progress, *ELECTRONICS, *TECHNICAL specifications, *OPTICAL pumping

Abstract

Paper-based sensors offer an affordable yet powerful platform for field and point-of-care (POC) testing due to their self-pumping ability and utility for many different analytical measurements. When combined with electrochemical detection using small and portable electronics, sensitivity and selectivity of the paper devices can be improved over naked eye detection without sacrificing portability. Herein, we review how the field of electrochemical paper-based analytical devices (ePADs) has grown since it was introduced a decade ago. We start by reviewing fabrication methods relevant to ePADs with more focus given to the electrode fabrication, which is fundamental for electrochemical sensing. Multiple sensing approaches applicable to ePADs are then discussed and evaluated to present applicability, advantages and challenges associated with each approach. Recent applications of ePADs in the fields of clinical diagnostics, environmental testing, and food analysis are also presented. Finally, we discuss how the current ePAD technologies have progressed to meet the analytical and practical specifications required for field and/or POC applications, as well as challenges and outlook. [ABSTRACT FROM AUTHOR]

Published

2020

23. Pen-on-paper strategies for point-of-care testing of human health.

Author

Li, Zedong, Liu, Hao, He, Xiaocong, Xu, Feng, and Li, Fei

Subjects

*POINT-of-care testing, *MEDICAL care, *BIOSENSORS, *MICROFLUIDICS, *FOOD contamination

Abstract

Abstract Nowadays, point-of-care testing (POCT) techniques have achieved flourishing development in human health monitoring, where paper-based POCT platforms have exhibited superior properties of low cost, easy accessibility and eco-friendliness. For fabrication of paper-based POCT platforms, the pen-on-paper (PoP) strategies through directly writing desired functional materials on paper have been creatively developed in recent years. The PoP strategies are characterized by simplicity, rapid prototyping and do-it-yourself capability, and are also likely to realize scalable manufacturing through integration with software-controlled plotter. In this review, we firstly introduce various kinds of papers and pens employed in the PoP strategies, and then summarize the state-of-art advances of PoP strategies for making paper-based POCT platforms. Subsequently, we discuss the representative applications of PoP strategies for human health monitoring. Conclusions, current challenges and future perspectives of the PoP strategies for human health related POCT uses are finally given. Highlights • A variety of pens and papers involved in pen-on-paper (PoP) strategies are summarized. • The state-of-art of PoP strategies in realizing key steps involved in construction of POCT platforms are reviewed. • Representative applications of PoP strategies in human health monitoring are discussed. • Possible roadmaps can be oriented to move PoP strategies a giant step forward for human health. [ABSTRACT FROM AUTHOR]

Published

2018

24. The Effect of Humidity on Microwave Characteristics of Screen Printed Paper‐Based Electronics.

Author

Shenton, Samantha A., Cooke, Michael D., Racz, Zoltan, Balocco, Claudio, and Wood, David

Subjects

*SCREEN process printing, *HUMIDITY, *MICROWAVES, *ELECTRONICS, *COPLANAR waveguides

Abstract

This paper addresses one of the key issues in using paper electronics at microwave frequencies. As paper is hygroscopic, the varying moisture content can lead to differing dielectric and even conductive properties of paper electronics and must be taken into consideration in any device design. In this work, coplanar waveguides (CPWs) have been screen printed using silver ink on matt paper. Increasing the relative humidity between 40 and 90% is shown to increase the losses, decrease the propagation velocity and decrease the characteristic impedance of CPWs. The effect of water on both silver flake ink and the matt paper used in this work are considered, and it is shown that the change in permittivity of the substrate as a result of absorbed water within paper is the most dominant factor on the microwave characteristics. The reported findings should be considered in paper‐based applications at microwave frequencies, as the changes in transmission‐line parameters can lead to drastic variations in device and system operation. [ABSTRACT FROM AUTHOR]

Published

2018

25. Clozapine-induced myocarditis: electronic health register analysis of incidence, timing, clinical markers and diagnostic accuracy

Author

Carla M. Plymen, Theresa McDonagh, James H. MacCabe, Aviv Segev, Cecilia Casetta, Ebenezer Oloyede, Ehtesham Iqbal, and Susan Piper

Subjects

Paper, Pediatrics, medicine.medical_specialty, Myocarditis, Drug-Related Side Effects and Adverse Reactions, drug interactions and side-effects, 03 medical and health sciences, 0302 clinical medicine, Tachycardia, psychotic disorders, medicine, Humans, Antipsychotics, Clozapine, Depression (differential diagnoses), Retrospective Studies, business.industry, Incidence, Incidence (epidemiology), risk assessment, medicine.disease, General Adult, Troponin, 030227 psychiatry, schizophrenia, Psychiatry and Mental health, Esketamine, Register (music), Schizophrenia, Electronics, business, Risk assessment, Biomarkers, 030217 neurology & neurosurgery, Antipsychotic Agents, medicine.drug

Abstract

BackgroundClozapine is associated with increased risk of myocarditis. However, many common side-effects of clozapine overlap with the clinical manifestations of myocarditis. As a result, there is uncertainty about which signs, symptoms and investigations are important in distinguishing myocarditis from benign adverse effects of clozapine. Clarity on this issue is important, since missing a diagnosis of myocarditis or discontinuing clozapine unnecessarily may both have devastating consequences.AimsTo examine the clinical characteristics of clozapine-induced myocarditis and to identify which signs and symptoms distinguish true myocarditis from other clozapine adverse effects.MethodA retrospective analysis of the record database for 247 621 patients was performed. A natural language processing algorithm identified the instances of patients in which myocarditis was suspected. The anonymised case notes for the patients of each suspected instance were then manually examined, and those whose instances were ambiguous were referred for an independent assessment by up to three cardiologists. Patients with suspected instances were classified as having confirmed myocarditis, myocarditis ruled out or undetermined.ResultsOf 254 instances in 228 patients with suspected myocarditis, 11.4% (n = 29 instances) were confirmed as probable myocarditis. Troponin and C-reactive protein (CRP) had excellent diagnostic value (area under the curve 0.975 and 0.896, respectively), whereas tachycardia was of little diagnostic value. All confirmed instances occurred within 42 days of clozapine initiation.ConclusionsSuspicion of myocarditis can lead to unnecessary discontinuation of clozapine. The ‘critical period’ for myocarditis emergence is the first 6 weeks, and clinical signs including tachycardia are of low specificity. Elevated CRP and troponin are the best markers for the need for further evaluation.

