Showing total 866 results

1. Design & study of cost-effective conservation of watercolor paper.

Author

Ng, Woon Lam, Hu, Huanlong, and Zhuang, Zeyan

Subjects

*WATERCOLOR painting, *FIELD emission electron microscopy, *ENERGY dispersive X-ray spectroscopy, *ACRYLIC coatings, *ACRYLIC painting

Abstract

• White acrylic paint pigment is slightly alkaline and foxing-resistant. • Acrylic-gesso-coated watercolor paper can be used as an anti-foxing backing. • Acrylic gesso coating is simple & cost-effective against foxing. One of the concerns of watercolor artworks on paper is the natural oxidation process of the paper, leading to the development of unsightly yellow-brown spots referred to as foxing. Historically, efforts to preserve watercolor pieces in museums, institutions, and private collections have relied on intricate and expensive techniques. Unfortunately, these methods are not practical for the broader community of artists and less affluent collectors. Furthermore, the introduction of foreign preservation materials, which can interact with the artwork's components, poses a risk to the original visual appeal. Consequently, watercolor art collections have lost some of their appeal compared to oil paintings on canvases. This study endeavors to offer an alternative, straightforward, and cost-efficient approach to safeguarding watercolor artworks created on high-quality watercolor paper, a type commonly used by typical watercolorists, making it a suitable candidate for this investigation. This approach also avoids introducing additional substances to the artwork. The protective technique involves the application of commercially available acrylic gesso to a fresh sheet of watercolor paper. This gesso-coated paper serves as a backing for framing and displaying the original watercolor artwork, without the need for any foreign preservation materials to be added to the artwork itself. To assess the effectiveness of this protection method, a comparison was made between the foxing tendencies of protected and unprotected paper artworks stored for a decade. These samples were subjected to various analytical techniques, including optical microscopy (OM), confocal laser scanning microscopy (CLSM), field emission scanning electron microscopy with energy dispersive X-ray spectroscopy (FESEM-EDX), X-ray diffraction (XRD), attenuated total reflectance-Fourier transform infrared spectroscopy (ATR-FTIR), and thermogravimetric analysis (TGA). The results revealed that, when compared to untreated samples, rarely any foxing spots were observed on any of the treated samples, and both the oxidation and degradation of cellulose fibers were diminished. Additionally, the analysis showed that the acrylic gesso comprised inorganic components such as calcium carbonate (CaCO 3), dolomite (CaMg(CO 3) 2), rutile (TiO 2), and organic acrylics. The carbonates created a mildly alkaline environment, neutralizing the acidity in the paper. The titanium dioxides exhibited biocidal and fungicidal properties due to their photocatalytic characteristics. The acrylic component bound and dispersed the inorganic constituents, and the coating formed a less impenetrable barrier layer as indicated by the scanning electron microscopy (SEM) results. In addition to significantly improving the resistance of the paper to foxing, the methods outlined in this study are highly cost-effective and readily accessible to artists and collectors. Importantly, they do not involve the addition of any restoration materials to the original artworks. [ABSTRACT FROM AUTHOR]

Published

2024

2. Deacidification and consolidation of brittle book paper using bacterial cellulose composite with zinc oxide nanoparticles.

Author

Li, Yanli, Wang, Jianwei, Jia, Zhihui, Zhou, Yajun, Chao, Xiaolian, Terigele, Li, Jiaxin, Li, Yuhu, and Xing, Huiping

Subjects

*ZINC oxide, *X-ray photoelectron spectra, *MECHANICAL drawing, *CELLULOSE, *NANOPARTICLES, *FUNGAL growth

Abstract

• BC/ZnO nanocomposite strengthens paper and improves aging resistance. • The nanocomposite imparts antifungal properties to paper. • The nanocomposite helps in deacidification of paper. Paper, commonly used as an information carrier, can become acidified and brittle over time. In this study, 0.3 % bacterial cellulose (BC) composite with 1.0% zinc oxide (ZnO) nanoparticles was prepared and used to coat brittle book paper for deacidification and consolidation. The BC/ZnO nanocomposite was characterized using zeta potential, micro morphology, elemental mapping, X-ray photoelectron spectra, Fourier transform infrared, and thermogravimetric analyses. The results indicated that the composite exhibited good stability. ZnO nanoparticles were bonded to the hydroxyl groups on BC, enhancing the thermal stability of BC. The composite was uniformly sprayed on the paper surface, and the mechanical properties, color difference, readability, pH, and micromorphology of the paper samples were examined before and after the treatment. The BC/ZnO nanocomposite exhibited good deacidification and consolidation effects on paper samples with low impact on the original paper appearance. Moreover, the BC/ZnO nanocomposite showed a good inhibitory effect on fungi growth on paper. [ABSTRACT FROM AUTHOR]

Published

2023

3. Fire-resistant and hydrophobic paper based on Si3N4@PDMS core-shell nanowires with 3D interlocking structure.

Author

Liu, Yeye, Zhang, Leilei, Zhao, Fei, Li, Chang, Sheng, Hongchao, and Li, Hejun

Subjects

*WATER damage, *NANOWIRES, *SILICON nanowires, *CORPORATE bonds, *HYDROPHOBIC surfaces, *SURFACE energy, *CONTACT angle

