Showing total 33,771 results

1. A paper based graphene-nanocauliflower hybrid composite for point of care biosensing

Author

Eric S. McLamore, Yue Rong, Jonathan C. Claussen, Carmen L. Gomes, S. L. Burrs, R. Sidhu, J. Kiernan-Lewis, D. C. Vanegas, N. Schwalb, and M. Bhargava

Subjects

Materials science, biology, Graphene, Nanotechnology, law.invention, Dielectric spectroscopy, Nanocellulose, law, biology.protein, Glucose oxidase, Cyclic voltammetry, Biochip, Biosensor, Graphene oxide paper

Abstract

Graphene paper has diverse applications in printed circuit board electronics, bioassays, 3D cell culture, and biosensing. Although development of nanometal-graphene hybrid composites is commonplace in the sensing literature, to date there are only a few examples of nanometal-decorated graphene paper for use in biosensing. In this manuscript, we demonstrate the synthesis and application of Pt nano cauliflower-functionalized graphene paper for use in electrochemical biosensing of small molecules (glucose, acetone, methanol) or detection of pathogenic bacteria ( Escherichia coli O157:H7). Raman spectroscopy, scanning electron microscopy and energy dispersive spectroscopy were used to show that graphene oxide deposited on nanocellulose crystals was partially reduced by both thermal and chemical treatment. Fractal platinum nanostructures were formed on the reduced graphene oxide paper, producing a conductive paper with an extremely high electroactive surface area, confirmed by cyclic voltammetry and electrochemical impedance spectroscopy. To show the broad applicability of the material, the platinum surface was functionalized with three different biomaterials: 1) glucose oxidase (via chitosan encapsulation); 2) a DNA aptamer (via covalent linking), or 3) a chemosensory protein (via his linking). We demonstrate the application of this device for point of care biosensing. The detection limit for both glucose (0.08 ± 0.02 μM) and E. coli O157:H7 (1.3 ± 0.1 CFU mL -1 ) were competitive with, or superior to, previously reported devices in the biosensing literature. The response time (6 sec for glucose and 10 min for E. coli ) were also similar to silicon biochip and commercial electrode sensors. The results demonstrate that the nanocellulose-graphene-nanoplatinum material is an excellent paper-based platform for development of electrochemical biosensors targeting small molecules or whole cells for use in point of care biosensing.

Published

2016

2. Multispectral imaging: an application to density measurement of photographic paper in the manufacturing process control

Author

Jon Yngve Hardeberg and Raju Shrestha

Subjects

Computer science, business.industry, Manufacturing process, Multispectral image, Reflectivity, law.invention, LED lamp, Quality (physics), law, Computer vision, Densitometer, Artificial intelligence, business, Photographic paper, Remote sensing

Abstract

In this paper, we present an industrial application of multispectral imaging, for density measurement of colorants in photographic paper. We designed and developed a 9-band LED illumination based multispectral imaging system specifically for this application in collaboration with FUJIFILM Manufacturing Europe B.V., Tilburg, Netherlands. Unlike a densitometer, which is a spot density measurement device, the proposed system enables fast density measurement in a large area of a photo paper. Densities of the four colorants (CMYK) at every surface point in an image are calculated from the spectral reflectance image. Fast density measurements facilitate automatic monitoring of density changes (which is proportional to thickness changes), which helps control the manufacturing process for quality and consistent output. Experimental results confirm the effectiveness of the proposed system.

Published

2015

3. Colorimetric detection for paper-based biosensing applications

Author

C. Brink and Trudi-Heleen Joubert

Subjects

Engineering, business.industry, law.invention, LED lamp, law, Computer data storage, Global Positioning System, RGB color model, Instrumentation (computer programming), business, Biosensor, Computer hardware, EEPROM, Point of care

Abstract

Research on affordable point-of-care health diagnostics is rapidly advancing1. Colorimetric biosensor applications are typically qualitative, but recently the focus has been shifted to quantitative measurements2,3. Although numerous qualitative point-of-care (POC) health diagnostic devices are available, the challenge exists of developing a quantitative colorimetric array reader system that complies with the ASSURED (Affordable, Sensitive, Specific, User-friendly, Rapid and Robust, Equipment-free, Deliverable to end-users) principles of the World Health Organization4. This paper presents a battery powered 8-bit tonal resolution colorimetric sensor circuit for paper microfluidic assays using low cost photo-detection circuitry and a low-power LED light source. A colorimetric 3×3-pixel array reader was developed for rural environments where resources and personnel are limited. The device sports an ultralow-power E-ink paper display. The colorimetric device includes integrated GPS functionality and EEPROM memory to log measurements with geo-tags for possible analysis of regional trends. The device competes with colour intensity measurement techniques using smartphone cameras, but proves to be a cheaper solution, compensating for the typical performance variations between cameras of different brands of smartphones. Inexpensive methods for quantifying bacterial assays have been shown using desktop scanners, which are not portable, and cameras, which suffer severely from changes in ambient light in different environments. Promising colorimetric detection results have been demonstrated using devices such as video cameras5, digital colour analysers6, flatbed scanners7 or custom portable readers8. The major drawback of most of these methods is the need for specialized instrumentation and for image analysis on a computer.

Published

2017

4. Laser paper cleaning: the method of cleaning historical books

Author

Alexander A. Serafetinides, Elias Chatzitheodoridis, E. Zekou, and Ioannis Tsilikas

Subjects

High concentration, Materials science, Sample (material), Nanotechnology, Laser, 01 natural sciences, Engineering physics, law.invention, 010309 optics, Cultural heritage, law, Nd:YAG laser, 0103 physical sciences, Ulocladium chartarum, 010306 general physics, Laser light

Abstract

Conservation of cultural heritage treasures is the most important issue for transferring knowledge to the public through the next generation of students, academics, and researchers. Although this century is authenticating e-books and information by means of electronic text, still historical manuscripts as content as well as objects are the main original recourses of keeping a record of this transformation. The current work focuses on cleaning paper samples by the application of pulsed light, which is interventional. Experiments carried out using paper samples that are artificially colonized with Ulocladium chartarum. Paper is treated by Nd:YAG laser light. The available wavelength is 1064 nm, at various fluences, repetition rates and number of pulses. Two types of paper are stained with fungi colonies, which grow on substrates of clean paper, as well as on paper with ink text. The first type of paper is Whatman No.1056, which is closer to pure cellulose. The second type of paper is a page of a cultural heritage book published in 1926. Cleaning is performed using laser irradiation, thus defining the damage threshold of each sample. The treatment on paper Watman showed a yellowing, especially on areas with high concentration of fungi. The second sample was more durable to the exposure, performing the best results at higher fluences. Eventually, the paper samples are characterized, with optical microscopy and SEM/EDX analyses, prior to and after cleaning.

Published

2017

5. Middle infrared hyperspectral imaging of adhesives, varnishes and inks on Al plate and papers by using a bolometer camera and an imaging type interferometer

Author

Yoshihiko Nakayama, Shigeru Sugawara, Yasuyuki Tsutsui, Ichiro Ishimaru, Hideya Taniguchi, Tsubasa Saito, and Mitsuhiro Yoshida

Subjects

Chemical imaging, Materials science, business.industry, Bolometer, Michelson interferometer, Hyperspectral imaging, law.invention, Interferometry, chemistry.chemical_compound, Optics, chemistry, law, Astronomical interferometer, Optoelectronics, Mercury cadmium telluride, Fourier transform infrared spectroscopy, business

Abstract

We built a hyperspectral imaging apparatus using middle-infrared light of 8–14 μm, which has a strong ability to identify organic materials, and attempted visualization of the distribution of organic materials that could not be identified by a naked eye. For this purpose, we utilized a low-cost bolometer camera (Nippon Avionics co., ltd. C100V, Japan) for its easy availability rather than an expensive mercury cadmium telluride (MCT) array sensor. To compensate for the low sensitivity of this bolometer, we adopted a Fourier-type spectroscopic system (Aoi Electronics co. ltd., Japan) using an imaging interferometer devised by the Kagawa University, Japan; this interferometer has higher light-utilization efficiency than Michelson interferometers, which are used in popular interferometry techniques. In this study, 4 types of adhesives, 9 types of varnishes and more than 50 types of inks were put on Al plates of size 10 cm × 10 cm and were used as samples. Glossy paper for printing photos with an inkjet printer was also used as a sample. A 300 °C black body of size 15 cm × 15 cm was used as a light source. Spectra of 320 × 240 points were measured at a wavelength resolution of approximately 9 cm−1. The mirror was scanned only once. The measurement time was approximately 30 s. Hyperspectral images of adhesives, varnishes and inks on Al plate and paper were successfully measured. Spectra over a 5 × 5-pixel neighborhoods were averaged, and the averaged spectra were compared with those measured by a commercially available Fourier transform infrared (FTIR) spectroscopy. The averaged and measured spectra had absorption peaks at the same wavelengths. Furthermore, by analyzing the measured spectra, the distribution of substances invisible to the naked eye was visualized. Our results show that if low-absorbance organic materials are put on a high-reflectance surface such as an Al plate, the middle-infrared hyperspectral imaging could be measured using a bolometer. Additionally, hyperspectral imaging of high-reflectance paper, such as glossy paper, could also be measured. Because a bolometer camera is much cheaper than an MCT array, hyperspectral imaging with such a camera has many potential applications. Moreover, an imaging interferometer, with its high efficiency of light utilization, is very suitable for the purpose.