Published

2021

26. USB powered microfluidic paper‐based analytical devices

Author

Cody S. Carrell, Pablo A. Kler, Charles S. Henry, Claudio Luis Alberto Berli, and Federico Schaumburg

Subjects

Paper, Computer science, Clinical Biochemistry, Microfluidics, INGENIERÍAS Y TECNOLOGÍAS, 02 engineering and technology, USB, 01 natural sciences, Biochemistry, Analytical Chemistry, law.invention, Electrolytes, Electric Power Supplies, law, Separation zone, PAPER-BASED MICROFLUIDICS, Tecnología de Laboratorios Médicos, Sensitivity (control systems), Electronics, NUMERICAL PROTOTYPING, Ingeniería Médica, Isotachophoresis, business.industry, UNIVERSAL SERIAL BUS, 010401 analytical chemistry, Equipment Design, Paper based, Microfluidic Analytical Techniques, 021001 nanoscience & nanotechnology, Sample (graphics), 0104 chemical sciences, ISOTACHOPHORESIS, 0210 nano-technology, business, Computer hardware, Communication channel

Abstract

Microfluidic paper-based analytical devices (μPADs) allow user-friendly and portable chemical determinations, although they provide limited applicability due to insufficient sensitivity. Several approaches have been proposed to address poor sensitivity in μPADs, but they frequently require bulky equipment for power and/or read-outs. Universal serial buses (USB) are an attractive alternative to less portable power sources and are currently available in many common electronic devices. Here, USB-powered μPADs (USB μPADs) are proposed as a fusion of both technologies to improve performance without adding instrumental complexity. Two ITP USB μPADs were developed, both powered by a 5 V potential provided through standard USB ports. The first device was fabricated using the origami approach. Its operation was analyzed experimentally and numerically, yielding a two-order-of-magnitude sample focusing in 15 min. The second ITP USB μPAD is a novel design, which was numerically prototyped with the aim of handling larger sample volumes. The reservoirs were moved away from the ITP channel and capillary action was used to drive the sample and electrolytes to the separation zone, predicting 25-fold sample focusing in 10 min. USB μPADs are expected to be adopted by minimally-trained personnel in sensitive areas like resource-limited settings, the point-of-care and in emergencies. Fil: Schaumburg, Federico. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Desarrollo Tecnológico para la Industria Química. Universidad Nacional del Litoral. Instituto de Desarrollo Tecnológico para la Industria Química; Argentina Fil: Kler, Pablo Alejandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Centro de Investigaciones en Métodos Computacionales. Universidad Nacional del Litoral. Centro de Investigaciones en Métodos Computacionales; Argentina Fil: Carrell, Cody S.. State University of Colorado - Fort Collins; Estados Unidos Fil: Berli, Claudio Luis Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Desarrollo Tecnológico para la Industria Química. Universidad Nacional del Litoral. Instituto de Desarrollo Tecnológico para la Industria Química; Argentina Fil: Henry, Charles S.. State University of Colorado - Fort Collins; Estados Unidos

Published

2020

27. Polymer Light Emitting Diodes Powered via Paper-Mounted Electronics.

Author

Wang, Tao, Zhang, Yiwei, Yan, Yu, Jones, Christopher G., and Lidzey, David G.

Abstract

We have interfaced an array of polymer light emitting diodes (OLEDs) fabricated onto a glass substrate to a sheet of paper via a pressure sensitive conducting adhesive. By screen printing a series of capacitive touch pads and connecting tracks onto paper using a low-cost conductive graphite ink, we are able to drive individual pixels in the OLED array via CMOS-based electronics that are also attached to the paper. Three AA batteries are used to power the CMOS electronics, touch pads and the OLED array, with pixels in the array operating at a brightness of up to 210 cd/m2. The work highlights a practical interface between plastic- and paper-based electronics. [ABSTRACT FROM PUBLISHER]

Published

2016

28. Measurement Comparability of Electronic and Paper Administration of Visual Analogue Scales: A Review of Published Studies

Author

Bill Byrom, Celeste A. Elash, Sonya Eremenco, Serge Bodart, Willie Muehlhausen, Jill V. Platko, Chris Watson, and Cindy Howry

Subjects

Paper, Visual Analog Scale, Public Health, Environmental and Occupational Health, Quality of Life, Humans, Pharmacology (medical), Electronics, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Pain Measurement

Abstract

Background Visual analogue scales (VASs) are used in a variety of patient-, observer- and clinician-reported outcome measures. While typically included in measures originally developed for pen-and-paper completion, a greater number of clinical trials currently use electronic approaches to their collection. This leads researchers to question whether the measurement properties of the scale have been conserved during the migration to an electronic format, particularly because electronic formats often use a different scale length than the 100 mm paper standard. Methods We performed a review of published studies investigating the measurement comparability of paper and electronic formats of the VAS. Results Our literature search yielded 26 studies published between 1997 and 2018 that reported comparison of paper and electronic formats using the VAS. After excluding 2 publications, 23 of the remaining 24 studies included in this review reported electronic formats of the VAS (eVAS) and paper formats (pVAS) to be equivalent. A further study concluded that eVAS and pVAS were both acceptable but should not be interchanged. eVAS length varied from 21 to 200 mm, indicating that 100 mm length is not a requirement. Conclusions The literature supports the hypothesis that eVAS and pVAS provide comparable results regardless of the VAS length. When implementing a VAS on a screen-based electronic mode, we recommend following industry best practices for faithful migration to minimise the likelihood of non-comparability with pVAS.