Abstract

Paper with simultaneous fire-resistance and hydrophobicity have greatly potential applications in the fields of packing, storage and delivering information, which attracts increasing attention recently. Different from the traditional cellulose-based paper which is extremely easily damaged by water and fire, a new type of highly flexible, fire-resistant and hydrophobic paper based on Si 3 N 4 nanowires and polydimethylsiloxane (PDMS) is reported. Specially, the Si 3 N 4 @PDMS core-shell nanowires with 3D interlocking structure are designed, in which the Si 3 N 4 nanowires act as the inorganic fire-resistant frameworks and the PDMS shell with low surface energy provides the hydrophobic surface. The Si 3 N 4 @PDMS core-shell nanowires are intertwined and interlaced to form a highly flexible Si 3 N 4 @PDMS paper. The tensile strength of Si 3 N 4 @PDMS paper is 6.19 MPa, indicating the good mechanical property. The obtained Si 3 N 4 @PDMS paper has the characteristics of writability, fire-resistance and hydrophobicity. The high thermal stability of Si 3 N 4 nanowires makes Si 3 N 4 @PDMS paper exhibit excellent fire resistance. No obvious change is observed for the commercial paper with Si 3 N 4 @PDMS paper as the fire-shielding layer after heating for 30 min. In addition, the contact angles of water droplets are all greater than 110° over the surfaces of Si 3 N 4 @PDMS paper after mechanical damages, chemical corrosions and thermal treatments. Si 3 N 4 @PDMS paper can be used in oil/water separation and oil collection. More importantly, Si 3 N 4 @PDMS paper can be used for writing without being damaged by fire or water. The present work may inspire the development and application of functional paper and is expected to become a breakthrough in the traditional paper industry. [ABSTRACT FROM AUTHOR]

Published

2023

4. Black printed paper as a simple method to assess laser beam profile.

Author

AlJasser, Mohammed I.

Published

2023

5. Paper based self-powered UV photodiode: Enhancing photo-response with AZO back-field layer.

Author

Li, Yinan, Nie, Shuangxi, Huang, Liulian, Chen, Lihui, Ni, Yonghao, and Zheng, Qinghong

Subjects

*ELECTRONIC equipment, *OHMIC contacts, *ELECTRIC fields, *PHOTODIODES, *SUSTAINABLE development

Abstract

The development of self-powered UV photodiode on green substrate is still a challenge. In this study, highly conductive Al doped ZnO (AZO) film was sputter-deposited on paper substrate at room temperature; subsequently, paper-based Schottky photodiodes were successfully fabricated by following Au-ZnO-Al and Au-ZnO-AZO-Al structure designs, respectively. These UV light-based devices operate successfully without external power. Au-ZnO-AZO-Al photodiode shows improved response and faster speed compared to Au-ZnO-Al photodiode. The one-dimensional Poisson simulation results demonstrate that the improvement is attributed to the strong electric field in the ZnO-AZO n-n+ high-low junction, thus, enhancing the collection rate and drifting speed of the photogenerated carriers. In addition, AZO can form favorable ohmic contact with the Al electrodes, further improving the device performance. The photo-response of the paper-based photodiode device shows high reproducibility and stability. Based on these outstanding results, we conclude that these paper-based electronic devices have great potential to replace conventional petroleum-based flexible electronic devices, thus, contributing to the green/sustainable development. [ABSTRACT FROM AUTHOR]

Published

2023

6. Degradation of paper-based boxes for food delivery in composting and anaerobic digestion tests.

Author

Dolci, Giovanni, Intilisano, Martina, Fava, Floriana, Venturelli, Valeria, Malpei, Francesca, and Grosso, Mario

Subjects

*POLYLACTIC acid, *LOCAL delivery services, *FOOD waste, *CARTONS, *ANAEROBIC digestion

Abstract

[Display omitted] • Food delivery boxes are tested for aerobic disintegration and anaerobic degradation. • Boxes made of paper only or with coatings (including polylactic acid) are analysed. • Paper is highly suitable for biological treatments behaving similarly to food waste. • Aerobic disintegration of coated boxes is much slower than that of paper only boxes. • Undigested polylactic acid coating is found in anaerobic semi-continuous tests. This study evaluated the fate of food delivery boxes when subjected to biological treatments, reproducing at the lab-scale the conditions of full-scale plants. Four paper-based boxes were composted: two made of paper only, one coupled with polylactic acid (PLA), and one with a barrier coating. One paper only box and the box with PLA were also investigated for their anaerobic degradability with biochemical methane potential (BMP) and semi-continuous tests. During composting, the boxes were not recognisable inside the compost after four (paper only boxes), eight (box with PLA), and twelve (box with barrier coating) weeks. In BMP tests, the paper only box showed a degradability similar to that of food waste (92 %), while the box with PLA degraded only at 76 %. Furthermore, undigested pieces of PLA were found in semi-continuous tests. Accordingly, paper resulted suitable for biological treatments, while the presence of PLA or other barrier coatings can be critical. [ABSTRACT FROM AUTHOR]

Published

2024

7. Environmental dose-response functions of silk and paper exposed in museums.

Author

Grøntoft, Terje, Hallett, Kathryn, and Blades, Nigel

Subjects

*ULTRAVIOLET radiation, *DEGREE of polymerization, *SILK, *FORMIC acid, *MOLECULAR weights

Abstract

• Silk and sensitive paper was deteriorated by UV-radiation, NO 2 , and O 3 in museums. • Sensitive paper was also deteriorated by SO 2 at 4 µgm−3 and HCOOH at 50 µgm−3. • Intolerable degradation happened 6–7 times earlier in galleries than in enclosures. This paper reports 1 year of data of the environments and changes in the molecular weight of silk and the degree of polymerization of sensitive paper measured externally and indoors in 10 European museums, and the dose-response functions that were obtained by statistical analysis of this data. The measurements were performed in the EU FP5 project Master (EVK-CT-2002-00093). The work provides documentation of deterioration of silk by NO 2 and O 3 , and alternatively in combination with UV radiation. The indoor deterioration of the silk was only observed in one location with high UV radiation. The indoor deterioration of sensitive paper correlated with the UV radiation, the concentrations of NO 2 and O 3 , and in addition with an SO 2 concentration of 4 µgm−3 and a formic acid concentration of 50 µgm−3 in two different locations. If the observed dose-response effects are linear to lower doses and longer exposure times, then the lifetime to intolerable deterioration of the paper and silk would be 6–7 times longer overall in the enclosures than in the galleries. [ABSTRACT FROM AUTHOR]

Published

2024

8. Poly(3,4-dihydroxyphenylalanine)-modified cellulose paper for the extraction of deoxyribonucleic acid by a laboratory-built automated extraction device.

