Showing total 20 results

1. Cost-effective electroconductive sodium lignosulfonate/carbon nanotube composite coating for paper electronics.

Author

Martin, Anna, Dudkowiak, Alina, and Łukawski, Damian

Subjects

*COMPOSITE coating, *CARBON composites, *CARBON paper, *SODIUM, *ELECTRIC conductivity, *CARBON nanotubes

Abstract

The high demand for flexible electroconductive elements, such as organic coatings, is associated with the development of IoT devices, wearable health monitoring devices, and similar devices. To meet cost and environmental standards, the ideal coating should use the richness of nature, be biodegradable, and be water soluble to avoid the use of harmful organic solvents. All of these criteria are met by the composite coating consisting of sodium lignosulfonate (SLS) and multiwall carbon nanotubes (MWCNTs). Furthermore, the SLS/CNT coating on paper substrates is highly electroconductive, hydrophobic, and resistant to annealing, high humidity, bending, and scratching. The electrical conductivity of the SLS/CNT coating varies depending on the substrate used, but it is highly conductive and resistant on all substrates tested. Most importantly, due to the use of abundant and mass produced and cheap materials, the price of a coating containing 77 wt% SLS and 23 wt% CNT, with a sheet resistance of 113 Ω/sq is estimated to be around 2.05 EUR/m2. This coating can be especially beneficial for large-scale applications, such as heating films. [Display omitted] • SLS is an affordable and readily available stabilizer for CNT dispersion in water. • SLS/CNT creates a highly conductive coating on cellulose substrates. • The SLS/CNT coating on paper has potential applications as cost-effective sensors or heaters. • The conductivity of the coating is influenced by the properties of the substrate. [ABSTRACT FROM AUTHOR]

Published

2023

2. Ultra-robust and high-toughness graphene oxide papers via synergistic strengthening by addition of carbon-nanotubes and copper ions.

Author

Wang, Ying, Mei, Yuan, Huang, Fei, Yang, Xue, Li, Ying, Li, Jinyang, Meng, Fanbin, and Zhou, Zuowan

Subjects

*NANOTUBES, *COPPER ions, *GRAPHENE oxide, *SCANNING electron microscopes, *CARBON nanotubes, *PAPER

Abstract

Inspired by the excellent mechanical reinforcement effect of carbon nanotubes (CNTs) and the strong interactions between metal ions and graphene oxide (GO), ultra-robust, and high-toughness GO papers were fabricated via the synergistic reinforcement of CNTs and copper ions (Cu2+). The freestanding and flexible CNT/GO nanocomposite papers with a layered structure were readily fabricated by the vacuum-assisted filtration. After being cross-linked by a trace amount of copper ions (Cu2+), the tensile strength, elastic modulus and toughness of the modified GO papers increase 409.7%, 81.5% and 188.2%, respectively, when compared with the pure GO papers. It is revealed by scanning electron microscope and in situ Raman spectroscopy analysis that the CNTs and Cu2+ hindered the interlayer slippage between the GO sheets and promoted the stress transfer during the tensile loading. Considering the tunable and versatile properties of this hybrid carbon nanomaterial, this study will open an avenue for integrating rGO or GO papers to various applications. Image 1 [ABSTRACT FROM AUTHOR]

Published

2019

3. Large‐Scale Conductive Yarns Based on Twistable Korean Traditional Paper (Hanji) for Supercapacitor Applications: Toward High‐Performance Paper Supercapacitors.

Author

Heo, Young‐Jung, Lee, Ji Won, Son, Yeong‐Rae, Lee, Jong‐Hoon, Yeo, Chang Su, Lam, Tran Dai, Park, Sang Yoon, Park, Soo‐Jin, Sinh, Le Hoang, and Shin, Min Kyoon

Subjects

*SUPERCAPACITOR performance, *SUPERCAPACITOR electrodes, *ELECTRIC capacity, *CONDUCTING polymers, *PAPER, *LIGHT emitting diodes