Published

2021

29. Bioinspired, Superhydrophobic, and Paper-Based Strain Sensors for Wearable and Underwater Applications

Author

Xiaohu Jiang, Meng Xiancun, Shichao Niu, Liu Linpeng, Zhiwu Han, Yuchen Wang, Junqiu Zhang, Zhang Changchao, Luquan Ren, and Jiao Zhibin

Subjects

Adult, Male, Paper, Materials science, Bionics, Acoustics, Movement, Wearable computer, Biosensing Techniques, Vibration, Scorpions, Wearable Electronic Devices, Biomimetics, Animals, Humans, General Materials Science, Lotus effect, Electronics, Underwater, Wearable technology, Monitoring, Physiologic, business.industry, Response time, Water, Plant Leaves, Gauge factor, Lotus, Stress, Mechanical, business, Hydrophobic and Hydrophilic Interactions

Abstract

There is currently a growing demand for flexible strain sensors with high performance and water repellency for various applications such as human motion monitoring, sweat or humidity detection, and certain underwater tests. Among these strain sensors, paper-based ones have attracted increasing attention because they coincide with the future development trend of environment-friendly electronic products. However, paper-based electronics are easy to fail when they encounter water and are thus unable to be applied to humid or underwater circumstances. Herein, based on a strategy of coupling bionics inspired by lotus leaf and scorpion, which exhibit superhydrophobic characteristics and ultrasensitive vibration-sensing capacity, respectively, a paper-based strain sensor with high sensitivity and water repellency is successfully fabricated. As a result, the strain sensor exhibits a gauge factor of 263.34, a high strain resolution (0.098%), a fast response time (78 ms), excellent stability over 12,000 cycles, and a water contact angle of 164°. Owing to the bioinspired structures and function mechanisms, the paper-based strain sensor is suitable to not only serve as regular wearable electronics to monitor human motions in real-time but also to detect subtle underwater vibrations, demonstrating its great potential for numerous applications like wearable electronics, water environmental protection, and underwater robots.

Published

2020

30. High-conductivity, stable Ag/cellulose paper prepared via in situ reduction of fractal-structured silver particles

Author

Sufeng Zhang, Pengbing Chang, Min Du, Hua Chen, Bin He, and Ye Liu

Subjects

In situ, Paper, Materials science, Silver, Polymers and Plastics, 02 engineering and technology, Conductivity, 010402 general chemistry, 01 natural sciences, Nanocomposites, chemistry.chemical_compound, Wearable Electronic Devices, Fractal, Tensile Strength, Materials Chemistry, Humans, Cotton Fiber, Cellulose, Composite material, Electrical conductor, Electrodes, Sheet resistance, Mechanical Phenomena, Organic Chemistry, Electric Conductivity, 021001 nanoscience & nanotechnology, Flexible electronics, 0104 chemical sciences, Fractals, chemistry, Electronics, 0210 nano-technology, Reduction (mathematics), Oxidation-Reduction

Abstract

Flexible electronics products have attracted wide attention because of their excellent flexibility, conductivity and stability. In this study, the liquid phase reduction method was used to in situ reduce fractal-structured silver particles (FSSPs) on cellulose surface to prepare conductive paper with excellent conductivity, and good stability and flexibility. The experimental results show that when the mass ratio of silver to cellulose was 1.5:1, the sheet resistance of conductive paper is as low as 0.02 Ω·sq−1, and the conductivity reaches 1041.33 S cm−1, which shows excellent conductivity. In order to expand the application of conductive paper in the field of flexible wearable electronic products, the mechanical stability and oxidation resistance of conductive paper were tested. The results show that the conductive paper has good stability and is expected to replace the flexible electronics products made of plastic.

Published

2020

31. Pencil-paper on-skin electronics

Author

Zanyu Chen, Yangyang Chen, Fufei An, Yun Ling, Qihui Fei, Guoliang Huang, Shinghua Ding, Qing Cao, Zheng Yan, Zhe Zhang, Ganggang Zhao, Peijun Guo, Pai-Yen Chen, Yadong Xu, and Liang Zhu

Subjects

Paper, Multidisciplinary, Materials science, Nanotechnology, Equipment Design, Pencil (optics), Wearable Electronic Devices, Electric Power Supplies, Ambient humidity, Electrode, Physical Sciences, Humans, Graphite, Electronics, Wearable Electronic Device, Electrodes, Diode, Voltage, Electronic circuit, Monitoring, Physiologic, Skin

Abstract

Pencils and papers are ubiquitous in our society and have been widely used for writing and drawing, because they are easy to use, low-cost, widely accessible, and disposable. However, their applications in emerging skin-interfaced health monitoring and interventions are still not well explored. Herein, we report a variety of pencil–paper-based on-skin electronic devices, including biophysical (temperature, biopotential) sensors, sweat biochemical (pH, uric acid, glucose) sensors, thermal stimulators, and humidity energy harvesters. Among these devices, pencil-drawn graphite patterns (or combined with other compounds) serve as conductive traces and sensing electrodes, and office-copy papers work as flexible supporting substrates. The enabled devices can perform real-time, continuous, and high-fidelity monitoring of a range of vital biophysical and biochemical signals from human bodies, including skin temperatures, electrocardiograms, electromyograms, alpha, beta, and theta rhythms, instantaneous heart rates, respiratory rates, and sweat pH, uric acid, and glucose, as well as deliver programmed thermal stimulations. Notably, the qualities of recorded signals are comparable to those measured with conventional methods. Moreover, humidity energy harvesters are prepared by creating a gradient distribution of oxygen-containing groups on office-copy papers between pencil-drawn electrodes. One single-unit device (0.87 cm(2)) can generate a sustained voltage of up to 480 mV for over 2 h from ambient humidity. Furthermore, a self-powered on-skin iontophoretic transdermal drug-delivery system is developed as an on-skin chemical intervention example. In addition, pencil–paper-based antennas, two-dimensional (2D) and three-dimensional (3D) circuits with light-emitting diodes (LEDs) and batteries, reconfigurable assembly and biodegradable electronics (based on water-soluble papers) are explored.

Published

2020

32. Electronic decision support and diarrhoeal disease guideline adherence (mHDM): a cluster randomised controlled trial

Author

Farhana Haque, Adam C. Levine, Mohammod Jobayer Chisti, Matthew J. Gurka, Firdausi Qadri, Stace Maples, Robyn L. Ball, Raduan Hossin, Eric J. Nelson, Mazharul Islam Zion, Hasnat Sujon, M Salimuzzaman, Yasmin Ara Begum, Meerjady Sabrina Flora, Dane Pieri, Debashish Biswas, Jasmine A Mack, Mahbubur Rashid, Azimuddin Ahmed, Shafiqul Alam Sarker, Ashraful Islam Khan, Kevin Bardosh, and Mahmudur Rahman