Author

Fang, Xun, Pu, Xiaoxiao, Xie, Wenting, Yang, Wenjuan, and Jia, Li

Subjects

*ESCHERICHIA coli, *DNA, *POLYMERASE chain reaction, *ADSORPTION capacity, *THREE-dimensional printing

Abstract

• A cost-effective and eco-friendly polyDOPA@paper was prepared for DNA extraction. • The adsorption capacity of polyDOPA@paper for DNA was 20.7 μg cm−2. • An automated extraction system was designed to ensure results consistency. • The DNA extraction platform averts the need for specialized training of operators. • The platform combined with qPCR realized the detection of E. coli in milk samples. The success of polymerase chain reaction (PCR) depends on the quality of deoxyribonucleic acid (DNA) templates. This study developed a cost-effective and eco-friendly DNA extraction system utilizing poly(3,4-dihydroxyphenylalanine)-modified cellulose paper (polyDOPA@paper). PolyDOPA@paper was prepared by oxidatively self-polymerizing DOPA under weak alkaline conditions and utilizing the adhesive property of polyDOPA on different materials. Compared to the uncoated cellulose paper, polyDOPA coating significantly enhances DNA adsorption owing to its abundant amino, carboxyl, and hydroxyl moieties. The DNA extraction mechanism using polyDOPA@paper was discussed. The maximum adsorption capacity of polyDOPA@paper for DNA was 20.7 μg cm−2. Moreover, an automated extraction system was designed and fabricated using 3D printing technology. The device simplifies the operation and ensures the reproducibility and consistency of the results. More importantly, it eliminates the need for specialized training of operators. The feasibility of the polyDOPA@paper-based automated extraction system was evaluated by quantitatively detecting Escherichia coli in spiked milk samples via a real-time PCR. The detection limit was 102 cfu mL−1. The results suggest that the system would have significant potential in detecting pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

9. Fusion of cellulose microspheres with pulp fibers: Creating an unconventional type of paper.

Author

Scheer, Alexa, Fischer, Johanna, Bakhshi, Adelheid, Bauer, Wolfgang, Fischer, Steffen, and Spirk, Stefan

Subjects

*CELLULOSE, *MICROSPHERES, *SURFACE roughness, *SCANNING electron microscopy, *PAPER products, *NANOFIBERS

Abstract

Cellulose microspheres (CMS) are a type of spherical regenerated cellulose particles with versatile properties which have been used as carrier materials in medical and technical applications. The integration of CMS into paper products opens up novel application scenarios for paper products in a wide range of fields. However, the incorporation of CMS carriers into paper products is challenging and hitherto no reports do exist in literature. Here, we present a feasibility study to incorporate up to 50 w.% CMS in paper hand sheets using retention aids. Our primary observations highlight the successful formation of uniform paper hand sheets retaining its tensile strengths at elevated CMS concentrations. Sheets with high CMS contents exhibit an increase in density and display enhanced surface smoothness — an outcome of a CMS layer forming atop the fiber base — which effectively bridges voids and rectifies surface irregularities as supported by Gurley testing, infinite focus microscopy and scanning electron microscopy. While our primary objective centered on the general feasibility to manufacture CMS-containing papers, the resulting composite scaffold carries significant potential as a platform for innovative, functional paper-based materials. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

10. Hygroscopic paper enhanced using hydroxyapatite coating for wearable TENG sensors.

Author

Liu, Songling, Tong, Wangshu, Gao, Caixia, Wang, Xuemei, Liu, Yulun, and Zhang, Yihe

Subjects

*NANOGENERATORS, *WEARABLE technology, *OPEN-circuit voltage, *SHORT-circuit currents, *HYDROXYAPATITE coating, *RANGE of motion of joints, *SURFACE coatings

Abstract

• Hydroxyapatite (HAP) composite paper with biocompatibility and hygroscopicity was prepared. • HAP composite paper has better hygroscopic and triboelectric properties than pure paper, making it more suitable for wearable sensing applications. • The HAP composite paper-based triboelectric nanogenerator can detect and distinguish different joint movements. • Hemostatic and disposable HAP composite paper can be degraded in the natural environment without harm. Wearable triboelectric nanogenerators (TENGs) have attracted considerable attention in the field of self-powered sensors that can be worn on the skin directly without packaging because of their breathability, conformability, and sensitivity to collect biomechanical energy. However, high humidity on the skin can affect the wearable TENG output performance, substantially affecting the sensor performance and stability. When worn for a long time, humidity can even cause skin inflammation. Thus, for a wearable TENG, moisture control and biocompatibility are also key factors that need to be addressed. Herein, we report a hygroscopic and biocompatible paper-based TENG using a hydroxyapatite (HAP) mineral coating to enhance the paper fiber. The mineral coating can maintain the surface of the paper fiber, which will not cause large external deformation of the paper fiber under a force, avoid squeezing out excess water, and keep the friction surface dry, avoiding humidity affecting the output performance. Without interfering with the performance of the TENG, the maximum water absorption of the HAP composite paper is ∼8 μL. The HAP composite paper–based TENG (4 cm2) has an open-circuit voltage and short-circuit current 5.8 times and 4.2 times that of pure paper, respectively, and can obtain 80.4 mW/m2 output and directly light 117 LEDs. At relative humidity values of 25.7 %, 43.1 %, and 58.8 %, the performance retained the peak values of 80.2 %, 68 %, and 63.7 %, respectively. Even at a high relative humidity of 71.7 %, the triboelectric performance of HAP composite paper is retained 59.3 %, and the stability under humidity is better than that of pure paper (45.6 %). In addition, the mineral paper can even work with tissue fluid and output performance decreases by 43.8 %. The mineral-enhanced paper TENG with high power generation performance, hygroscopicity, biocompatibility, and degradability provides a new perspective for disposable wearable sensors, even in medical treatment. [ABSTRACT FROM AUTHOR]