Published

2016

6. Study on paper's basis weight measurement method by double monochromatic light sources

Author

Lili Zhang, Jing-Ji Wen, Changtao Mo, Zhidan Xu, Shuai Huan, Guangming Wang, Ming Wang, Hailin Su, and Jia Lv

Subjects

Infrared, business.industry, Chemistry, law.invention, Wavelength, Optical path, Optics, law, Modulation, Electrical equipment, Nondestructive testing, Optoelectronics, Monochromatic color, business, Light-emitting diode

Abstract

Given monochromatic infrared LED (light emitting diode) device best modulation current, frequency, distance to reach its maximum output power and improve the measuring accuracy of quantifier. Design a wavelength of 2.12 μm, 1.89 μm monochromatic infrared emissions and detection optical path, two monochromatic infrared lights which the photo source sends out after transmits the analyte across the same point to achieve the same point detection and improve the accuracy of the measurement. After the paper samples basis weight have carried out nondestructive testing, which was improved from the aspects of structure. By using the light source, halogen tungsten lamp, filter wheel, electrical equipment can be saved, and it can simplify the measuring system. The experimental results show that when measuring the thickness of the paper in the range, the relative error is within 1%.

Published

2016

7. A flexible future for paper-based electronics

Author

Tongfen Liang, Xiyue Zou, and Aaron D. Mazzeo

Subjects

Computer science, Microfluidics, Transistor, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Energy storage, 0104 chemical sciences, law.invention, chemistry.chemical_compound, chemistry, law, visual_art, Electrode, Electronic component, Systems engineering, visual_art.visual_art_medium, Electronics, Cellulose, 0210 nano-technology

Abstract

This paper will review the origins and state of the art in paper-based electronics, suggesting the stage is set for future promising applications. Current interest in paper-based electronics can trace its roots to recent developments in paper-based microfluidics. With a need to improve the reliability and sensitivity of paperbased microfluidics for certain tasks, there were natural efforts to begin embedding sensing electrodes into microfluidic devices. Recognizing the general benefits of paper as an advanced material (e.g., its environmental friendliness, bendable nature, and low cost), efforts in paper-based electronics also began to take a life of their own with demonstrations of transistors, batteries and devices for energy storage, energy harvesting, sensors to improve situational awareness, acoustics, and displays. The state-of-the-art paper-based electronic devices have benefited and will continue to profit from technologies for printing and transferring electronic functionality onto the surfaces of paper-based substrates. Nonetheless, the authors suggest that many future promising applications will go beyond using paper as a carrier/substrate for electronic components to explore tuning of the electrical, mechanical, and chemical properties of the paper itself. With these technical advances, paper-based electronics will move closer to economically viable killer applications.

Published

2016

8. Laser-assisted reduction of graphene oxide for paper based large area flexible electronics

Author

Enkeleda Balliu, Magnus Engholm, Sven Forsberg, Henrik Andersson, and Håkan Olin

Subjects

Fabrication, Materials science, Graphene, 010401 analytical chemistry, Oxide, Nanotechnology, 02 engineering and technology, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, Flexible electronics, 0104 chemical sciences, law.invention, chemistry.chemical_compound, chemistry, law, Printed electronics, 0210 nano-technology, Electrical conductor, Sheet resistance

Abstract

In this work we present a promising method for fabrication of conductive tracks on paper based substrates by laser assisted reduction of Graphene Oxide (GO). Printed electronics on paper based substrates is be coming more popular due to lower cost and recyclability. Fabrication of conductive tracks is of great importance where metal, carbon and polymer inks are commonly used. An emerging option is reduced graphene oxide (r-GO), which can be a good conductor. Here we have evaluated reduction of GO by using a 532 nm laser source, showing promising results with a decrease of sheet resistance from >100 M Ω/Sqr for unreduced GO down to 126 Ω/Sqr. without any observable damage to the paper substrates.

Published

2016

9. Away from silicon era: the paper electronics

Author

Tito Busani, Ana Pimentel, Rodrigo Martins, B. Brás, Elvira Fortunato, Isabel M.P.L.V.O. Ferreira, Pedro Barquinha, Luís Pereira, Ricardo Costa, A. Gonçalves, and Natália T. Correia

Subjects

Materials science, Paper battery, Transistor, Nanotechnology, Substrate (electronics), Engineering physics, Cathode, law.invention, Anode, Hardware_GENERAL, Thin-film transistor, law, visual_art, Electronic component, visual_art.visual_art_medium, Electronics

Abstract

Today there is a strong interest in the scientific and industrial community concerning the use of biopolymers for electronic applications, mainly driven by low-cost and disposable applications. Adding to this interest, we must recognize the importance of the wireless auto sustained and low energy consumption electronics dream. This dream can be fulfilled by cellulose paper, the lightest and the cheapest known substrate material, as well as the Earth's major biopolymer and of tremendous global economic importance. The recent developments of oxide thin film transistors and in particular the production of paper transistors at room temperature had contributed, as a first step, for the development of disposable, low cost and flexible electronic devices. To fulfil the wireless demand, it is necessary to prove the concept of self powered devices. In the case of paper electronics, this implies demonstrating the idea of self regenerated thin film paper batteries and its integration with other electronic components. Here we demonstrate this possibility by actuating the gate of paper transistors by paper batteries. We found that when a sheet of cellulose paper is covered in both faces with thin layers of opposite electrochemical potential materials, a voltage appears between both electrodes -paper battery, which is also self-regenerated. The value of the potential depends upon the materials used for anode and cathode. An open circuit voltage of 0.5V and a short-circuit current density of 1μA/cm 2 were obtained in the simplest structure produced (Cu/paper/Al). For actuating the gate of the paper transistor, seven paper batteries were integrated in the same substrate in series, supplying a voltage of 3.4V. This allows proper ON/OFF control of the paper transistor. Apart from that transparent conductive oxides can be also used as cathode/anode materials allowing so the production of thin film batteries with transparent electrodes compatible with flexible, invisible, self powered and wireless electronics.

Published

2011

10. A new bi-primary color system for doubling the reflectance and colorfulness of e-paper

Author

Jason Heikenfeld

Subjects

Pixel, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Colorfulness, Reflectivity, law.invention, Gamut, Optics, Primary color, law, RGB color model, Computer vision, Artificial intelligence, Electronic paper, business, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

There are several paradigms for color generation in reflective displays (e-Paper) including RGBW color filtering or stacked RGB or CMY. Theoretically, the highest white state reflectance and best color gamut are achieved by stacking three layers of pixels. However, stacking 3 layers induces significant optical losses especially at high resolution and typically does not allow for video operation. Therefore RGBW color filtering is currently preferred for higher resolution and single-layer e-Paper, but only provides color at 25% of the area and a maximum theoretical white reflectance of 50%. Presented herein is a new bi-primary color-system that cooperatively displays two complimentary colors inside a single sub-pixel, and therefore doubles the white state reflectance and color gamut for single-layer e-Paper. Also discussed are candidate e-Paper technologies that may be able to adopt the bi-primary color system, including possible advantages and challenges for each technology.

Published

2011

11. Thin and light weight flexible EPD (electronic paper display) using QR-LPD (Quick Response Liquid Powder Display) technology

Author

R. Sakurai

Subjects

Materials science, business.industry, Flexible display, Thin-film transistor, law, Embedded system, Optoelectronics, Electronic paper, business, law.invention

Abstract

We have developed thin and light weight flexible EPD (electronic paper display) using QR-LPD technology. QR-LPD suits for flexible display because of its simple display structure (no TFT) and robust image holding property. Novel types of thin and light weight flexible electronic paper display are discussed. This technology can realize the "real paper like" flexible electronic paper.