Subjects

Adult, Male, Paper, Diarrhea, medicine.medical_specialty, Technology, Adolescent, MEDLINE, Medicine (miscellaneous), Health Informatics, World Health Organization, Article, law.invention, Young Adult, Health Information Management, Randomized controlled trial, law, Medicine, Humans, Decision Sciences (miscellaneous), Cluster randomised controlled trial, Young adult, Medical prescription, Adverse effect, Child, mHealth, Decision Making, Computer-Assisted, Bangladesh, Intention-to-treat analysis, Primary Health Care, business.industry, Infant, Decision Support Systems, Clinical, Hospitals, Anti-Bacterial Agents, Prescriptions, Child, Preschool, Emergency medicine, Fluid Therapy, Administration, Intravenous, Female, Guideline Adherence, Electronics, business, Delivery of Health Care

Abstract

Summary Background Acute diarrhoeal disease management often requires rehydration alone without antibiotics. However, non-indicated antibiotics are frequently ordered and this is an important driver of antimicrobial resistance. The mHealth Diarrhoea Management (mHDM) trial aimed to establish whether electronic decision support improves rehydration and antibiotic guideline adherence in resource-limited settings. Methods A cluster randomised controlled trial was done at ten district hospitals in Bangladesh. Inclusion criteria were patients aged 2 months or older with uncomplicated acute diarrhoea. Admission orders were observed without intervention in the pre-intervention period, followed by randomisation to electronic (rehydration calculator) or paper formatted WHO guidelines for the intervention period. The primary outcome was rate of intravenous fluid ordered as a binary variable. Generalised linear mixed-effect models, accounting for hospital clustering, served as the analytical framework; the analysis was intention to treat. The trial is registered with ClinicalTrials.gov ( NCT03154229 ) and is completed. Findings From March 11 to Sept 10, 2018, 4975 patients (75·6%) of 6577 screened patients were enrolled. The intervention effect for the primary outcome showed no significant differences in rates of intravenous fluids ordered as a function of decision-support type. Intravenous fluid orders decreased by 0·9 percentage points for paper electronic decision support and 4·2 percentage points for electronic decision support, with a 4·2-point difference between decision-support types in the intervention period (paper 98·7% [95% CI 91·8–99·8] vs electronic 94·5% [72·2–99·1]; pinteraction=0·31). Adverse events such as complications and mortality events were uncommon and could not be statistically estimated. Interpretation Although intravenous fluid orders did not change, electronic decision support was associated with increases in the volume of intravenous fluid ordered and decreases in antibiotics ordered, which are consistent with WHO guidelines. Funding US National Institutes of Health.

Published

2020

33. Wearable and Implantable Epidermal Paper-Based Electronics

Author

Aniket Pal, Marina Sala de Medeiros, Ramses V. Martinez, Debkalpa Goswami, Shihuan Kuang, Beatriz Castro, and Behnam Sadri

Subjects

Paper, Materials science, Polymers, Temperature, Electrooculograms, Wearable computer, Nanotechnology, Prostheses and Implants, 02 engineering and technology, Paper based, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Wearable Electronic Devices, Physiological monitoring, Humans, General Materials Science, Electronics, Manufacturing methods, 0210 nano-technology, Laser micromachining

Abstract

Traditional manufacturing methods and materials used to fabricate epidermal electronics for physiological monitoring, transdermal stimulation, and therapeutics are complex and expensive, preventing their adoption as single-use medical devices. This work describes the fabrication of epidermal, paper-based electronic devices (EPEDs) for wearable and implantable applications by combining the spray-based deposition of silanizing agents, highly conductive nanoparticles, and encapsulating polymers with laser micromachining. EPEDs are inexpensive, stretchable, easy to apply, and disposable by burning. The omniphobic character and fibrous structure of EPEDs make them breathable, mechanically stable upon stretching, and facilitate their use as electrophysiological sensors to record electrocardiograms, electromyograms, and electrooculograms, even under water. EPEDs can also be used to provide thermotherapeutic treatments to joints, map temperature spatially, and as wirelessly powered implantable devices for stimulation and therapeutics. This work makes epidermal electronic devices accessible to high-throughput manufacturing technologies and will enable the fabrication of a variety of wearable medical devices at a low cost.

Published

2018

34. Control of Allergic Rhinitis and Asthma Test with 1-week recall: Validation of paper and electronic version

Author

Boudewijn J. Kollen, Janwillem W. H. Kocks, Bertine M. J. Flokstra-de Blok, Thys van der Molen, Ioanna Tsiligianni, Corina de Jong, Hendrik-Jan Baretta, João Fonseca, Jorn de Kroon, Ellen Van Heijst, and Groningen Research Institute for Asthma and COPD (GRIAC)

Subjects

Adult, Male, Paper, medicine.medical_specialty, Validation study, Immunology, QUESTIONNAIRE, MEDLINE, Monitoring, Ambulatory, 03 medical and health sciences, 0302 clinical medicine, Surveys and Questionnaires, Humans, Immunology and Allergy, Medicine, 030212 general & internal medicine, Letters to the Editor, Letter to the Editor, Aged, Netherlands, Asthma, Recall, business.industry, Middle Aged, medicine.disease, Rhinitis, Allergic, Test (assessment), 030228 respiratory system, Physical therapy, Female, Electronics, business

Published

2018

35. Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging

Author

Dimitri Adons, Marie Geiβler, Thomas Weissbach, Zander Henckens, Akash Verma, Katrin Kuehnoel, Mieke Buntinx, Lydia Tempel, Wim Deferme, Arved C. Hübler, Wouter Van Rompaey, Roos Peeters, Eleonora Ferraris, Jarne Machiels, Raf Appeltans, Elien Segers, Dieter Klaus Bauer, and Publica

Subjects

Technology, paper substrate, Computer science, Materials Science, Active packaging, Materials Science, Multidisciplinary, e-fulfilment, Substrate (printing), Article, Physics, Applied, antenna, recyclability, SYSTEMS, transport simulation, Radio-frequency identification, General Materials Science, Electronics, Microscopy, QC120-168.85, Science & Technology, Inkwell, Chemistry, Physical, business.industry, Physics, QH201-278.5, screen printing, cardboard, Engineering (General). Civil engineering (General), Chip, intelligent packaging, TK1-9971, Chemistry, Descriptive and experimental mechanics, Physics, Condensed Matter, visual_art, Physical Sciences, Screen printing, PAPER, visual_art.visual_art_medium, Metallurgy & Metallurgical Engineering, Electrical engineering. Electronics. Nuclear engineering, TA1-2040, radio frequency identification (RFID), business, RESISTANCE, Computer hardware