Published

2024

11. Preparation of high-solid PLA waterborne dispersions with PEG-PLA-PEG block copolymer as surfactant and their use as hydrophobic coating on paper.

Author

Calosi, Matteo, D'Iorio, Andrea, Buratti, Elena, Cortesi, Rita, Franco, Silvia, Angelini, Roberta, and Bertoldo, Monica

Subjects

*XANTHAN gum, *DISPERSION (Chemistry), *SURFACE energy, *GEL permeation chromatography, *SURFACE coatings, *SURFACE active agents

Abstract

Paper-based packaging is experiencing a resurgence due to its inherent biodegradability and recyclability. To meet the barrier properties required for certain applications, a coating is necessary. This coating must enhance functionality without compromising the environmental sustainability of the substrate. With this goal in mind, we prepared waterborne dispersions of biodegradable poly(lactic acid) (PLA) using a PEG-PLA-PEG triblock copolymer as the main surfactant. We achieved formulations with good stability over a 6-month period and high solids content (∼40 wt%). The waterborne dispersions underwent analysis by dynamic light scattering (DLS), size exclusion chromatography (SEC), gravimetric tests, and rotational rheology with and without xanthan gum (0.2–0.8 wt%) as a thickener. Subsequently, the thickened dispersions were coated at 60 °C onto a paper substrate. SEM analyses revealed the formation of a polymer layer on the paper surface with thickness and morphology dependent on the processing conditions. Partial interpenetration between the coating and the paper fibers was observed, resulting in excellent adhesion between the layers. The coated paper exhibited good barriers to liquid and water vapor, with Cobb60 < 5 g/m2 and water vapor transmission rate (WVTR) < 100 g/(m2∙day) for coating weights ≤15 g/m2, comparable to the performance of solvent-based PLA paper coatings. The surface energy of the coating was approximately 50 dyne/cm, higher than that of neat PLA, making it suitable for printing with common inks. Furthermore, the coated paper can be fully pulped in water, indicating that it can still be recycled in the paper stream, albeit with potentially increased processing time due to the coating weight. [Display omitted] • A PEG-PLA-PEG block copolymer was proven to stabilize waterborne PLA dispersions. • Dispersions with 40 % solid content were obtained. • The dispersions thickened with xanthan gum were successfully coated on paper at 60 °C. • PLA-coated paper had similar water barrier properties to its oil-based counterpart. • Repulping of PLA-coated paper is possible but slower than for uncoated paper. [ABSTRACT FROM AUTHOR]

Published

2024

12. Paper-based optical sensor arrays for simultaneous detection of multi-targets in aqueous media: A review.

Author

Mohan, Binduja, Sasaki, Yui, and Minami, Tsuyoshi

Subjects

*SENSOR arrays, *OPTICAL sensors, *ELECTRONIC noses, *ENVIRONMENTAL monitoring, *IMAGE analysis, *FOOD safety, *SPECTROPHOTOMETERS

Abstract

Sensor arrays, which draw inspiration from the mammalian olfactory system, are fundamental concepts in high-throughput analysis based on pattern recognition. Although numerous optical sensor arrays for various targets in aqueous media have demonstrated their diverse applications in a wide range of research fields, practical device platforms for on-site analysis have not been satisfactorily established. The significant limitations of these sensor arrays lie in their solution-based platforms, which require stationary spectrophotometers to record the optical responses in chemical sensing. To address this, this review focuses on paper substrates as device components for solid-state sensor arrays. Paper-based sensor arrays (PSADs) embedded with multiple detection sites having cross-reactivity allow rapid and simultaneous chemical sensing using portable recording apparatuses and powerful data-processing techniques. The applicability of office printing technologies has promoted the realization of PSADs in real-world scenarios, including environmental monitoring, healthcare diagnostics, food safety, and other relevant fields. In this review, we discuss the methodologies of device fabrication and imaging analysis technologies for pattern recognition-driven chemical sensing in aqueous media. [Display omitted] • Cross-reactive sensors are applied to paper-based arrays for simultaneous detection. • Portable digital recorders can be used for detecting various responses. • Imaging analysis techniques can accelerate accurate data processing. [ABSTRACT FROM AUTHOR]

Published

2024

13. Polyvinyl chloride coated paper postmodified by nucleophilic substitution with diphenylamine to enhance cation-π interactions with opioids in saliva samples.