Abstract

Abstract: A simple and scalable method to fabricate a yarn‐type supercapacitor with a large specific capacitance without the aid of traditional pseudocapacitive electrode materials such as conducting polymers and metal oxides is reported. The yarn‐type supercapacitors are made from twisting reduced graphene oxide (rGO) or/and single‐walled carbon nanotubes (SWNTs)‐coated Korean traditional paper (KTP). The yarn‐type paper supercapacitor displays surprisingly enhanced electrochemical capacitance values, showing synergistic effect between rGO and SWNTs (500 times larger than performance of yarn‐type rGO‐coated paper supercapacitors). Coating rGO or/and SWNTs on KTP gives good morphology to the composite film, in which porosity increases and mean pore diameter decreases. The yarn‐type rGO/SWNT paper supercapacitor shows good mechanical strength, high flexibility, excellent electrochemical performance, and long‐life operation. The yarn‐type supercapacitor has an excellent electrochemical performance with a specific capacitance of 366 F g−1 at scan rate of 25 mV s−1 and high stability without any degradation in electrical performance up to 10 000 charge–discharge cycles. The average capacitance of rGO/SWNT@KTP yarn‐type supercapacitors is seven times higher than that of sheet‐type supercapacitors at scan rate of 500 mV s−1. The lighting of a red light‐emitting diode (LED) is demonstrated by the yarn‐type paper supercapacitor without connecting supercapacitors in series. [ABSTRACT FROM AUTHOR]

Published

2018

4. Detection of early stage prostate cancer by using a simple carbon nanotube@paper biosensor.

Author

Ji, Sungkyung, Lee, Myeongsoon, and Kim, Don

Subjects

*CARBON nanotubes, *NANOTUBES, *NANOSTRUCTURED materials synthesis, *DIAGNOSIS, *PROSTATE cancer, *IMMUNOASSAY, *BIOSENSORS testing, *ENZYME-linked immunosorbent assay

Abstract

This study is an investigation for an inexpensive, simple and sensitive biosensor to detect prostate cancer using bioactivated-multi wall carbon nanotubes (MWCNTs, diameter of 20 nm, length of 5 µm) and a micro-pore filter paper (pore size of 0.45 µm). For the immunoassay of prostate specific antigen (PSA), which is a biomarker of prostate cancer, MWCNTs were activated with PSA antibody (monoclonal antibody of the prostate specific antigen) by using N-(3-dimethylaminopropyl)-N′-ethylcarbodiimide hydrochloride (EDC) and N-hydroxysulfosuccinimide sodium salt (NHSS). The activated MWCNTs were deposited on the micro-pore filter paper to use as a biosensor. The prepared biosensor can assay from 0 to 500 ng/mL of PSA level within 2 h with the detection limit of 1.18 ng/mL by the measurement of resistance change. The resistance change was caused by site selective interaction between PSA and PSA-antigen with an inexpensive bench top digital multimeter (5 1/2 digits). The detection range and sensitivity of the prepared sensor are good enough to diagnose the early stage of prostate cancer (> 4 ng/mL of PSA). This paper-based biosensor is about 20 times cheaper (fabricated biosensor price: 2.4 $) and over 10 times faster than enzyme-linked immunosorbent assay (ELISA), which is a general method for the detection of a specific protein in the modernized hospitals. Furthermore, the maximum detection limit is about 50 times higher than ELISA. [ABSTRACT FROM AUTHOR]

Published

2018

5. Fracture‐Induced Mechanoelectrical Sensitivities of Paper‐Based Nanocomposites.

Author

Zhang, Jinyuan, Lee, Gil‐Yong, Cerwyn, Chiew, Yang, Jinkyu, Fondjo, Fabrice, Kim, Jong‐Hoon, Taya, Minoru, Gao, Dayong, and Chung, Jae‐Hyun

Subjects

*NANOCOMPOSITE materials, *FLEXIBLE electronics, *CELLULOSE fibers, *CARBON nanotubes, *CARBON fibers, *HUMAN behavior