Abstract

Intelligent packaging is an emerging technology, aiming to improve the standard communication function of packaging. Radio frequency identification (RFID) assisted smart packaging is of high interest, but the uptake is limited as the market needs cost-efficient and sustainable applications. The integration of screen printed antennas and RFID chips as smart labels in reusable cardboard packaging could offer a solution. Although paper is an interesting and recyclable material, printing on this substrate is challenging as the ink conductivity is highly influenced by the paper properties. In this study, the best paper/functional silver ink combinations were first selected out of 76 paper substrates based on the paper surface roughness, air permeance, sheet resistance and SEM characterization. Next, a flexible high frequency RFID chip (13.56 MHz) was connected on top of screen printed antennas with a conductive adhesive. Functional RFID labels were integrated in cardboard packaging and its potential application as reusable smart box for third party logistics was tested. In parallel, a web-based software application mimicking its functional abilities in the logistic cycle was developed. This multidisciplinary approach to developing an easy-scalable screen printed antenna and RFID-assisted smart packaging application is a good example for future implementation of hybrid electronics in sustainable smart packaging. ispartof: MATERIALS vol:14 issue:19 ispartof: location:Switzerland status: published

Published

2021

36. Nanostructured paper for flexible energy and electronic devices.

Author

Zheng, Guangyuan, Cui, Yi, Karabulut, Erdem, Wågberg, Lars, Zhu, Hongli, and Hu, Liangbing

Subjects

ELECTRONIC equipment, ELECTRONICS, PHYSICS instruments, PAPER, FIBERS

Abstract

Cellulose is one of the most abundant organic materials on earth, and cellulose paper is ubiquitous in our daily life. Re-engineering cellulose fibers at the nanoscale will allow this renewable material to be applied to advanced energy storage systems and optoelectronic devices. In this article, we examine the recent development of nanofibrillated cellulose and discuss how the integration of other nanomaterials leads to a wide range of applications. The unique properties of nanofibrillated cellulose enable multi-scale structuring of the functional composites, which can be tailored to develop new concepts of energy and electronic devices. Tapping into the nanostructured materials offered by nature can offer many opportunities that will take nanotechnology research to a new level. [ABSTRACT FROM AUTHOR]

Published

2013

37. Application of Paper-Supported Printed Gold Electrodes for Impedimetric Immunosensor Development.

Author

Ihalainen, Petri, Majumdar, Himadri, Viitala, Tapani, Törngren, Björn, Närjeoja, Tuomas, Määttänen, Anni, Sarfraz, Jawad, Härmä, Harri, Yliperttula, Marjo, Österbacka, Ronald, and Peltonen, Jouko

Subjects

GOLD electrodes, PAPER, ELECTRONICS, NANOPARTICLES, PRINTING, IMMUNOASSAY, IMPEDANCE spectroscopy

Abstract

In this article, we report on the formation and mode-of-operation of an affinity biosensor, where alternate layers of biotin/streptavidin/biotinylated-CRP-antigen/anti-CRP antibody are grown on printed gold electrodes on disposable paper-substrates. We have successfully demonstrated and detected the formation of consecutive layers of supra-molecular protein assembly using an electrical (impedimetric) technique. The formation process is also supplemented and verified using conventional surface plasmon resonance (SPR) measurements and surface sensitive characterization techniques, such as X-ray photoelectron spectroscopy (XPS) and atomic force microscopy (AFM). The article provides a possible biosensor development scheme, where--(1) fabrication of paper substrate (2) synthesis of gold nanoparticle inks (3) inkjet printing of gold electrodes on paper (4) formation of the biorecognition layers on the gold electrodes and (5) electrical (impedimetric) analysis of growth--all are coupled together to form a test-structure for a recyclable and inexpensive point-of-care diagnostic platform. [ABSTRACT FROM AUTHOR]

Published

2013

38. Swiping paper: the second hand, mundane artifacts, gesture and collaboration.

Author

Luff, Paul, Pitsch, Karola, Heath, Christian, Herdman, Peter, and Wood, Julian

Subjects

*PAPER, *BUSINESS partnerships, *ELECTRONICS, *TECHNOLOGY, *ANTIQUITIES

Abstract

It is widely recognised that paper remains a pervasive resource for collaboration and yet there has been uncertain progress in developing technologies that aim to enhance paper documents with computational capabilities. In this article, we discuss the design of a technology that interweaves developments in hardware and materials, electronics and software, and seeks to create new affinities between digital content and paper. The design of the technology drew from findings from naturalistic studies of the uses of paper, particularly when considering how ‘users’ might ‘interact’ with the augmented technology. We briefly review these studies and discuss the results of an evaluation of the emerging technology. Analysis of the fine details of the conduct of participants in these assessments suggest how, even when we design simple forms of interaction with a device, these can be shaped and transformed by the participation and collaboration of others. [ABSTRACT FROM AUTHOR]

Published

2010

39. Factors That Influence the Use of Electronic Diaries in Health Care: Scoping Review

Author

Catherine van Zelst, Naomi E M Daniëls, Anna Beurskens, Laura M. J. Hochstenbach, Philippe Delespaul, and Marloes A van Bokhoven

Subjects

Coping (psychology), INFORMATION, 020205 medical informatics, PROFESSIONALS, media_common.quotation_subject, Applied psychology, Health Informatics, Information technology, Review, 02 engineering and technology, PsycINFO, compliance, 03 medical and health sciences, 0302 clinical medicine, motivation, FACILITATORS, Health care, IMPLEMENTATION, 0202 electrical engineering, electronic engineering, information engineering, Humans, TECHNOLOGY, 030212 general & internal medicine, media_common, business.industry, delivery of health care, ecological momentary assessment, ACCEPTANCE, T58.5-58.64, LIFE, Mood, intention, CLINICAL-PRACTICE, Content analysis, PAPER, Health Facilities, diary, scoping review, Psychological resilience, Implementation research, Public aspects of medicine, RA1-1270, Electronics, REPORTED OUTCOME MEASURES, business, Psychology, Psychosocial