Published

2011

12. High-selectivity cleaning of historical paper samples with sizing through femtosecond laser ablation

Author

Gurcan Mavili, Mehmet Uğuryol, Çetin Yaman, Selcuk Akturk, and Tansu Ersoy

Subjects

Materials science, Laser ablation, business.industry, Scanning electron microscope, Laser, Sizing, law.invention, Optics, law, Femtosecond, Fiber, business, Layer (electronics), Ultrashort pulse

Abstract

Laser ablation offers cleaning method for historical and art works effectively. Difference between ablation threshold of contamination layer and the surface yields to remove contaminants from surface without detriment to historical material. In particular, lasers with ultrashort pulse duration are very convenient for brittle historical papers, fibers of which should be intact after cleaning treatment. Since duration of laser irradiation and material interaction is very short, the possibility of damage to the paper is very low. One of the other crucial issues after paper cleaning treatment is color variation on the surface. Authentic color of the historical paper has to be preserved after the procedure. In this paper, we present results of paper cleaning via femtosecond (fs) laser running at a wavelength of 1030 nm. In the first stage of this experimental study, we determined optimum laser parameters on artificially soiled and aged paper samples, then cleaned a handwritten manuscript with ‘sizing’. In calligraphy, ornamentation and miniature arts, sizing is applied on paper as a protective layer which increases strength of paper and renders it more useful. Papers with sizing have been prevalently used in Islamic or Ottoman culture. We observed that after laser irradiation, artificial soling layer is effectively removed, while original color of the subs-layers did not alter. We used scanning electron microscopy (SEM) to examine fiber integrity, and determined that the sizing layer was not removed when optimized parameters were used, thus the fibers were not damaged.

Published

2015

13. Protein assay structured on paper by using lithography

Author

Björn Waterkotte, Tobias M. Nargang, W. Al Bitar, Bastian E. Rapp, and Elisabeth Wilhelm

Subjects

Materials science, Fabrication, law, Silanization, Multiple patterning, Nanotechnology, Photolithography, Lithography, Layer (electronics), Maskless lithography, Next-generation lithography, law.invention

Abstract

There are two main challenges in producing a robust, paper-based analytical device. The first one is to create a hydrophobic barrier which unlike the commonly used wax barriers does not break if the paper is bent. The second one is the creation of the (bio-)specific sensing layer. For this proteins have to be immobilized without diminishing their activity. We solve both problems using light-based fabrication methods that enable fast, efficient manufacturing of paper-based analytical devices. The first technique relies on silanization by which we create a flexible hydrophobic barrier made of dimethoxydimethylsilane. The second technique demonstrated within this paper uses photobleaching to immobilize proteins by means of maskless projection lithography. Both techniques have been tested on a classical lithography setup using printed toner masks and on a lithography system for maskless lithography. Using these setups we could demonstrate that the proposed manufacturing techniques can be carried out at low costs. The resolution of the paper-based analytical devices obtained with static masks was lower due to the lower mask resolution. Better results were obtained using advanced lithography equipment. By doing so we demonstrated, that our technique enables fabrication of effective hydrophobic boundary layers with a thickness of only 342 μm. Furthermore we showed that flourescine-5-biotin can be immobilized on the non-structured paper and be employed for the detection of streptavidinalkaline phosphatase. By carrying out this assay on a paper-based analytical device which had been structured using the silanization technique we proofed biological compatibility of the suggested patterning technique.

Published

2015

14. A distributed system of wireless signs using Gyricon electronic paper displays

Author

Robert A. Sprague

Subjects

Engineering, Multimedia, business.industry, Backlight, computer.software_genre, law.invention, Gyricon, Software, Signage, law, Wireless, Electronic paper, Digital signage, business, computer, System software

Abstract

The proliferation of digital information is leading to a wide range of applications which make it desirable to display data easily in many locations, all changeable and updateable. The difficulty in achieving such ubiquitous displays is the cost of signage, the cost of installation, and the software and systems to control the information being sent to each of these signs. In this paper we will talk about a networked system of such signs which are made from gyricon electronic paper. Gyricon electronic paper is a reflective, bistable display which can be made in large web sheets at a reasonable price. Since it does not require a backlight nor does it require power to refresh the display image, such technology is ideal for making signs which can be run on batteries with extremely long battery life, often not needing replacement for years. The display also has a very broad illumination scattering profile which makes it readily viewable from any angle. The basic operating mechanism of the display, its manufacturing technique, and achieved performance will be described, along with the description of a networked solution using many such signs controlled with system software to identify speakers and meetings in conference rooms, hospitality suites, or classrooms in universities. Systems will also be shown which are adapted to retail pricing signage and others which can be used for large format outdoor billboards.

Published

2006

15. Applying of the optical time-of-flight spectroscopy for the paper and pulp characterization

Author

Jerzy Pluciński

Subjects

Materials science, Softwood, Streak camera, business.industry, Pulp (paper), Photodetector, engineering.material, Laser, Talc, law.invention, stomatognathic diseases, Time of flight, Optics, stomatognathic system, law, engineering, medicine, Spectroscopy, business, medicine.drug

Abstract

The paper presents benefits of optical time-of-flight spectroscopy for the pulp and paper characterization. A semiconductor pulse laser and a streak camera as the photodetector were utilized in experimental part of research described in this paper. Distribution of the time of flight of photons through various kinds of wood pulp (e.g. pulp after mechanical treatment coming both fi-om tree species giving hard and soft wood and pulp after thermo-mechanical treatment) was measured. The pulp samples used in the measurements had consistency ranging from 0 to 5% of dry mass in the suspension. The influence of additives (kaolin, talc and calcium carbonate) present in the suspension on the time of flight distribution of photons was studied as well. Finally, dependence of the time of flight of photons through various kinds of the paper (i.e. newspaper, copy paper, and tissue) on the thickness of the sample was investigated.

Published

2006

16. Quantitative fluorescence detection of phenylalanine in blood spots on filter paper

Author

Yuezhi Li, Fengjun Liu, Gang Xu, and Xuemin Wang

Subjects

Photomultiplier, Optical fiber, Filter paper, business.industry, Chemistry, Phenylalanine, Fluorescence, Fluorescence spectroscopy, law.invention, Optics, law, Spectral width, Fiber, business

Abstract

Phenylketonuria is a genetic disease, which causes the metabolization disorder of phenylalanine, this disorder would damage the neural system of infants as a result of the accumulation of phenylalanine in blood. Therefore, it is of great importance to diagnose and treat phenylketonuria as early as possible for newborns. The aim of this paper is to develop a fluorescence detection system to measure blood phenylalanine concentration of new-born infants. In this design, a high luminance ultraviolet LED is used for excitation source, and a kind of bifurcated optical fiber assembly is applied for conduction of light. The excitation source is filtered and coupled into quartz fibers of the bifurcated fiber assembly for conduction of light to excite the fluorescence of phenylalanine in blood sample. The collected fluorescence is transmitted along the glass fibers of the assemblies and coupled to a photomultiplier tube. The fluorescence is filtered with 470~500 nm band-pass filter to subdue scattered excitation light and to limit the spectral width of the detected fluorescence. By the comparison with a standard instrument, the new system with low power consumption, low cost and small size is also proven sensitive and accurate, which meets the demand of clinical phenylketonuria screening.

Published

2007

17. Study of repeatability of an optical laser system for characterization of the paper fiber distribution and mass density

Author

Paulo Torrão Fiadeiro, António de Oliveira Mendes, Maria Emília Amaral, Ana Paula Cabral Seixas Costa, and Mohamed Naceur Belgacem

Subjects

Optics, Materials science, business.industry, law, Experimental work, Repeatability, Fiber, business, Laser, Characterization (materials science), law.invention

Abstract

This work addresses the study of repeatability of an optical laser system, previously implemented by our research team, for characterization of the fiber distribution and mass density of two paper samples with different characteristics. In the experiment that has been carried out in the current work, both paper samples were laser scanned by the system on a total of 16 times (4 times per day in 4 different days). The data acquired and registered during the experimental work, associated to both tested samples, were then processed and the obtained results showed that the optical system is precise.