Abstract

Nanostructured composites built with microporous cellulose fibers and carbon nanotubes (CNTs) have potential impacts in the fields of energy storage, sensors, and flexible electronics. Few results have been shown for high mechanoelectrical sensitivity of CNT‐paper composite because of numerous current paths in the network. Here, CNT‐paper‐based nanostructured composite sensors whose sensitivities are generated by controlled tensile fracture of the composite are presented. Under uniaxial load, the cellulose fibers in the paper experience straightening, stiffening, and fracture. The cellulose fibers originally parallel to the tension are fractured while those inclined and perpendicular to the tension are reorganized to form crossbar junctions in the vicinity of a crack. The cross junctions exhibit resistive and capacitive sensitivity to the out‐of‐plane force by the compression of the junctions. Such piezoresistive and piezocapacitive sensitivities are characterized and evaluated for human behavior monitoring. [ABSTRACT FROM AUTHOR]

Published

2018

6. Direct catalytic production of sorbitol from waste cellulosic materials.

Author

Ribeiro, Lucília Sousa, Órfão, José J. de Melo, and Pereira, Manuel Fernando Ribeiro

Subjects

*SORBITOL, *WASTE products, *CATALYSIS synthesis, *BIOMASS conversion, *CARBON nanotubes, *COTTON textiles, CELLULOSE microbiology

Abstract

Cotton wool, cotton textile, tissue paper and printing paper, all potential waste cellulosic materials, were directly converted to sorbitol using a Ru/CNT catalyst in the presence of H 2 and using only water as solvent, without any acids. Conversions up to 38% were attained for the raw substrates, with sorbitol yields below 10%. Ball-milling of the materials disrupted their crystallinity, allowing reaching 100% conversion of cotton wool, cotton textile and tissue paper after 4 h, with sorbitol yields around 50%. Mix-milling these materials with the catalyst greatly enhanced their conversion rate, and the materials were efficiently converted to sorbitol with a yield around 50% in 2 h. However, ball- and mix-milled printing paper presented a conversion of only 50% after 5 h, with sorbitol yields of 7%. Amounts of sorbitol of 0.525, 0.511 and 0.559 g could be obtained from 1 g of cotton wool, cotton textile and tissue paper, respectively. [ABSTRACT FROM AUTHOR]

Published

2017

7. Multiresponsive Bidirectional Bending Actuators Fabricated by a Pencil-on-Paper Method.

Author

Weng, Mingcen, Zhou, Peidi, Chen, Luzhuo, Zhang, Lingling, Zhang, Wei, Huang, Zhigao, Liu, Changhong, and Fan, Shoushan

Subjects

*CARBON nanotubes, *NANOTUBES, *NANOSTRUCTURED materials synthesis, *ACTUATOR design & construction, *PAPER, *NANOPARTICLE synthesis, *NANOFABRICATION, *LABS on a chip

Abstract

Recently, actuating materials based on carbon nanotubes or graphene have been widely studied. However, present carbon-based actuating materials are mostly driven by a single stimulus (humidity, light, electricity, etc.), respectively, which means that the application conditions are limited. Here, a new kind of multiresponsive actuating material which can be driven by humidity, light, and electricity is proposed, so it can be used in various conditions. The fabrication is based on the simplest pencil-on-paper method, in which the pencil and paper are both low-cost and easily obtained daily materials. The actuation effect is more remarkable due to a dual-mode actuation mechanism, which leads to an ultralarge actuation (bending curvature up to 2.6 cm−1). Elaborately designed, the actuator can further exhibit a bidirectional bending actuation, which is a significant improvement compared with previous reported thermal actuators. What is more, a colorful biomimetic flower and a smart curtain are also fabricated, fully utilizing the printable characteristic of the paper and multiresponsive characteristic of the actuator. It is assumed that the newly designed actuating material has great potential in the fields of lab-on-paper devices, artificial muscles, robotics, biomimics, and smart household materials. [ABSTRACT FROM AUTHOR]

Published

2016

8. A Simple and Versatile Approach for the Fabrication of Paper-Based Nanocatalysts: Low Cost, Easy Handling, and Catalyst Recovery.