Abstract

Background A large number of people suffer from psychosocial or physical problems. Adequate strategies to alleviate needs are scarce or lacking. Symptom variation can offer insights into personal profiles of coping and resilience (detailed functional analyses). Hence, diaries are used to report mood and behavior occurring in daily life. To reduce inaccuracies, biases, and noncompliance with paper diaries, a shift to electronic diaries has occurred. Although these diaries are increasingly used in health care, information is lacking about what determines their use. Objective The aim of this study was to map the existing empirical knowledge and gaps concerning factors that influence the use of electronic diaries, defined as repeated recording of psychosocial or physical data lasting at least one week using a smartphone or a computer, in health care. Methods A scoping review of the literature published between January 2000 and December 2018 was conducted using queries in PubMed and PsycInfo databases. English or Dutch publications based on empirical data about factors that influence the use of electronic diaries for psychosocial or physical purposes in health care were included. Both databases were screened, and findings were summarized using a directed content analysis organized by the Consolidated Framework for Implementation Research (CFIR). Results Out of 3170 articles, 22 studies were selected for qualitative synthesis. Eleven themes were determined in the CFIR categories of intervention, user characteristics, and process. No information was found for the CFIR categories inner (eg, organizational resources, innovation climate) and outer (eg, external policies and incentives, pressure from competitors) settings. Reminders, attractive designs, tailored and clear data visualizations (intervention), smartphone experience, and intrinsic motivation to change behavior (user characteristics) could influence the use of electronic diaries. During the implementation process, attention should be paid to both theoretical and practical training. Conclusions Design aspects, user characteristics, and training and instructions determine the use of electronic diaries in health care. It is remarkable that there were no empirical data about factors related to embedding electronic diaries in daily clinical practice. More research is needed to better understand influencing factors for optimal electronic diary use.

Published

2021

40. Growth and characterization of 3C-SiC and 2H-AlN/GaN films and devices produced on step-free 4H-SiC mesa substrates.

Author

P G Neudeck, H Du, M Skowronski, D J Spry, and A J Trunek

Subjects

*PAPER, *ELECTRONIC equipment, *DIODES, *MESAS, *ELECTRONICS

Abstract

While previously published experimental results have shown that the step-free (0 0 0 1) 4H-SiC mesa growth surface uniquely enables radical improvement of 3C-SiC and 2H-AlN/GaN heteroepitaxial film quality (>100-fold reduction in extended defect densities), important aspects of the step-free mesa heterofilm growth processes and resulting electronic device benefits remain to be more fully elucidated. This paper reviews and updates recent ongoing studies of 3C-SiC and 2H-AlN/GaN heteroepilayers grown on top of 4H-SiC mesas. For both 3C-SiC and AlN/GaN films nucleated on 4H-SiC mesas rendered completely free of atomic-scale surface steps, TEM studies reveal that relaxation of heterofilm strain arising from in-plane film/substrate lattice constant mismatch occurs in a remarkably benign manner that avoids formation of threading dislocations in the heteroepilayer. In particular, relaxation appears to occur via nucleation and inward lateral glide of near-interfacial dislocation half-loops from the mesa sidewalls. Preliminary studies of homojunction diodes implemented in 3C-SiC and AlN/GaN heterolayers demonstrate improved electrical performance compared with much more defective heterofilms grown on neighbouring stepped 4H-SiC mesas. Recombination-enhanced dislocation motion known to degrade forward-biased 4H-SiC bipolar diodes has been completely absent from our initial studies of 3C-SiC diodes, including diodes implemented on defective 3C-SiC heterolayers grown on stepped 4H-SiC mesas. [ABSTRACT FROM AUTHOR]

Published

2007

41. Fast and Efficient Bright-Field AAPSM Conflict Detection and Correction.

Author

Charles Chiang, Kahng, Andrew B., Sinha, Subarnarekha, Xu, Xu, and Zelikovsky, Alexander Z.

Subjects

*ELECTRONIC equipment, *ELECTRONICS, *HOLES, *TECHNICAL specifications, *PAPER

Abstract

Alternating-aperture phase shift masking (AAPSM), a form of strong resolution enhancement technology, will be used to image critical features on the polysilicon layer at smaller technology nodes. This technology imposes additional constraints on the layouts beyond traditional design rules. Of particular note is the requirement that all critical features be flanked by opposite-phase shifters while the shifters obey minimum width and spacing requirements. A layout is called phase assignable if it satisfies this requirement. Phase conflicts have to be removed to enable the use of AAPSM for layouts that are not phase assignable. Previous work has sought to detect a suitable set of phase conflicts to be removed as well as correct them. This paper has two key contributions: 1) a new computationally efficient approach to detect a minimal set of phase conflicts, which when corrected will produce a phase-assignable layout, and 2) a novel layout modification scheme for correcting these phase conflicts with small layout area increase. Unlike previous formulations of this problem, the proposed solution for the conflict detection problem does not frame it as a graph bipartization problem. Instead, a simpler and more computationally efficient reduction is proposed. This simplification greatly improves the runtime while maintaining the same improvements in the quality of results obtained in Chiang et al. (Proc. DATE, 2005, p. 908). An average runtime speedup of 5.9× is achieved using the new flow. A new layout modification scheme suited for correcting phase conflicts in large standard-cell blocks is also proposed. The experiments show that the percentage area increase for making standard-cell blocks phase assignable ranges from 1.7% to 9.1%. [ABSTRACT FROM AUTHOR]

Published

2007

42. Paper or Plastic? Data Equivalence in Paper and Electronic Diaries.

Author

Green, Amie S., Bolger, Niall, Shrout, Patrick E., Rafaeli, Eshkol, and Reis, Harry T.

Subjects

DIARY (Literary form), PAPER, CONFORMITY, COOPERATIVENESS, ELECTRONICS, PSYCHOMETRICS, TRUTHFULNESS & falsehood

Abstract

Concern has been raised about the lack of participant compliance in diary studies that use paper-and-pencil as opposed to electronic formats. Three studies explored the magnitude of compliance problems and their effects on data quality. Study I used random signals to elicit diary reports and found close matches to self-reported completion times, matches that could not plausibly have been fabricated. Studies 2 and 3 examined the psychometric and statistical equivalence of data obtained with paper versus electronic formats. With minor exceptions. both methods yielded data that were equivalent psychometrically and in patterns of findings. These results serve to at least partially mollify concern about the validity of paper diary methods. [ABSTRACT FROM AUTHOR]

Published

2006

43. Electrochemical paper-based devices: sensing approaches and progress toward practical applications

Author

Eka Noviana, Ilhoon Jang, Charles S. Henry, Kaylee M. Clark, and Cynthia P. McCord