Published

2014

18. Present a new type of self-heating composite based on carbon nanotubes paper and investigate the feasibility in deicing (presentation video)

Author

Hetao Chu, Yanju Liu, Zhichun Zhang, and Jinsong Leng

Subjects

Materials science, law, Composite number, Thermal, Electric heating, Carbon nanotube, Composite material, Conductivity, Dispersion (chemistry), Suspension (vehicle), Heat capacity, law.invention

Abstract

In this paper, a novel self-heating composite material utilizing carbon nanotubes (CNTs) paper is designed and fabricated successfully. The carbon nanotube paper was prepared by multiple steps of CNTs dispersion and suspension filtration as shown in Fig1. a and characterized by scanning electron microscopy thermo gravimetric analysis nitrogen adsorption isotherms at 77K and so on. The surface of the as-prepared CNTs paper is smooth and very flexible. The conductivity of the CNTs paper could be regulated from 30 S/cm to 200 S/cm. The fabricating process of the self-heating is shown in Fig.1 b and the electric heating performance under different ambient temperature, power changing from 4.3W to 44.8W and wind speed ranging from 8m/s to 14m/s was discussed. In addition, the feasibility of the application in the deicing of the composite was simulated by the software of Fluent. The thermal behavior was discussed combining the experimental and simulated values, especially the temperature field distribution under different wind speed. The maximum heating rate can reach 2℃/s under different condition. The equilibrium temperature and energy consumption of the composite at different power compared with the commercial kanthal electric heating film were also investigated. The energy consumption of the self-heating material is less than the kanthal electric heating film to reach the same equilibrium temperature which may be caused by the difference of heat capacity. The experimental and simulated results indicate the electric heating performance of CNTs paper-based composite is superior to the commercial kanthal electric heating film and has feasibility in the field of deicing.

Published

2014

19. Experimental and numerical study of cellulose-based electro-active paper energy harvester

Author

Jaehwan Kim, Lindong Zhai, Zafar Abas, and Heung Soo Kim

Subjects

Cantilever, Ferroelectric polymers, Materials science, law, Composite material, Proof mass, Resistor, Piezoelectricity, Energy harvesting, Coupling coefficient of resonators, Voltage, law.invention

Abstract

In this present study experimental and finite element analysis of cellulose based electro-active paper energy harvester is presented. Electro-active paper coated with metal electrode is a smart form of cellulose and exhibit piezoelectric effect. Specimens were prepared by depositing electrodes on both sides of the cellulose film. A 50 mm x 50 mm cellulose film coated with aluminum electrodes was bonded on 100 mm x 50 mm x 1 mm aluminum host structure. The voltage output to input acceleration frequency response across a load resistor of 1 MΩ is recorded by conventional energy harvesting experimental setup at the fundamental vibration mode of the EAPap cantilever beam. A coupled piezoelectric-circuit finite element model is developed in which load resistor is directly connected to energy scavenging device. Voltage output FRF is measured for the cases, without proof mass, and by adding a 2 grams proof mass near the tip of the cantilever. The experimental voltage FRF value is 7.6 V/g at 75.1 Hz and is improved to 13.8 V/g at 62.2 Hz when a stainless steel proof mass of 2 grams is added. The presented CPC-FEM model results agree reasonably well with the experimental results. Despite the fact that the electro-mechanical coupling coefficient of electro-active paper is lower than other available piezoelectric materials, it is biocompatible, cheap and naturally occurring polymeric material. It is also very flexible and posses similar piezoelectric characteristics such a PVDF which inspire to use EAPap in energy harvesting applications.

Published

2014

20. Paper like cellulose-ZnO hybrid nanocomposite and its photoelectrical behavior

Author

Jaehwan Kim, Seongchoel Mun, Byung-Woo Kang, and Hyun-U Ko

Subjects

Fabrication, Materials science, Nanocomposite, business.industry, Composite number, Photodetector, Photodiode, law.invention, Nanomaterials, chemistry.chemical_compound, Semiconductor, chemistry, law, Optoelectronics, Cellulose, business

Abstract

Paper based composite with semiconductor nanomaterial is a fascinating orgnic-inorganic hybrid composite that has improved properties of flexibility, biocompatibility and functionality. Cellulose Electro-Active Paper (EAPap) is a kind of paper electric device. To improve functionality of EAPap, ZnO is used as hybrid inorganic composition. Cellulose- ZnO hybrid nanocomposite (CEZOHN) is fabricated by seeding and growing ZnO on cellulose film with a simple chemical reaction. CEZOHN reveals not only electrical, eletromechanical behavior but also photoelectrical behavior. This paper reports specially photo-response and sensitivity of CEZOHN under several light source: UV light, sun and fluorescent light. The fabrication process is briefly introduced, and induced voltage, induced current under light source are investigated. Also, the ZnO effect of CEZOHN and its mechanism is studied and its possibility of application as photosensor, photodiode, photovoltaic device will be discussed.

Published

2014

21. Development, analysis, and comparison of electromechanical properties of Bucky paper IPMC actuator

Author

Balaji Sivasubramanian and Daewon Kim

Subjects

Materials science, Mechanical engineering, Buckypaper, Carbon nanotube, Bending, Smart material, Functionally graded material, law.invention, Ionic polymer–metal composites, chemistry.chemical_compound, chemistry, law, Actuator, Voltage

Abstract

With smart materials and adaptive structures being nudged into mainstream technology progressively, the smart composites are donning a predominant role as indispensable structures. Among these, the Ionic Polymer Metal Composites (IPMC), with their large bending deformation and relaxation characteristics at very low voltages are attractive as transducers in many areas of application. The actuation and sensing properties of IPMC have been sought after for various engineering functions. The paper focuses on combining the ionic polymer with multi-walled carbon nanotube Bucky paper electrodes to create an enhanced IPMC, and comparatively analyzes the different methodologies briefly discussing the electrode morphology and also compares the uniformity of the electrode plating obtained from the different processes. This paper also concentrates on making use of different ionic solutions for comparison such as to determine the most suited ion content within the solid electrolyte for effective IPMC actuation. This new functionally graded material is tested for its bending deformation, blocking force and the current consumption to prove the electromechanical efficiency of the Bucky paper IPMC. By studying the electromechanical properties of this smart composite actuator based on its actuation under different electric excitations, we can draw conclusions subsequently from the results of the comparison.

Published

2014

22. Pulsed laser photoacoustic monitoring of paper pulp consistency

Author

Zuomin Zhao, Risto Myllylä, and Matti Törmänen

Subjects

Accuracy and precision, Materials science, Attenuation, Pulp (paper), Acoustic wave, engineering.material, Laser, Light scattering, law.invention, Cuvette, law, engineering, Composite material, Acoustic attenuation

Abstract

This study involves measurements of pulp consistency in cuvette and by an online apparatus, by innovatively scattering photoacoustic (SPA) method. The theoretical aspects were described at first. Then, a few kinds of wood fiber suspensions with consistencies from 0.5% to 5% were studied in cuvette. After that, a pilot of online apparatus was built to measure suspensions with fiber consistency lower than 1% and filler content up to 3%. The results showed that although there were many fiber flocks in cuvette which strongly affected the measurement accuracy of samples consistencies, the apparatus can sense fiber types with different optical and acoustic properties. The measurement accuracy can be greatly improved in the online style apparatus, by pumping suspension fluids in a circulating system to improve the suspension homogeneity. The results demonstrated that wood fibers cause larger attenuation of acoustic waves but fillers do not. On the other hand, fillers cause stronger scattering of incident light. Therefore, our SPA apparatus has a potential ability to simultaneously determine fiber and filler fractions in pulp suspensions with consistency up to 5%.

Published

2007

23. Light scattering in paper measured with a time-of-flight lidar

Author

Juha Saarela and Risto Myllylä

Subjects

Materials science, Geometrical optics, business.industry, Scattering, Paper density, Laser, Light scattering, law.invention, Time of flight, Lidar, Optics, law, business, Refractive index

Abstract

This paper studies the correlation between the time-of-flight (TOF) of laser pulses and paper density, basis weight, thickness and the beating of pulp. Paper samples made from unbeaten and beaten pulp were compressed from 500kg/m3 to 1100kg/m3 and laser pulses were shot through them during pressing. Changes were observed in the thickness of the samples and in the TOF of the laser pulses. The results show that TOF decreases during comrpession. This indicates that distances between the various scattering surfaces decrease. This phenomenon becomes more pronounced as the basis weight increases. The beating of the pulp before papermaking increases the number of scattering surfaces, thus broadening the laser pulse and causing delay. These two effects cannot be separated with the equipment used. Papers made from different pulp types each have unique delay constants.© (2003) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

2003

24. Threshold and grayscale stability of Microcup electronic paper

Author

Rong-Chang Liang, HongMei Zang, Jiunn-Jye Hwang, Xin Weng, Haiyan Gu, Jack Hou, and Yajuan Chen

Subjects

Materials science, Bistability, business.industry, Grayscale, law.invention, Active matrix, Threshold voltage, Optics, law, Modulation, Contrast ratio, Electronic paper, business, Pulse-width modulation

Abstract

Plastic passive matrix (PM) and active matrix (AM) electronic paper displays (EPDs) have been prepared by SiPix's Microcup® roll-to-roll manufacturing processes using ITO/PET films. The Microcup® displays have shown outstanding environmental stability and excellent physico-mechanical properties such as scratch, impact and flexure resistances even in high temperature and humidity conditions. A PMEPD recently prepared on inexpensive row-and-column patterned ITO/PET films has shown a contrast ratio of >10, ta n 15 V. More than 8 levels of grayscale with outstanding bistability have been demonstrated by either pulse width or pulse count modulation. No noticeable degradation of the mid-tone images has been observed even after the power was turned off for more than 5 days. Moreover, the electro-optical responses, particularly the threshold voltage and gamma of the PMEPDs remain essentially the same within a wide range (20-60°C) of operation temperature.