Author

Pedraza-Soto, Ana M., Calero-Cañuelo, Carlos, Lucena, Rafael, and Cárdenas, Soledad

Subjects

*DIPHENYLAMINE, *OPIOIDS, *POLYVINYL chloride, *SALIVA, *REFLECTANCE spectroscopy, *MASS spectrometry, *ALKALOIDS

Abstract

[Display omitted] • PVC-diphenylamine modified cellulose was proposed as sorptive phase. • The synthesis, using the dip-coating technique, is simple and cost-effective. • Opioids interact with the membrane by a mixed-mode interaction. • Direct infusion mass spectrometry allows to reduce the time of analysis. • The approach was successfully applied to real saliva samples containing codeine and tramadol. This article evaluates the potential of cellulose paper as a substrate for preparing a polyvinylchloride (PVC)-diphenylamine sorptive phase that can be used under the thin film microextraction (TFME) format. This phase was easily synthesized using the dip-coating technique to coat the filter paper with PVC, followed by the covalent bonding of diphenylamine. As a result, aromatics rings are available on paper surface to isolate the target analytes by a mixed-mode interaction at physiological pH. The resulting material was characterized by infrared spectroscopy, UV–Vis diffuse reflection spectroscopy, and scanning electron microscopy. As analytical problem, three opioids (methadone, codeine, and tramadol) were determined in saliva samples by direct infusion mass spectrometry. Different variables involved in the extraction procedure have been optimized (e.g. sample pH, extraction time, and sample dilution). The proposed method provides good linearity (R2 > 0.9817) and sensitivity (detection limits in the range from 1.5 µg L−1 to 15 µg L−1). The intra-day and inter-day precision, expressed as relative standard deviation, were better than 16.4 % and 18.5 % respectively. The accuracy, expressed as relative recovery, provides values in the interval from 82 % to 105 %. Finally, the proposed approach has been successfully applied to real saliva samples of patients under codeine and tramadol medical prescription. [ABSTRACT FROM AUTHOR]

Published

2024

14. Role of nanocellulose in colored paper preparation.

Author

Dai, Lei, Wang, Xiaowan, Jiang, Xue, Han, Qing, Jiang, Feng, Zhu, Xianqi, Xiong, Chuanyin, and Ni, Yonghao

Subjects

*CELLULOSE, *MANUFACTURING processes, *NANOFIBERS, *FUNCTIONAL groups, *REACTIVE dyes, *CARBON nanofibers, *SURFACE area

Abstract

Colored paper is an important industrial paper grade that has applications in various industrial sectors. The increase in coloring efficiency is a key in decreasing the use of dyes, thus can be considered as a "green" process concept; the coloring efficiency depends on the dye retention and dispersion. This work explores the use of nanocellulose, specifically, TEMPO-oxidized cellulose nanofibers (TOCNF), on the coloring efficiency of the preparation of colored paper. Two dyes (i.e. direct blue GL and reactive red 195 (RR195)) were used. Thanks to the large specific surface area and abundant active sites of TOCNF, its use largely improves the direct blue GL retention during the process. The coloring difference (∆E* ab) reached 5.334 with the addition of 13.6 wt% TOCNF and 1.8 wt% direct blue GL in the pulp furnish. The functional group in the dye is a vital factor in determining the dye retention when one chooses TOCNF to enhance the coloring efficiency in the production of colored paper. Furthermore, TOCNF significantly improved the strength properties of both direct blue GL and RR 195 dyed papers. This work demonstrates the potential of nanocellulose in the production of colored paper in improving the coloring efficiency, thus decreasing the environmental impact of the manufacturing process. [Display omitted] • Nanocellulose (i.e. TOCNF) adopted for colored paper preparation • Coloring efficiency improved by TOCNF due to the dye retention improvement • -COO− in TOCNF deteriorating its combination with negatively-charged dye [ABSTRACT FROM AUTHOR]

Published

2022

15. PHMG-KH560 as antifungal and reinforcement media for paper materials.

Author

Jia, Minghao, Huang, Xiaoxia, Zhang, Xiaogang, and Hu, Gang

Abstract

Improving the strength decrease caused by fungal metabolites is still an arduous task in the field of paper materials protection. A set of damaged Kangxi Dictionary from Qing Dynasty was chosen as samples in this work. The main goal of this work is to develop high-efficiency and eco-friendly media with the characteristics of antifungal and reinforcement, to preserve paper materials and continue the historical and scientific research value of cultural heritage. PHMG as an efficient antifungal was used in this work. For better behavior, the epoxy group of KH560 can be induced by the amino group in PHMG by ring opening reaction to form PHMG-KH560 colloidal complex. Spraying PHMG-KH560 on paper could establish Si-O-C bonding and increased the hydrogen bond between polymeric material and paper fibers, which simultaneously inhibited fungi and improved mechanical strength of the original paper, even after the artificial aging. PHMG-KH560 had certain antifungal activity against five fungi, such as Aspergillus versicolor, and Aspergillus Niger , and had better inhibitory effect on Cladosporium herbarum, Trichoderma viride , and Penicillium expansum. The ancient writing ink on the paper sprayed with PHMG-KH560 did not affect its visual beauty, which also indicated that the complex reagent was expected to be applied to the antifungal and reinforcement of paper materials. [ABSTRACT FROM AUTHOR]

Published

2022

16. Biodegradable composite hydromulches for sustainable organic horticulture.

Author

Durado, Andrew, Bajwa, Dilpreet S., Gramig, Greta, Weyers, Sharon, DeVetter, Lisa Wasko, Formiga, Alice, and Galinato, Suzette