Author

Montiel, Laura, Delgado, Jorge A., Novell, Marta, Andrade, Francisco J., Claver, Carmen, Blondeau, Pascal, and Godard, Cyril

Subjects

*FABRICATION (Manufacturing), *PAPER, *CARBON nanotubes, *ALKYNES, *YNOLS

Abstract

A versatile method for the preparation of efficient and reusable nanocatalysts involving the painting of a commercial filter paper with a Pd@CNT (CNT=carbon nanotubes) ink was herein explored. The resulting paper-based material provided excellent results in the semihydrogenation of alkynes and alkynols and could be recycled at least five times without loss of activity or selectivity. [ABSTRACT FROM AUTHOR]

Published

2016

9. Carbon nanotube ink for writing on cellulose paper.

Author

Han, Jin-Woo, Kim, Beomseok, Li, Jing, and Meyyappan, M.

Subjects

*CARBON nanotubes, *INK, *CELLULOSE, *PRINTED circuits, *FOUNTAIN pens, *MULTILAYERS, *WATER, *PAPER

Abstract

Highlights: [•] Water based conductive carbon nanotube ink is synthesized. [•] Direct writing on paper is demonstrated with off-the-shelf nib of fountain pen. [•] Dual sided and multilayered paper circuit boards are demonstrated with the pen. [•] Excellent robustness against bending, folding, crumpling are confirmed. [Copyright &y& Elsevier]

Published

2014

10. Mechanical Drawing of Gas Sensors on Paper.

Author

Mirica, Katherine A., Weis, Jonathan G., Schnorr, Jan M., Esser, Birgit, and Swager, Timothy M.

Published

2012

11. Small-size biofuel cell on paper

Author

Zhang, Lingling, Zhou, Ming, Wen, Dan, Bai, Lu, Lou, Baohua, and Dong, Shaojun

Subjects

*FUEL cells, *IONIC liquids, *CARBON nanotubes, *NANOCOMPOSITE materials, *ELECTROLYTIC reduction, *ELECTROCHEMISTRY, *BILIRUBIN oxidase

Abstract

Abstract: In this work, we demonstrated a novel paper-based mediator-less and compartment-less biofuel cell (BFC) with small size (1.5cm×1.5cm). Ionic liquid functionalized carbon nanotubes (CNTs-IL) nanocomposite was used as support for both stably confining the anodic biocatalyst (i.e., NAD+-dependent glucose dehydrogenase, GDH) for glucose electrooxidation and for facilitating direct electrochemistry of the cathodic biocatalyst (i.e., bilirubin oxidase, BOD) for O2 electroreduction. Such BFC provided a simple approach to fabricate low-cost and portable power devices on small-size paper, which can harvest energy from a wide range of commercial beverages containing glucose (e.g., Nescafe instant coffee, Maidong vitamin water, Watermelon fresh juice, and Minute Maid grape juice). These made the low-cost paper-based biodevice potential for broad energy applications. [Copyright &y& Elsevier]

Published

2012

12. Paper supported immunosensor for detection of antibiotics

Author

Wu, Xiaoling, Kuang, Hua, Hao, Changlong, Xing, Changrui, Wang, Libing, and Xu, Chuanlai

Subjects

*BIOSENSORS, *ANTIBIOTICS, *ELECTROCHEMICAL analysis, *CARBON nanotubes, *ELECTRIC conductivity, *NEOMYCIN, *IMMUNE system

Abstract

Abstract: Paper supports were used to develop a simple, inexpensive, fast and sensitive electrochemical immunosensor for the analysis of antibiotic residues in milk samples, where single-walled carbon nanotubes (SWNTs) and a simple dip–dry coating method were employed to prepare the highly sensitive biosensor. Well-dispersed SWNTs were impregnated with an antibody against neomycin to obtain a composite coating solution, followed by dipping the filtration paper in the solution to fabricate the sensitive biosensor which had high electrical conductivity. Based on the impedance change in the entire paper supported biosensor with increased concentrations of neomycin, the limit detection of the optimized method was 0.04ngmL−1 and a linear detection range from 0.2 to 125ngmL−1, well below the European Union regulations for neomycin in this matrix. This paper supported biosensor was applied to determine neomycin in milk samples after a simple sample treatment, with spiked recoveries which ranged from 93.25 to 110.47%. A variety of antibiotic residues in milk samples could be determined following similar sensor preparation. [Copyright &y& Elsevier]