Published

2004

25. Investigating the paper dependency of laser printed colors for uncoated papers

Author

S. Gorji Kandi

Subjects

Grammage, Color difference, business.industry, Substrate (printing), Texture (music), Laser, law.invention, Gamut, Optics, law, Computer graphics (images), Digital printing, business, Colorimetry, Mathematics

Abstract

There are several parameters, which influence the characteristics of the final printed colors in digital printing. One of the most important one is the substrate (paper). In the present study, the effect of uncoated papers on the laser printed colors was investigated. For this purpose, three kinds of paper with the same grammage value of 80 and different whiteness and texture were selected. The effect of paper on the printer's reproducibility, light-fastness, color gamut and colorimetric characteristics of the final printed samples were studied for a Canon Laser Printer LBP-5050. It was found out that, the reproducibility of the printer is statistically dependent on the paper's type. The average of color change via exposing light is between 1.3 and 1.8 for different papers. The color difference caused by paper variation illustrates the effect of paper on the final printed colors. The texture properties of the papers were quantified with Edge Frequency technique as an appropriate texture analysis tool. A defined correlation between texture changes and color differences was obtained. Furthermore, the whiteness of the papers clearly affected the final printed colors.

Published

2012

26. Fiber optic gel point sensor for paper coating drying control and optimization

Author

Edward Belotserkovsky and Ross K. Machattie

Subjects

Paperboard, Coated paper, Materials science, Optical fiber, Substrate (printing), engineering.material, law.invention, Coating, Fiber optic sensor, law, visual_art, visual_art.visual_art_medium, engineering, Specular reflection, Composite material, Gel point (petroleum)

Abstract

In the production of pigment-coated paper or paperboard, the method and rate of drying of the coating will significantly influence the print quality of the finished product. Improper drying during initial st sages can cause binder migration that leads to its non-uniform concentration on the surface of the coating. Such effect causes print mottle, and is a primary reason for poor print quality. The location at which binder immobilization has occurred is called the Gel Point. An on-line fiber optic sensor system has been applied to continuously monitor the location of the Gel Point. Each sensor consists of a light source, an optical fiber for delivering the radiation, two optical fibers for diffuse and specular radiation monitoring and two detectors. The ratio R between diffuse and specular signals indicates coating conditions. A system description and experimental results are presented. The Gel Point measurement system has show that is provides a sensitive measurement of the gel point location, as it is affected by machine speed, coat weight, incoming substrate moisture levels and drying energy and can predict print mottle. This provides the paper maker with a completely independent method for monitoring the coating drying process.

Published

2000

27. Programming paper networks for point of care diagnostics

Author

Bhushan J. Toley, Paul Yager, Shivani Dharmaraja, Josh Buser, Barry R. Lutz, Samantha A. Byrnes, Peter Kauffman, Elain Fu, and Lisa Lafleur

Subjects

Engineering, business.industry, Low resource, Point-of-care testing, Computer programming, Sample (statistics), Control engineering, law.invention, Running time, law, Electrical network, Key (cryptography), Fluidics, business, Simulation

Abstract

Lateral flow tests (LFTs) are well-suited for rapid point-of-care testing in low resource settings. The wicking action of the paper strip moves the sample and reagents through the device without a need for pumps, but LFTs are typically limited to tests that can be carried out in a single fluidic step. The materials from LFTs can be reconfigured to create paper networks that automatically carry out multi-step fluidic operations, while retaining the same easy-to-use format as a conventional LFT. Here, we describe basic principles of wicking and system-level behavior of paper networks by analogy to electrical circuits. We describe key design principles for a previously-developed 2D paper network (2DPN) and introduce an alternative linear paper network (Pseudo-1DPN) that takes advantage of system-level behavior to perform clean sequential fluid delivery while reducing device running time.

Published

2013

28. Flexible paper transistor made with ZnO-cellulose hybrid nano-composite for electronic applications

Author

Jaehwan Kim, Joo-Hyung Kim, Hyun-U Ko, Sang-Yeol Yang, and Gwang-Hoon Kim

Subjects

Materials science, Transistor, Composite number, Regenerated cellulose, Substrate (electronics), law.invention, chemistry.chemical_compound, chemistry, Chemical engineering, law, Electrode, Nanorod, Cellulose, Layer (electronics)

Abstract

Semiconducting ZnO layer chemically grown on regenerated cellulose and its flexible paper transistor were studied. ZnO layer-cellulose composite was prepared by a simple chemical reaction process which included alkaline hydrolysis at low temperature lower than 100 °C and used wet regenerated cellulose as a hydrophilic substrate. By increasing the concentration of ZnO seeding layer on cellulose, the area of ZnO cluster also increases. In the low concentration conditions from 20 mM to 50 mM, it is observed that the average size of ZnO nanorods increases as the seeding concentration increases. However, flower-shaped ZnO structure is observed in higher concentration over 50 mM due to clustering effect during the growth of ZnO rods. Thin ZnO layer composed of nano-rods seemed to be grown well on regenerated cellulose and layer thickness of ZnO was well controlled by reaction time. Structural data of as grown ZnO/cellulose provides the crystal orientation-limited growth mechanism of ZnO nano-rod, which can be controlled by the reaction time of chemical process. Using conventional lift-off process, thin ZnO layer based transistor was fabricated by forming source/drain as well as gate electrode. More detailed ZnO-cellulose based transistor is discussed.

Published

2013

29. Remotely driven electro-active paper actuator by modulated microwaves

Author

Sang Yeol Yang, Suresha K. Mahadeva, In-Ho Im, and Jaehwan Kim

Subjects

Materials science, Fabrication, business.industry, Microwave transmission, Power (physics), law.invention, Computer Science::Robotics, Rectenna, Modulation, law, Optoelectronics, Dipole antenna, Actuator, business, Microwave

Abstract

This paper reports a remotely-driven electro-active paper (EAPap) actuator by modulated microwaves. So far we have demonstrated a remotely driven EAPap actuator by means of rectenna and control circuit. The rectenna consists of dipole antenna and rectifying circuit, which converts microwave to dc power. Once microwaves are incident on the dipole rectenna, it converts microwaves into a dc power and the control circuit feeds the power to the EAPap actuator by alternating it so as to produce a bending motion of the EAPap actuator. However, due to the power consumption of the control circuit, the remotely-driven actuator system requires more dc power to activate the control circuit. Thus, we propose a remotely-driven EAPap actuator that does not require the control circuit. Instead of the control circuit, microwaves are modulated with the control signal, and by rectifying the modulated microwaves with the rectenna, the control signal can be regenerated for activating the EAPap actuator. Detailed modulated microwave, rectenna design, fabrication, characterization and the actuation of rectenna-EAPap by modulated microwave are explained.

Published

2011

30. Paper transistor made with regenerated cellulose and covalently bonded single-walled carbon nanotubes

Author

Byung-Wook Lim, Sungryul Yun, Jaehwan Kim, Joo-Hyung Kim, and Hyun-U Ko

Subjects

Materials science, Transistor, Composite number, Regenerated cellulose, Carbon nanotube, equipment and supplies, law.invention, chemistry.chemical_compound, chemistry, Chemical engineering, law, Covalent bond, Electrode, Cellulose, Layer (electronics)

Abstract

We report a flexible paper transistor made with regenerated cellulose and covalently bonded single-walled carbon nanotubes. Functionalized single-walled carbon nanotubes (SWNTs) are reacted with N, N-Carbonyldiimidazoles to obtain SWNTs-imidazolides. SWNTs can be covalently bonded to cellulose by acylation of cellulose with SWNTsimidazolides. Using the product, SWNTs covalently bonded cellulose (S/C) composite paper is fabricated and it is mechanically stretched to align SWNTs with cellulose chains. Finally, inter-digital comb shaped source and drain electrode and bottom gate electrode is formed on the paper via lift-off process. Aligned SWNTs can contribute to establishing stable electron channel paths in the cellulose layer. The alignment of SWNTs can be key a role in improving characteristics of the paper transistor. The characteristics of the paper transistor are evaluated by measuring mobility, onoff ratio depending on the alignment of SWNTs in S/C composite paper transistors.