Subjects

*GUAR gum, *GUAR, *LOW density polyethylene, *WOOD, *HORTICULTURAL crops

Abstract

Surface-applied mulches help retain soil moisture and optimize soil temperature while preventing weed growth and benefiting many horticultural crops. The most common mulch material is low-density polyethylene (LDPE), is typically landfilled, buried, or burned at the end of growing season causing negative environmental impacts. The goal of this research was to develop soil-biodegradable, liquid-applied (i.e., hydromulch) alternatives to LDPE mulch and optimize formulations that are acceptable for organic horticulture. Hydromulch (HM) treatments contained mixtures of paper pulp, wood fiber, or hemp hurds (Cannabis sativa L.) combined with various tackifiers and water. The tackifiers were guar gum (Cyamopsis tetragonoloba (L.) Taub.), psyllium husk (Plantago ovata L.) , and camelina meal (Camelina sativa (L.) Crantz), included at various proportions. Hydromulch samples were tested for physical properties (density, water holding capacity, C:N ratio, soil adhesion) and mechanical properties (tensile strength, puncture resistance). Hydromulches containing no tackifiers were included as controls to determine if the addition of tackifiers resulted in enhanced mechanical properties. The results showed addition of 6 % guar gum tackifier improved the tensile strength and puncture resistance by 182 % and 91 % respectively compared to control sample, and HM formulations containing paper were 200 % or more stronger than those containing wood or hemp hurds. Increased tackifier proportion was found to improve most mechanical properties, with guar gum performing best. Blending of tackifiers resulted in an interaction that decreased strength. Hydromulches containing wood fiber and hemp hurds did not show promising results. Paper in HM formulations helped to reduce mulch porosity and improved adhesion to soil. Results from the study provide a foundation on optimal formulations for expanded trials at field-scale. • Hydromulch (HM) manufactured using paper, wood fibers, hemp hurds and organic tackifiers. • Paper based HM demonstrated high mechanical properties compared to wood fiber and hemp hurds. • Guar gum and psyllium husk are most promising tackifiers. • The amount of tackifier has direct influence on the puncture resistance and tensile strength of HM. [ABSTRACT FROM AUTHOR]

Published

2024

17. Microwave-assisted choline chloride/lactic acid pretreatment for high-efficiency separation and value-added utilization of Sugarcane bagasse components.

Author

Gan, Peng, Zhang, Kai, Xu, Qixi, Zhao, Yu, Li, Jinze, Yang, Guihua, Zhang, Yunlai, Wang, Yifan, Zhang, Lei, Wang, Baobin, Shang, Minghui, and Chen, Jiachuan

Subjects

*CHOLINE chloride, *WASTE recycling, *LACTIC acid, *INDUSTRIAL goods, *BAGASSE, *FURFURAL

Abstract

The development of non-waste biorefinery technology is conducive to the efficient utilization of waste biomass resources. In this study, the microwave-assisted deep eutectic solvent (DES) was used to pretreat sugarcane bagasse for efficient separation of chemical components and upgrading each component into industrial products, including paper, lignin microspheres (LMS) and furfural. After rapid and mild DES pretreatment at 135 °C for 20 min, the retention rate of cellulose in the solid residue was 95.2 %, while the removal rates of hemicellulose and lignin were 84.1 % and 88.3 %, respectively. The whiteness of handmade paper derived from solid residue could reach 63.8 %ISO. During DES fractionation, the gradual increase of water reduced the collision probability of lignin fragments, inhibited condensation reactions, and achieved graded precipitation of lignin. Then, the self-assembly method enabled the fabrication of both small solid LMS and large hollow LMS. Furthermore, AlCl 3 was added to the diluted DES to convert the separation system into a catalytic system. Under the synergistic catalysis of lactic acid, AlCl 3 , and choline chloride, biomass sugars were efficiently converted into furfural with a yield of 68.81 %. In a word, the high-value utilization of all components of sugarcane bagasse was achieved through a sustainable biorefining process, resulting in an impressive comprehensive utilization rate of 70.6 %. [Display omitted] • Efficient separation of sugarcane bagasse components was achieved. • Sugarcane bagasse was efficiently converted into three industrial products. • The comprehensive utilization rate of all components can reach up to 70.6 %. • A scalable platform was provided for the valuation of waste-free biorefinery. [ABSTRACT FROM AUTHOR]

Published

2024

18. Nano/micro flexible fiber and paper-based advanced functional packaging materials.

Author

Wang, Yaxuan, Xu, Ting, Qi, Junjie, Liu, Kun, Zhang, Meng, and Si, Chuanling

Subjects

*FOOD packaging, *BIOPOLYMERS, *PACKAGING industry, *FOOD safety, *CHEMICAL properties, *PACKAGING materials

Abstract

Recently, fiber-based and functional paper food packaging has garnered significant attention for its versatility, excellent performance, and potential to provide sustainable solutions to the food packaging industry. Fiber-based food packaging is characterized by its large surface area, adjustable porosity and customizability, while functional paper-based food packaging typically exhibits good mechanical strength and barrier properties. This review summarizes the latest research progress on food packaging based on fibers and functional paper. Firstly, the raw materials used for preparing fiber and functional paper, along with their physical and chemical properties and roles in food packaging, were discussed. Subsequently, the latest advancements in the application of fiber and paper materials in food packaging were introduced. This paper also discusses future research directions and potential areas for improvement in fiber and functional paper food packaging to further enhance their effectiveness in ensuring food safety, quality, and sustainability. • Properties of materials for fiber and functional paper were introduced. • The roles of materials in food packaging were discussed. • The application of fiber and paper materials in food packaging were introduced. • Limitations and future development directions were discussed. [ABSTRACT FROM AUTHOR]