Published

2012

13. Highly conductive paper for energy-storage devices.

Author

Liangbing Hu, Jang Wook Choi, Yuan Yang, Sangmoo Jeong, La Mantia, Fabio, Li-Feng Cui, and Yi Cui

Subjects

*CARBON nanotubes, *ENERGY storage equipment, *PAPER, *NANOWIRES, *SUPERCAPACITORS, *LITHIUM-ion batteries

Abstract

Paper, invented more than 2,000 years ago and widely used today in our everyday lives, is explored in this study as a platform for energy-storage devices by integration with 1D nanomaterials. Here, we show that commercially available paper can be made highly conductive with a sheet resistance as low as 1 ohm per square (π/sq) by using simple solution processes to achieve conformal coating of single-walled carbon nanotube (CNT) and silver nanowire films. Compared with plastics, paper substrates can dramatically improve film adhesion, greatly simplify the coating process, and significantly lower the cost. Supercapacitors based on CNT-conductive paper show excellent performance. When only CNT mass is considered, a specific capacitance of 200 F/g, a specific energy of 30-47 Watt-hour/kilogram (Wh/kg). a specific power of 200,000 W/kg, and a stable cycling life over 40,000 cycles are achieved. These values are much better than those of devices on other flat substrates, such as plastics. Even in a case in which the weight of all of the dead components is considered, a specific energy of 7.5 Wh/kg is achieved. In addition, this conductive paper can be used as an excellent lightweight current collector in lithium-ion batteries to replace the existing metallic counterparts. This work suggests that our conductive paper can be a highly scalable and low-cost solution for high-performance energy storage devices. [ABSTRACT FROM AUTHOR]

Published

2009

14. Pyroelectric temperature sensitization of multi-wall carbon nanotube papers

Author

Kukovecz, Ákos, Smajda, Rita, Őze, Mariann, Haspel, Henrik, Kónya, Zoltán, and Kiricsi, Imre

Subjects

*CARBON nanotubes, *PAPER, *TEMPERATURE, *PRESSURE, *TEMPERATURE measurements, *NANOTUBES

Abstract

Abstract: This study explores the possibility of converting a self-supporting, randomly aligned, low impedance multi-wall carbon nanotube (MWCNT) paper into a resistive temperature measurement unit working at ambient pressure in air in the 25–70°C range. Thermosensitization was achieved by decorating the surface of the films with pyroelectric CsNO3 or LiNbO3 crystals. Assuming a linear temperature response, temperature coefficient of resistance values of −0.158%°C−1 and −0.246%°C−1 were calculated for CsNO3 and LiNbO3 doped films, respectively. The corresponding temperature measurement accuracies (2.2°C and 3.0°C) are acceptable for some applications but the precision of the temperature measurement needs to be improved. [Copyright &y& Elsevier]

Published

2008

15. Monolithic flexible supercapacitors drawn with nitrogen-doped carbon nanotube-graphene ink.

Author

Zhu, Sheng, Sheng, Jian, Jia, Guodong, Zhang, Zeyao, Guo, Jia, Wang, Meng, Ni, Jiangfeng, and Li, Yan

Subjects

*SUPERCAPACITORS, *ENERGY density, *CONDUCTIVE ink, *MIRROR images, *CARBON nanotubes, *SUPERCAPACITOR electrodes, *NITROGEN

Abstract

Flexible supercapacitor with all components monolithically integrated into an on-chip paper substrate demonstrates excellent electrochemical and mechanical performance. Supercapacitors are drawn with a conductive ink of nitrogen-doped carbon nanotube and graphene ink, which has been prepared without assistance of surfactant. The engineering strategy is intrinsically scalable toward flexible paper devices. [Display omitted] • A surfactant-free ink of nitrogen-doped carbon nanotubes and graphene is prepared. • The electrodes are integrated onto a paper in mirror image. • The resultant supercapacitor presents a high volumetric capacitance of 0.45 F cm−3. • The strategy is intrinsically scalable toward flexible supercapacitors. We demonstrate a facile strategy to fabricate flexible paper-based supercapacitors, in which all the components are integrated onto a paper with poly (vinyl alcohol)/H 3 PO 4 as the gel electrolyte. The electrodes are drawn on both sides of the paper in a mirror image with a surfactant-free ink of nitrogen-doped carbon nanotubes and graphene. The resultant supercapacitors present a high volumetric capacitance of 0.45 F cm−3 and an energy density of 40.0 μWh cm−3. Moreover, this strategy is intrinsically scalable toward flexible energy devices while maintaining their electrochemical and mechanical performance. [ABSTRACT FROM AUTHOR]