Published

2011

31. Paper surface modification by lasers

Author

Alexander A. Serafetinides, E. Zekou, and Domna G. Kotsifaki

Subjects

Materials science, Inkwell, business.industry, Laser, Q-switching, law.invention, X-ray laser, Co 2 laser, Optics, Optical microscope, law, Diode-pumped solid-state laser, Surface modification, business

Abstract

Lasers can provide a precious tool to conservation process due to their accuracy and the controlled energy they deliver, especially to fragile organic material such as paper. The current study concerns laser modification such as paper cleaning, initially of test papers artificially soiled and then of an original book of the early 20 th Century. The test objects were A4 copier paper, newspaper, and paper Whatman No.1056. During the experiments, ink of a pen, pencil and ink from a stamp was mechanically employed on each paper surface. Laser cleaning was applied using a Q-switched Nd:YAG operating at 532 nm and CO 2 laser at 10.6 μm for various fluences. The experimental results were presented by using optical microscopy. Eventually, laser cleaning of ink was performed to a book of 1934, by choosing the best conditions and parameters from cleaning the test samples, like Nd:YAG laser operating at 532 nm.

Published

2010

32. IR frequency analysis in paper industry

Author

Ari Ekholm, Osmo Santamaki, and Matti Laehdeniemi

Subjects

Frequency analysis, business.industry, Computer science, Optical engineering, System of measurement, Process (computing), engineering.material, Pulp and paper industry, law.invention, symbols.namesake, Quality (physics), Fourier transform, Optics, Coating, law, Line (geometry), symbols, engineering, business

Abstract

IR monitoring is a basic tool for quality control and predictive maintenance in the paper industry. There are also other possible interests, e.g. measurements of temperature profiles of high speed production lines. The first possibility to use IR for the above mentioned use appears to be applications of glass heat treatment in on line production. At this time there is a lot of interest to be able to measure temperature profiles from a fast moving surface (e.g. in paper machines) with velocities like 10 - 20 m/s. Normal low speed line scanners typically give scanning speed of 50 Hz which in this case means 20 m/s/50 Hz equals 40 cm resolution. The obtained resolution is not normally high enough. To have more accurate vision from the studied surface IR camera line scanning was proposed to be a solution with line scanning frequencies of 8000 Hz which would provide resolution of 20 m/s/8000 Hz equals 0.25 cm between surface points. It is a well-known fact that all undesired frequencies in paper transfer systems disturb the uniform paper drying process which in some cases is the basic reason for low quality coating or even broken paper line. The possibility to detect these drying problems with IR frequency analysis will give a new way to control the paper drying process. With IR analysis it is possible to get information about temperature distributions along the paper track. Using a well established frequency analysis as a tool, the error estimations are obtained. In most cases an open-roll image from paper track is very desirable because there are no existing wide area measurement systems for this purpose. The careful analysis of this new method is given in the manuscript.© (1996) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1996

33. Two-sided laser device for online paper caliper measurement and control

Author

Markus Bengtsson, Pak Hui, Michael Kon Yew Hughes, and Graham I. Duck

Subjects

Engineering, Temperature control, business.industry, Acoustics, Electrical engineering, engineering.material, Laser, Displacement (vector), law.invention, symbols.namesake, Coating, law, Control system, symbols, Perpendicular, Calipers, business, Coandă effect

Abstract

Strong demand exists for a non-contacting paper caliper measurement which can be used as an input to a paper thickness control system. Caliper sensors requiring sheet contact suffer from errors related to dirt or coating build up and from high maintenance costs related to wear. These sensors can also damage the product by picking holes and marking sheets. Details of an on-line measurement device which employs two opposed laser displacement sensors and an inductive displacement sensor are presented. The sheet is held perpendicularly to the sensors with a Coanda air clamp. Dust and temperature control features which enable the sensor to operate reliably in an industrial environment are discussed. Results of production trials of this sensor are presented. Sub-micron profile agreement to lab and contacting caliper measurements has been demonstrated on light sheets. Results are presented of measurements on a wide range of paper grades from coated and uncoated light sheets to coated board.

Published

2009

34. Calibration method for accurate optical measurement of thickness profile for the paper industry

Author

Jussi Graeffe

Subjects

Engineering, Laser triangulation, business.industry, Triangulation (social science), Linearity, Gauge (firearms), Laser, law.invention, Optics, law, Range (statistics), Calibration, Calipers, business

Abstract

Online measurement of paper thickness profile is essential in paper production. For decades paper thickness has been measured online with sensors that are contacting the web on both sides. In 2005 a new optical online paper thickness gauge was introduced which only contacts the web on the other side. The sensor is based on a laser triangulation sensor and a magnetic sensor, and it determines the paper thickness from the difference of the two measurements. For calibration of the two sensors, a robust concept has been developed which utilizes the measured object and takes place in the measuring environment so that the calibration is automatically adjusted to the current measuring circumstances. More importantly, with the presented method the non-linearity of the laser sensor is cancelled enabling the measurement of the thickness profile shape with an accuracy much better than that of the laser sensor. Profile accuracy of 0.5 μm (2σ) has become normal while the measuring range is often several hundreds of microns and the measuring distance to the paper web 1.0-1.5 mm with a laser sensor having linearity of ±2 μm.

Published

2009

35. Plain papers for color hard copy technologies

Author

David F. Rutland

Subjects

Coated paper, Engineering, Engineering drawing, Laser printing, Image quality, business.industry, media_common.quotation_subject, Xerography, Image processing, Color printing, Thermal transfer, law.invention, law, Quality (business), business, media_common

Abstract

The expression 'Plain' paper was coined in the early days of electrophotography to distinguish the capabilities of the new dry toner based photocopying process which did not require a sensitized or special coated paper to produce an image. Currently 'Plain' paper is considered in the electronic printing industry, to be any uncoated paper, usually of the type used in office photocopying applications. It is assumed that all 'Plain' papers are identical or at least equivalent in their properties such that all papers will give equivalent print quality performance. Due to the wide availability and low price of 'Plain' papers, it is also considered desirable by vendors of electronic marking processes, that their technology be capable of producing good image quality on 'Plain' paper. The chemical and physical differences which can occur among 'Plain' papers are discussed with respect to the specific image quality and engine reliability requirements of the major nonimpact electronic marking technologies, including electrophotography and laser printing, electrographic and ionographic processes, thermal transfer and ink jet. Paper properties of interest include, smoothness, surface energy, electrical resistivity, porosity and aqueous and nonaqueous liquid adsorption. Color printing has added additional requirements to paper quality, if good image quality is to be achieved and maintained. Given the apparently conflicting requirements for some of the electronic marking technologies, it will be a challenge to define a single grade of paper which will produce optimum print quality for all electronic printing processes.© (1995) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1995

36. Paper field effect transistor

Author

Cláudia Costa, Luís Pereira, Nuno Correia, Gonçalo Gonçalves, Rodrigo Martins, Elvira Fortunato, and Pedro Barquinha

Subjects

Materials science, business.industry, Transistor, Amorphous solid, law.invention, Threshold voltage, Cellulose fiber, Semiconductor, law, Electronic engineering, Optoelectronics, Field-effect transistor, Crystalline silicon, Thin film, business

Abstract

In this paper we report the use of a sheet of cellulose fiber-based paper as the dielectric layer used in oxide based semiconductor thin film field-effect transistors (FETs). In this new approach we are using the cellulose fiber-based paper in an "interstrate" structure since the device is build on both sides of the cellulose sheet. Such hybrid FETs present excellent operating characteristics such as high channel saturation mobility (>30 cm 2 /Vs), drain-source current on/off modulation ratio of approximately 10 4 , near-zero threshold voltage, enhancement n-type operation and sub-threshold gate voltage swing of 0.8 V/decade. The cellulose fiber-based paper FETs characteristics have been measured in air ambient conditions and present good stability. The obtained results outpace those of amorphous Si TFTs and rival with the same oxide based TFTs produced on either glass or crystalline silicon substrates. The compatibility of these devices with large-scale/large-area deposition techniques and low cost substrates as well as their very low operating bias delineates this as a promising approach to attain high-performance disposable electronics like paper displays, smart labels, smart packaging, RFID and point-of-care systems for self analysis in bio-applications, among others.