Subjects

Paper, Computer science, 010401 analytical chemistry, Biomedical Engineering, Bioengineering, 02 engineering and technology, General Chemistry, Paper based, Electrochemical detection, Electrochemical Techniques, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Field (computer science), 0104 chemical sciences, Electrode fabrication, Software portability, Point-of-Care Testing, Fabrication methods, Lab-On-A-Chip Devices, Systems engineering, Humans, Electronics, Sensitivity (control systems), 0210 nano-technology

Abstract

Paper-based sensors offer an affordable yet powerful platform for field and point-of-care (POC) testing due to their self-pumping ability and utility for many different analytical measurements. When combined with electrochemical detection using small and portable electronics, sensitivity and selectivity of the paper devices can be improved over naked eye detection without sacrificing portability. Herein, we review how the field of electrochemical paper-based analytical devices (ePADs) has grown since it was introduced a decade ago. We start by reviewing fabrication methods relevant to ePADs with more focus given to the electrode fabrication, which is fundamental for electrochemical sensing. Multiple sensing approaches applicable to ePADs are then discussed and evaluated to present applicability, advantages and challenges associated with each approach. Recent applications of ePADs in the fields of clinical diagnostics, environmental testing, and food analysis are also presented. Finally, we discuss how the current ePAD technologies have progressed to meet the analytical and practical specifications required for field and/or POC applications, as well as challenges and outlook.

Published

2019

44. 'All-in-Gel' design for supercapacitors towards solid-state energy devices with thermal and mechanical compliance

Author

Xinhua Liu, Chengyao Yin, Mengzheng Ouyang, Billy Wu, Rui Tan, Junjie Wei, Huizhi Wang, Samuel J. Cooper, Qigang Wang, Jie Zhou, Chandramohan George, Engineering & Physical Science Research Council (EPSRC), Engineering & Physical Science Research Council (E, and Innovate UK

Subjects

GRAPHENE, Technology, Materials science, Energy & Fuels, Composite number, Materials Science, Materials Science, Multidisciplinary, 02 engineering and technology, Electrolyte, 0915 Interdisciplinary Engineering, Capacitance, chemistry.chemical_compound, ELECTRONICS, Ionic conductivity, General Materials Science, 0912 Materials Engineering, Supercapacitor, Science & Technology, Renewable Energy, Sustainability and the Environment, Chemistry, Physical, General Chemistry, 0303 Macromolecular and Materials Chemistry, 021001 nanoscience & nanotechnology, Chemistry, chemistry, Chemical engineering, Ionic liquid, Electrode, Physical Sciences, PAPER, 0210 nano-technology, Current density, ELECTROLYTE

Abstract

Ionogels are semi-solid, ion conductive and mechanically compliant materials that hold promise for flexible, shape-conformable and all-solid-state energy storage devices. However, identifying facile routes for manufacturing ionogels into devices with highly resilient electrode/electrolyte interfaces remains a challenge. Here we present a novel all-in-gel supercapacitor consisting of an ionogel composite electrolyte and bucky gel electrodes processed using a one-step method. Compared with the mechanical properties and ionic conductivities of pure ionogels, our composite ionogels offer enhanced self-recovery (retaining 78% of mechanical robustness after 300 cycles at 60% strain) and a high ionic conductivity of 8.7 mS cm−1, which is attributed to the robust amorphous polymer phase that enables facile permeation of ionic liquids, facilitating effective diffusion of charge carriers. We show that development of a supercapacitor with these gel electrodes and electrolytes significantly improves the interfacial contact between electrodes and electrolyte, yielding an area specific capacitance of 43 mF cm−2 at a current density of 1.0 mA cm−2. Additionally, through this all-in-gel design a supercapacitor can achieve a capacitance between 22–81 mF cm−2 over a wide operating temperature range of −40 °C to 100 °C at a current density of 0.2 mA cm−2.

Published

2019

45. Disposable electrodes from waste materials and renewable sources for (bio) electroanalytical applications

Author

Giulia Moro, Ligia Maria Moretto, Fabio Bottari, Karolien De Wael, Els Du Bois, Joren Van Loon, Moro, G., Bottari, F., Van Loon, J., Du Bois, E., De Wael, K., and Moretto, L. M.

Subjects

Engineering, Electrode, 02 engineering and technology, Screen-printed electrodes, Biosensing Techniques, Reuse, 01 natural sciences, Electronic waste, Limit of Detection, Electrochemistry, Settore CHIM/01 - Chimica Analitica, Recycling, Process engineering, Recycled electrode, CDtrodes, Physics, General Medicine, Equipment Design, 021001 nanoscience & nanotechnology, Recycled electrodes, Renewable energy, Disposable electrodes, e-waste, Paper-based electrodes, Electrochemical Techniques, Electrodes, Green Chemistry Technology, Industrial Waste, Paper, Chemistry, Screen-printed electrode, Disposable electrode, 0210 nano-technology, Engineering sciences. Technology, Biotechnology, Disposable electrodes Screen-printed electrodes Paper-based electrodes CDtrodes Recycled electrodes e-waste, Biomedical Engineering, Biophysics, Industrial waste, Biosensing Technique, Paper-based electrode, Electronics, Biology, Electrochemical Technique, business.industry, 010401 analytical chemistry, Paper based, 0104 chemical sciences, business, CDtrode

Abstract

The numerous advantages of disposable and screen-printed electrodes (SPEs) particularly in terms of portability, sensibility, sensitivity and low-cost led to the massive application of these electroanalytical devices. To limit the electronic waste and recover precious materials, new recycling processes were developed together with alternative SPEs fabrication procedures based on renewable, biocompatible sources or waste materials, such as paper, agricultural byproducts or spent batteries. The increased interest in the use of eco-friendly materials for electronics has given rise to a new generation of highly performing green modifiers. From paper based electrodes to disposable electrodes obtained from CD/DVD, in the last decades considerable efforts were devoted to reuse and recycle in the field of electrochemistry. Here an overview of recycled and recyclable disposable electrodes, sustainable electrode modifiers and alternative fabrication processes is proposed aiming to provide meaningful examples to redesign the world of disposable electrodes.