Published

2021

16. Development of Paper Actuators Based on Carbon-Nanotube-Composite Paper.

Author

Ampo, Takahiro, Oya, Takahide, and Mirkhani, Seyyed Alireza

Abstract

We propose a unique soft actuator—a paper actuator—based on carbon-nanotube-composite paper (CNT-composite paper), which is a composite of carbon nanotubes (CNTs) and paper. CNT-composite paper has highly efficient properties because of the contained CNTs, such as high electrical conductivity and semiconducting properties. We are considering using CNT-composite paper for various devices. In this study, we successfully developed a paper actuator. We determined the structure of the paper actuator by referencing that of bucky-gel actuators. The actuator operates using the force generated by the movement of ions. In addition to making the paper actuator, we also attempted to improve its performance, using pressure as an index and an electronic scale to measure the pressure. We investigated the optimal dispersant for use in paper actuators, expecting the residual dispersant on the CNT-composite paper to affect the performance differently depending on the type of dispersant. Referring to research on bucky-gel actuators, we also found that the addition of carbon powder to the electrode layers is effective in improving the pressure for paper actuators. We believe that the paper actuator could be used in various situations due to its ease of processing. [ABSTRACT FROM AUTHOR]

Published

2021

17. Supercapacitors: Large‐Scale Conductive Yarns Based on Twistable Korean Traditional Paper (Hanji) for Supercapacitor Applications: Toward High‐Performance Paper Supercapacitors (Adv. Energy Mater. 27/2018).

Author

Heo, Young‐Jung, Lee, Ji Won, Son, Yeong‐Rae, Lee, Jong‐Hoon, Yeo, Chang Su, Lam, Tran Dai, Park, Sang Yoon, Park, Soo‐Jin, Sinh, Le Hoang, and Shin, Min Kyoon

Subjects

*SUPERCAPACITOR performance, *PAPER, *CARBON nanotubes

Published

2018

18. Amazing Battery Made of … Paper?

Author

Morgan, Richard

Subjects

*ELECTRIC batteries, *PHYSICS research, *PAPER, *CARBON nanotubes, *CELLULOSE chemistry

Abstract

The article discusses physics research conducted in 2007 in regards to the development of a battery made of paper. The work of a team at Rensselaer Polytechnic Institute in New York is described, incorporating carbon nanotube arrays and dissolved cellulose to produce electric power. The design's ability to easily augment itself is also noted.

Published

2008

19. Shocking Sheets.

Author

Goho, Alexandra

Subjects

*CELLULOSE, *ENERGY storage equipment, *ENERGY research, *PAPER, *ENERGY development, *FORCE & energy, *CARBON nanotubes

Abstract

The article reports on an ultrathin material, resembling paper, that is made of cellulose and carbon nanotubes and can be used as a powerful energy source. The material can be physically altered in shape without taking any damage to its overall function. Scientists believe that this could alter the way in which energy is used to power objects.

Published

2007

20. Nanotech Creates Batteries Out of Paper.

Author

Gaudin, Sharon

Subjects

*NANOTECHNOLOGY, *STORAGE batteries, *PAPER, *CARBON nanotubes

Abstract

The article reports on the study conducted by the researchers at Stanford University on the use of nanotechnology to create batteries out of paper. It states that the batteries are developed in a way that it could be crumpled, folded and soaked in an acidic solution and still function. It notes that the team designed the invention by coating a sheet of paper with carbon nanotubes ink and silver nanowires.

Published

2009