Published

2009

37. Quantitative color measurement of pH indicator paper using trichromatic LEDs and TCS230 color sensor

Author

A. L. Chaudhari, T. N. Ghorude, and Arvind D. Shaligram

Subjects

business.industry, Chemistry, Colorimeter, law.invention, Photodiode, Light intensity, Optics, Tristimulus colorimeter, law, RGB color model, Optoelectronics, Chromaticity, Colorimetry, business, Light-emitting diode

Abstract

Quantitative analysis of pH indicator paper color is needed in the various fields. An indigenously developed Tristimulus colorimeter is used in this work for pH Indicator paper color measurement. The colorimeter uses Trichromatic RGB LEDs and a programmable color light to frequency converter (TCS230), combining configurable silicon photodiodes and a current to frequency converter on a single monolithic CMOS integrated circuit. The output is a square wave (50% duty cycle) with frequency directly proportional to light intensity. Digital input and digital output allow directly to a microcontroller. The light to frequency converter reads an 8*8 array of photodiodes. Sixteen photodiodes have red filters, 16 photodiodes have green filters, 16 photodiodes have blue filters, and 16 photodiodes are clear with no filters. All 16 photodiodes of the same colors are connected in parallel and type of photodiode the device uses during operation is pin selectable. Solutions having different standard pH were prepared and indicator paper was dipped in solution, it shows change in color. Using the developed RGB colorimeter chromaticity coordinates were measured and compared with the chromaticity coordinates measured using Ocean Optics HR-4000 high resolution spectrophotometer.

Published

2008

38. Optical object detection in paper improved by refractive index matching and mechanical treatment

Author

Tapio Fabritius, Juha Saarela, Risto Myllylä, and S M Heikkinen

Subjects

Grammage, Microscope, Materials science, medicine.diagnostic_test, business.industry, Object detection, law.invention, Optics, Optical coherence tomography, law, visual_art, Newsprint, medicine, visual_art.visual_art_medium, Clearing Agent, Transparency (data compression), business, Refractive index

Abstract

Two different paper grades were tested with a clearing agent to measure how much mechanical smoothening can improve transparency inside paper. The paper grades were newsprint and supercalendered paper. The paper furnishes of both papers were alike, but the supercalendered paper was mechanically smoothened. Anise oil was used as the clearing agent, but similar measurements were also done with air and water. Black lines 8.5 μm to 281.1 μm wide were placed behind layers of cleared paper and transparency was measured with a microscope. When anise oil was the clearing agent, supercalendering improved transparent paper grammage from 139 g/m 2 to 164 g/m 2 . With water the improvement was from 40 g/m 2 to 51 g/m 2 . With air the improvement was not determinable. As a conclusion, it is recommended that paper is smoothened if it needs to be studied optically. Optical coherence tomography, for example, would benefit from this treatment.

Published

2007

39. Paper roughness and the color gamut of color laser images

Author

Susan Farnand, Jim Chauvin, Tom Oswald, J. S. Arney, and Michelle Spampata

Subjects

Optics, Materials science, Gamut, law, business.industry, Power consumption, Surface finish, Laser, business, law.invention

Abstract

Common experience indicates the quality of a printed image depends on the choice of the paper used in the printing process. In the current report, we have used a recently developed device called a micro-goniophotometer to examine toner on a variety of substrates fused to varying degrees. The results indicate that the relationship between the printed color gamut and the topography of the substrate paper is a simple one for a color electrophotographic process. If the toner is fused completely to an equilibrium state with the substrate paper, then the toner conforms to the overall topographic features of the substrate. For rougher papers, the steeper topographic features are smoothed out by the toner. The maximum achievable color gamut is limited by the topographic smoothness of the resulting fused surface. Of course, achieving a fully fused surface at a competitive printing rate with a minimum of power consumption is not always feasible. However, the only significant factor found to limit the maximum state of fusing and the ultimate achievable color gamut is the smoothness of the paper.

Published

2007

40. Paper-like cholesteric liquid crystal display (Invited Paper)

Author

Yi An Sha, Andy Yung-Guey Fuh, Ya Ling Huang, and Chi Chang Liao

Subjects

chemistry.chemical_classification, Materials science, Liquid-crystal display, Cholesteric liquid crystal, Composite number, Polymer, law.invention, Planar, Photopolymer, chemistry, Liquid crystal, Flexible display, law, Composite material

Abstract

A paper-like cholesteric liquid crystal (ChLC) display has been developed by photo-induced polymer/ liquid crystal phase separation process. Depending on this process, the homogeneous mixture of ChLC and pre-polymer would separate into polymer walls and ChLC rich region. Polymer walls formed by photopolymerization of pre-polymer provide several advantages of flexible display applications such as good mechanical properties and low cell gap tolerance. The ChLC rich region was a composite combined by the ChLC and dispersed polymer. This dispersed polymer was derived from the residue polymer in the display area after the phase separation process. This dispersed polymer was used to disturb the alignment of ChLC, and break the planar structure into multi-domain planar structure which would present the white appearance in the planar state. The electro-optical properties were measured by Otsuka LCD 5100 and Eldim EZ Contrast 160RH. The relationship between phase separation process and electro-optical properties was also been developed.

Published

2005

41. Study on paper moisture measurement method by monochromatic light sources

Author

Li Nan, Changtao Mo, Xin Du, Lili Zhang, Ping He, and Ming Wang

Subjects

Electric machine, Physics, Accuracy and precision, business.product_category, business.industry, Pulsed power, Collimated light, law.invention, Wavelength, Optics, Halogen lamp, law, Water cooling, Monochromatic color, business

Abstract

We design the emission and detection optical paths of three monochromatic infrared light sources with different wavelength. The three light sources are placed according to the different angles, so that the three kinds of monochromatic lights are converged on the same point of the sample. Using the method, we can detect the same point and improve the measurement accuracy. We choose the standard near-infrared monochromatic light source, so that we can save some equipments, such as tungsten- halogen lamp, filtered wheel, collimation focalizer, electric machine, and so on. In particular, we save the cumbersome cooling system, reduce the volume of the instrument greatly and reduce the cost. The three monochromatic light sources are supplied by the same pulse power source, to ensure their synchronous working.

Published

2010

42. Laser engraving of paper and polymeric materials for tactile detection

Author

Javier Gamo, Emilio Pérez, Jose A. Ramos-de-Campos, Paloma Varela, and Carlos Soriano

Subjects

Security printing, Engineering, Engineering drawing, Laser engraving, Visually impaired, law, business.industry, Laser structuring, Computer vision, Artificial intelligence, Laser, business, law.invention

Abstract

This study is focused on laser structuring processes for producing secure tactile features on paper-based security documents. The feasibility of using the developed technique allows users and/or machines to discriminate among genuine and counterfeited security documents and/or facilitate the tactile detection by visually impaired people.

Published

2008

43. Laser optoacoustic measurements of paper porosity

Author

Alexander A. Karabutov, Natalia B. Podymova, and Ivan Pelivanov

Subjects

Transformer oil, business.industry, Chemistry, Laser, law.invention, Optics, law, Temporal resolution, Ultrasonic sensor, Phase velocity, business, Transformer, Spectroscopy, Porosity

Abstract

The propagation of broadband ultrasonic pulses in combined media that consist of printing paper of different porosity saturated with different liquids is studied. The experiments are performed with three types of paper, namely, Zoom Ultra (Stora Enso, Finland) with surface densities of 80 and 100 g/m2 and Data Copy (Mo Do, Sweden) with a surface density of 160 g/cm2, and with two types of saturating liquids: ethanol and transformer oil. To excite ultrasonic pulses and to detect them with a high time resolution, the laser optoacoustic spectroscopy method is used. For each type of liquid-saturated paper, the phase velocity of ultrasound is measured in the frequency range of 5–35 MHz. The absence of any noticeable frequency dispersion of the phase velocity is revealed. The possibility of measuring the porosity of printing paper on the basis of the theoretical model of a two-phase medium with the use of the corresponding experimental data is demonstrated.