Published

2019

46. Fabrication of low cost and low impact RH and temperature sensors for the internet of environmental-friendly things

Author

Paolo Lugli, Philipp S. Sackenheim, Aniello Falco, Jose F. Salmeron, Francisco J. Romero, Markus Becherer, and Almudena Rivadeneyra

Subjects

Paper, Materials science, Fabrication, Context (language use), 02 engineering and technology, Substrate (printing), 010402 general chemistry, 7. Clean energy, 01 natural sciences, PSS [PEDOT], General Materials Science, Electronics, Sensitivity (control systems), Process engineering, Screen-printing, Flexibility (engineering), business.industry, Mechanical Engineering, Temperature, Humidity, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Environmentally friendly, Carbon, 0104 chemical sciences, Mechanics of Materials, PVA, The Internet, 0210 nano-technology, business

Abstract

Given the increasing number of connected devices as a consequence of the Internet of Things (IoT) revolution, the issue of the removal and recycling of electronics is becoming more and more urgent. In this context, biodegradable electronics is expected to be one of the biggest technological revolutions to tackle this problem. Following this direction, in this work we present the fabrication and characterization of temperature and humidity sensors based on biodegradable materials with the goal of making their removal easier as well as reducing their environmental impact. In particular, these multi-sensing devices were fabricated following a screen-printing process using a carbon-based paste and a conjugated polymer, both on paper and on a water soluble substrate. The results are more than promising and show how with our biodegradable sensors it is possible to obtain a sensitivity of 1 dec/20%RH to moisture content and around 0.04%/°C sensitivity to temperature. It is demonstrated that the simplicity and flexibility of the fabrication approach followed in this work paves the way to a set of new “green” IoT nodes that could be extended to wide range of sensing applications.

Published

2021

47. Meetings of the Board: The Impact of Scheduling Medium on Long Term Group Coordination in Software Development.

Author

Whittaker, Steve and Schwarz, Heinrich

Subjects

*COMPUTER software development, *ELECTRONICS, *TECHNOLOGY, *PRODUCTION scheduling, *COMPUTER-supported cooperative work

Abstract

Despite a wealth of electronic group tools for coordinating the software development process, instead we find technologically adept groups preferring to use what seem to be outmoded ”material„ tools in critical projects. The current ethnographic study investigates this apparent paradox. We begin by building up a detailed picture of the overall software development process and identify critical general problems in achieving coordination. Coordination problems arise in software development not only because of the complex dependencies that hold among the work of different individuals, but also for social and motivational reasons. We identify the central role of the schedule as a coordination device, but find that its value can be undermined because the schedule is often neither accurate, current nor credible. As a result, the schedule is not used as a resource for individual or group planning. We then compare coordination in two development groups, one using electronic and the other material scheduling tools. We found that the medium of the schedule has a major impact on coordination problems. The size, public location and physical qualities of material tools engender certain crucial group processes that current electronic technologies fail to support. A large wallboard located in a public area encouraged greater responsibility, commitment and updating and its material properties served to encourage more reflective planning. As a result the wallboard schedule was both accurate and current. Furthermore, the public nature of the wallboard promoted group interaction around the board, it enabled collaborative problem solving, as well as informing individuals about the local and global progress of the project. Despite these benefits, however, the material tool fell short on several other dimensions such as distribution, complex dependency tracking, and versioning. We make design recommendations about how the benefits of material tools could be incorporated into electronic groupware systems and discuss the theoretical implications of this work. [ABSTRACT FROM AUTHOR]

Published

1999

48. A three-dimensionally chitin nanofiber/carbon nanotube hydrogel network for foldable conductive paper

Author

Chuchu Chen, Chuang Yang, Suiyi Li, and Dagang Li

Subjects

Paper, Nanocomposite, Materials science, Polymers and Plastics, Electron channel, Nanotubes, Carbon, Organic Chemistry, Electric Conductivity, Nanofibers, Chitin, Carbon nanotube, Conductivity, Hydrogel, Polyethylene Glycol Dimethacrylate, law.invention, chemistry.chemical_compound, chemistry, law, Electrical resistivity and conductivity, Nanofiber, Materials Chemistry, Desiccation, Electronics, Composite material, Electrical conductor

Abstract

We reported a highly conductive nanocomposite made with multiwalled carbon nanotubes (MWCNTs) and chitin nanofibers (ChNFs). The MWCNTs were dispersed into ChNFs by the simple process of vacuum-filtration, forming a three-dimensional network structure. In this approach, MWCNT acted as a filler to introduce electron channel paths throughout the ChNF skeleton. And then, a hybrid hydrogel system (20 wt.% NaOH, -18 °C) was applied to prepare the ChNF/MWCNT gel-film followed with drying process. It is found that the resultant ChNF/MWCNT gel-film exposed much more MWCNT areas forming denser structure due to the shrinking of ChNFs after the gelation treatment. Compared with ChNF/MWCNT film, the one treated under hydrogel system (ChNF/MWCNT gel-film) exhibited almost twice higher conductivity (9.3S/cm for 50 wt.% MWCNTs in gel-film; whereas 4.7S/cm for 50 wt.% MWCNTs in film). Moreover, the facile and low-cost of this conductive paper may have great potential in development of foldable electronic devices.

Published

2015

49. Paper Need Not Be Flat: Paper and Biomaterials Industries Need to Converge to Bring about True Innovation

Author

Margaret Joyce and Lokendra Pal

Subjects

Engineering, Environmental Engineering, business.industry, lcsh:Biotechnology, 010401 analytical chemistry, Sustainable housing, Mechanical engineering, 3D printing, Bioengineering, 02 engineering and technology, Paper, Biomaterials, Nanocellulose, 3D Printing, Additive Manufacturing, Flexible Hybrid Electronics, Smart Sensors, Displays, Nature Homes, 021001 nanoscience & nanotechnology, 01 natural sciences, Manufacturing engineering, 0104 chemical sciences, lcsh:TP248.13-248.65, Environmental impact assessment, Electronics, 0210 nano-technology, business, Waste Management and Disposal

Abstract

Biomaterials and new processes (3D printing and flexible hybrid electronics) offer opportunities to break free from a 2D paper world by allowing for the development of smart multi-dimensional structures. While there has been recent progress reported in each of these areas of technology, to date, the merger of these technologies has been very limited. We believe that their merger offers boundless opportunities and an opportunity for the paper industry to innovate a low cost, sustainable housing solution capable of promoting the well-being of its occupants while minimizing the environmental impact of its daily use.

Published

2017

50. Silicon on insulator achieved using electrochemical etching

Author

McCarthy, Anthony [Menlo Park, CA]

Published

1997