Published

2024

19. Nacre-inspired hierarchical bionic substrate for enhanced thermal and mechanical stability in flexible applications.

Author

Sun, Baichuan, Xu, Gaobin, Guan, Cunhe, Ji, Xu, Yang, Zhaohui, Chen, Shirong, Chen, Xing, Ma, Yuanming, Yu, Yongqiang, and Feng, Jianguo

Subjects

*ELASTIC modulus, *FLEXIBLE electronics, *BIOMIMETICS, *SUBSTRATES (Materials science), *DIFFERENTIAL scanning calorimetry

Abstract

Flexible substrates, essential for flexible electronics by providing support and flexibility while influencing sensor stability, still face challenges in achieving mechanical and thermal stability, particularly in large-scale production and cost control. Inspired by the nacre's "brick-and-mortar" hierarchical microstructure, this study introduces PPSN (paper/polydimethylsiloxane (PDMS)/Si₃N₄ nanoparticles), a novel flexible substrate that mimics the "brick-and-mortar" structure. PPSN, with its topological interlocking and assembly technique, provides excellent thermal and mechanical stability, including high-temperature resistance and stress dissipation. An optimized Si₃N₄ content of 1.0 wt% yields a peak elastic modulus of 1245.27 MPa while maintaining hydrophobicity, with a contact angle of 127.1° at 3.0 wt%. The substrate shows excellent fatigue durability, retaining its morphology after 10,000 bending cycles. Thermal analysis indicates a stable CTE below 20 ppm/°C up to 300°C, rising to 200 ppm/°C between 350 and 400°C. Differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA) reveal minimal thermal decomposition with mass loss below 0.5 % from 25 to 300°C and under 3 % at 400°C. Additionally, electrodes were printed on the substrate using screen printing and ion beam deposition (IBD), demonstrating good material adhesion. A flexible temperature sensor was fabricated and exhibited good sensitivity and stability with a TCR of −0.262 % °C⁻¹. PPSN advances traditional materials with superior mechanical strength, thermal stability, and durability, offering significant scientific and practical value for flexible electronics and low-cost biomimetic processes. [Display omitted] • PPSN mimics nacre's structure, offering high thermal and mechanical stability. • Peak elastic modulus at 1.0 wt% Si₃N₄, with hydrophobicity and durability. • Stable CTE below 20 ppm/°C up to 300°C with minimal thermal mass loss. • Excellent performance in flexible sensors with a TCR of −0.262 % °C⁻¹. [ABSTRACT FROM AUTHOR]

Published

2024

20. Sustainable paper-based triboelectric nanogenerator with improved output performance through a general strategy of interface fusion.

Author

Liu, Hanbin, Li, Xun, Li, Zhijian, Xiang, Huacui, Bai, Zhou, Wu, Haiwei, Liu, Guodong, and Zhou, Hongwei

Abstract

The paper-based triboelectric nanogenerators (PB-TENGs) satisfied the requirement of sustainability and aroused great research interests, however how to improve their outputs still remains as a huge challenge. Most of the reported strategies to enhance the performance of PB-TENG focused on the chemical modification of the friction layers (FL), which may be restricted by the high-cost and cumbersome protocols being required. In this work, a general strategy of interface engineering to boost the outputs of the PB-TENG was proposed and validated by employing graphene composite paper (GC-paper) as electrodes. At the beginning, the hydroxyethyl cellulose (HEC) and Ecoflex were cured as separated films and used as friction layers, which were adhered with copper or GC-paper electrodes. The PB-TENG device can be obtained and possesses acceptable performance. Subsequently, we were surprised to find that the outputs of the PB-TENG largely increased by coating the FLs on the GC-paper rather than adhering. The maximum open-circuit voltage jumped from 300 V to 734 V, and the maximum short-circuit current boosted from 3.4 µA to 8.7 µA. This phenomenon may be ascribed to an interface effect between the FLs and electrodes, which enhanced the electrostatic induction. The strategy of this interface engineering was also proved to be general for other PB-TENG devices with various friction materials. Therefore, it may pave a way for the development of sustainable TENG devices with high performance. [Display omitted] • The output of the paper-based triboelectric nanogenerator (PB-TENG) was boosted. • A general strategy of interface fusion was demonstrated for the high performance. • The interface fusion was realized by coating frication layers on graphene-paper. • The PB-TENG was successfully used for energy harvesting and self-powered sensing. [ABSTRACT FROM AUTHOR]

Published

2024

21. An all paper based triboelectric nanogenerators with high output performance in extreme environment manufactured by multi-layer papers forming technology.

Author

Lin, Changmei, Chen, Jun, Huang, Hai, Ma, Xiaojuan, and Cao, Shilin

Subjects

*NANOGENERATORS, *EXTREME environments, *OPEN-circuit voltage, *SHORT-circuit currents, *GREEN technology, *POWER density