Published

2006

44. Covalently bonded functionalized multi-walled carbon nanotubes and cellulose for electroactive paper actuator

Author

Sungryul Yun, Kiju Yun, and Jaehwan Kim

Subjects

Materials science, Scanning electron microscope, Composite number, Infrared spectroscopy, Young's modulus, Carbon nanotube, law.invention, chemistry.chemical_compound, symbols.namesake, chemistry, Chemical engineering, law, Covalent bond, symbols, Cellulose, Raman spectroscopy

Abstract

A cellulose solution was prepared by dissolving cotton pulp in LiCl/DMAc solution. Functionalized multi-walled carbon nanotubes (MWNTs) were reacted with N, N-Carbonyldiimidazoles to obtain MWNTs-imidazolides. By acylation of cellulose with MWNTs-imidazolides, MWNTs were covalently bonded with cellulose. Using the product, MWNTs- Cellulose (M/C) composite were fabricated and its characteristics were investigated by FT-IR and Raman spectroscopy, scanning electron microscopy and Young's modulus. The presence of covalent bonds remarkably enhanced mechanical property of M/C composite, which improved its actuator performance. The actuator performance of M/C EAPap is investigated in terms of bending displacement and resonance frequency depending on humidity level.

Published

2009

45. Effects of electrical properties of papers and electrodes for electroactive paper actuators

Author

Joycelyn S. Harrison, Sang H. Choi, Ji Su, Jaehwan Kim, and Young Beom Seo

Subjects

Materials science, law, Sputtering, Electrode, Evaporation, Cellophane, Bending, Electrolyte, Sputter deposition, Composite material, Beam (structure), law.invention

Abstract

Electro-active paper (EAPap) is a paper that produces large displacement with small force under an electrical excitation. EAPap is made with a chemically treated paper by constructing thin electrodes on both sides of the paper. When electrical voltage is applied on the electrodes the EAPap produces bending displacement. To improve the bending performance of EAPap, different paper fibers-softwood, hardwood, bacteria cellulose, cellophane, carbon mixture paper, electrolyte containing paper and Korean traditional paper, are tested. It was found that a cellophane paper exhibits a remarkable bending performance. When 2kV/mm of excitation voltage was applied, more than 3mm of tip displacement was observed out of the 30 mm long paper beam. Different thin electrodes were made by two methods-a sputtering technique and an evaporation technique. The evaporation technique is better than the sputtering technique since it can produce the electrodes at relatively low temperature, which does not change the material properties of papers significantly. The principle that dictates the actuation of EAPap seems to be more based on ionic migration effect associated with the reaction of the constituents of the paper. Details of the experiments and results are addressed.

Published

2002

46. Full-field high-resolving optical coherence tomography system for evaluating paper materials

Author

N. Margariants, Risto Myllylä, Tuukka Prykäri, Alexey Karpets, N. Kalinina, Elena Vorobeva, Igor P. Gurov, and Erkki Alarousu

Subjects

Data processing, Engineering, genetic structures, medicine.diagnostic_test, business.industry, Resolution (electron density), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Astrophysics::Instrumentation and Methods for Astrophysics, Magnification, Video camera, Signal, eye diseases, law.invention, Interferometry, Data acquisition, Optics, Optical coherence tomography, law, medicine, Computer vision, sense organs, Artificial intelligence, business

Abstract

High-resolving full-field OCT method is considered that provides increased resolution and interferometric data acquisition speed due to high optical magnification and electronic lateral scan provided by video camera. OCT data processing algorithm based on signal squaring with subsequent low-pass filtering is considered. Experimental results obtained when evaluating samples of paper material are presented and discussed.

Published

2007

47. Laser radar and laser photoacoustics in paper pulp measurements

Author

Zuomin Zhao, Matti Törmänen, and Risto Myllylä

Subjects

Photoacoustic effect, Materials science, business.industry, Attenuation, Acoustic wave, Laser, behavioral disciplines and activities, law.invention, Time of flight, Lidar, Transducer, Optics, Computer Science::Sound, law, otorhinolaryngologic diseases, sense organs, business, Photoacoustic spectroscopy, psychological phenomena and processes

Abstract

The size distribution and total amount of the particles in paper pulp is vital information for the paper manufacturer in optimising process control and maintaining a high product quality. There is a further need for improving the on-line measurement methods to measure these parameters. It is known that fibre and fines fractions in the pulp have different optical and acoustic properties. In this study, we simultaneously use laser radar and laser generation of acoustic waves to further study optical and acoustic parameters, such as optical time delay, acoustic speed and attenuation. A near infrared pulse laser is used to illuminate the pulp suspensions and the time-of-flight of scattering photons is recorded; and at the same time, a high energy pulsed laser is applied to produce an acoustic wave. The acoustic wave propagates through the pulp suspensions and an acoustic transducer is used to detect the signals from which the attenuation and acoustic speed are determined. The results show that these combined optical techniques can potentially determine the content of fibres and fine particles simultaneously.

Published

2005

48. The 100th birthday of the conic constant and Schwarzschild's revolutionary papers in optics

Author

Andrew Rakich

Subjects

Physics, Geometrical optics, business.industry, Eikonal equation, Reflecting telescope, Active optics, Conic constant, law.invention, Telescope, Theoretical physics, Optics, law, business, Schwarzschild radius, Optical aberration

Abstract

In 1905 Karl Schwarzschild published three papers on optics, two of which revolutionized the field of reflecting telescope optics. In his first paper he developed a full theory of the aberrations of reflecting telescopes, generalizing the Eikonal of Bruns to take into account systems with an infinite long conjugate. In the second paper Schwarzschild applied his formulation to a masterful analysis of 2 mirror anastigmatic systems, along the way discovering the so called Ritchey-Chretien aplanat, 18 years Ritchey and Chretien's announcement. Numerous other innovations are given in what must be seen as being among the most important papers on the aberrations of optical systems ever written.

Published

2005

49. Development of MEMS based safe electro-thermal pyrotechnic igniter for a new generation of microfuze (Invited Paper)

Author

Pierre Pennarun, Daniel Esteve, Carole Rossi, and Véronique Conédéra

Subjects

Microelectromechanical systems, Ignition system, Ground, business.industry, Computer science, law, Soldering, Thermal, Electrical engineering, Fuze, business, Electrical connection, law.invention

Abstract

This paper presents the design and development of a safe MEMS based micro electro-thermal igniter for a safe microfuze for military purpose. The proposed device"s architecture is made of: (1) one pyrotechnical micro igniter, (2) one arming function, (3) one disarming function and (3) one sterilization function. The pyrotechnical electro-thermal igniter consists in a resistive element that converts electrical energy into heat to initiate an energetic material. The arming function permits the igniter to be armed, ready to fire, only if the ignition conditions are respected. For that, a short-circuit to the electrical ground is cut and the igniter is connected to the power supply. The igniter can be reset to the safe mode (disarmed state) thanks to the disarming function that reconnects the igniter's electrical pads to the electrical ground. If necessary the igniter can be sterilized meaning that the system's ignition capability is definitively removed. All these functions are based on the use of two electro-thermal micro switches : one ON-OFF and one OFF-ON. Due to the application requirements (the fuze is used once but after a long storage, all components must have a high level of safety and reliability and the power consumption must be minimized), we opted for a new generation of one shot, safe and reliable micro switches. They are based on electro thermal mechanisms and consist in breaking one electrical connection (ON-OFF switch) or micro soldering locally two electrical connections (OFF-ON switch). Both switches have been developed in MEMS technology, characterized and are presented in this paper. A prototype of safe micro igniter with ON-OFF and OFF-ON switches has been also realized and is presented.© (2005) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

2005

50. Mask modeling in the low k 1 and ultrahigh NA regime: phase and polarization effects (Invited Paper)

Author

Andreas Erdmann

Subjects

Diffraction, Electromagnetic field, Engineering, Light diffraction, business.industry, Physics::Optics, Polarization (waves), law.invention, Optics, law, Algorithmics, Process window, Photolithography, business, Lithography

Abstract

This paper reviews state of the art mask modeling for optical lithography. Rigorous electromagnetic field (EMF) simulation of light diffraction from optical masks is compared to the traditional assumption of an infinitely thin mask, the so called Kirchhoff approach. Rigorous EMF simulation will be employed to analyze mask polarization phenomena which become important in the ultrahigh NA regime. Several important lithographic phenomena, which can be explained only with rigorous EMF simulation, are discussed. This includes the printability of small assist features, intensity imbalancing for alternating PSM, and process window deformations. The paper concludes with a discussion on material issues and algorithmic extensions which will be necessary for an accurate modeling of future mask technology.

Published

2005