Abstract

[Display omitted] • Multi-layer forming technology can integrate triboelectric material with electrode. • The all CPTENGs can exhibit excellent humidity, acid and alkali resistance. • The CPTENGs can yield a V OC , I SC and power density of 227.1 V, 6.9 μA and 520 mW/m2. • Matching CPTENGs with P-ZISC can obtain a self-charging power system (PSCPS). • The PSCPS can drive some miniaturized electronics for a long time. Triboelectric nanogenerators (TENGs) are regarded as a promising technology to drive the development of flexible/wearable electronics and self-powering sensor. Application of cellulose paper as the triboelectric positive materials makes TENGs more environmentally friendly. However, the limited output performance and stability in harsh environments and oxidation and corrosion of the metal electrodes have limited the practical application of cellulose paper based triboelectric nanogenerators (CPTENGs). Here, we have integrated cellulose paper-based triboelectric material and electrode in one sheet by using multi-layer forming technology in paper industry; the upper triboelectric layer shows excellent triboelectric positive performance, hydrophobicity and acid and alkali resistance, while the bottom electrode exhibits promise conductivity. The all CPTENGs can yield a maximum open-circuit voltage (V OC) of 227.1 V, a short-circuit current (I SC) of 6.9 μA. Furthermore, the V OC values of the all CPTENGs increase from 0.02 V to 225.1 V at the load resistance of 100 Ω∼10 GΩ; and a power density of 520 mW·m−2 is also obtained at a load resistance of 30 MΩ. Moreover, the V OC of CPTENGs not only retains up to 78 % of its initial value at a high relative humidity of 90 %, but also almost maintains unchanged in a wide range of the pH environment (pH = 1∼13). More importantly, the CPTENGs can be readily matched with paper-based zinc supercapacitor (P-ZISC) to act as an all paper based self-charging power system (PSCPS). The PSCPS is capable of driving various miniaturized electronics, such as electronic watch, temperature/humidity indicator, demonstrating its potential application in a sustainable power source for portable and green electronics. [ABSTRACT FROM AUTHOR]

Published

2024

22. All-in-one strategy for the nano-engineering of paper-based bifunctional fluorescent platform for robustly-integrated real-time monitoring of food and drinking-water safety.

Author

Jiang, Huie, Zhang, Qian, Li, Nihao, Li, Zhijian, Chen, Lijuan, Yang, Fengqian, Zhao, Suqiu, and Liu, Xinhua

Subjects

*FOOD safety, *DRINKING water, *BIOMASS conversion, *FOOD spoilage, *FOOD contamination, *AQUATIC sports safety measures, *CELLULOSE fibers

Abstract

Cu2+ contamination and food spoilage raise food and drinking water safety issues, posing a serious threat to human health. Besides, Cu2+ and H 2 S levels indicate excess Cu2+-caused diseases and protein-containing food spoilage. Herein, a coumarin-containing bifunctional paper-based fluorescent platform integrated with a straightforward smartphone color recognition app is developed by an all-in-one strategy. The proposed fluorescent materials can simultaneously detect Cu2+ and H 2 S for on-demand food and drinking water safety monitoring at home. Specifically, a coumarin-derived fluorescence sensor (referred to as CMIA) with a low detection limit (0.430 μM) and high-selectivity/-sensitivity for Cu2+ is synthesized through a simple one-step route and then loaded onto commercially used cellulose fiber filter paper to engineer a biomass-based fluorescent material (CMIA-FP). The CMIA-FP offers user-friendly, high-precision, fast-responsive, and real-time visual monitoring of Cu2+. Moreover, CMIA forms a chemically stable complex with Cu2+, loaded onto filter paper to prepare another biomass-based fluorescent platform (CMIA-CU-FP) for visual real-time monitoring of H 2 S. Based on the exquisite composition design, the proposed dual-function paper-based fluorescent materials equipped with a smartphone color recognition program concurrently realize fast, accurate, and easy real-time monitoring of Cu2+ in drinking water and H 2 S in chicken breast-/shrimp-spoilage, demonstrating an effective detection strategy for the Cu2+ and H 2 S monitoring and presenting the new type of biomass-based platforms for concentrated reflection of drinking water and food safety. [Display omitted] • On-demand platform enabling simultaneously home-detecting Cu2+/H 2 S was proposed. • The platform realizes user-friendly, low-cost, fast-response detecting of Cu2+/H 2 S. • The platform achieves real-time monitoring of drinking-water and meat-storage safety. • The study provides effective tactics for the integrated Cu2+ and H 2 S home-detecting. [ABSTRACT FROM AUTHOR]

Published

2024

23. Enhancing the performance of paper-based microfluidic fuel cell via optimization of material properties and cell structures: A review.

Author

Li, Li, Huang, Haocheng, Lin, Xue-Mei, Fan, Xin, Sun, Yanyun, Zhou, Wencai, Wang, Tianbo, Bei, Shaoyi, Zheng, Keqing, Xu, Qiang, Wang, Xiaochun, and Ni, Meng

Subjects

*CELL anatomy, *MICROSENSORS, *CAPILLARY flow, *STRUCTURE-activity relationships, *FUEL cells, *MASS transfer

Abstract

• Efforts to enhance PMFC performance are reviewed. • Both exciting advancements and current limitations are discussed. • An innovative strategy of multi-scale simultaneous optimization is proposed. Paper-based microfluidic fuel cell (PMFC) has attracted great attention in the microfluidic fuel cell field in recent years. It utilizes the spontaneous capillary flow of reactant solutions in paper-based porous substrate to achieve passive transportations of fuel and oxidant, solving the fluid driving issue encountered in traditional microfluidic fuel cells and thus having broad application prospects in medical detection, wearable devices, micro sensors, environmental monitoring, and many other fields. However, the commercialization of this technology is impeded by the low output performance caused by the limited mass and energy transfer in PMFCs. To enhance the mass and energy transfer in PMFCs, numerous research studies have been conducted via experimental optimization of the cell materials and structures. Numerical analyses focusing on the structure–activity relationship of PMFCs were also performed recently. To provide a comprehensive and thorough review about the efforts devoted to improving performance of PMFC, research papers relevant to PMFC since its invention in 2014 have been extracted in this work and significant works were filtered to highlight the exciting advancements. The experimental studies were classified and discussed based on the key components involved in the PMFC system, followed by a critical review of the limited computational models. Potential directions for future research were also provided, aimed at overcoming the current technological challenges in PMFCs. Importantly, an innovative strategy of multi-scale simultaneous optimization of the cell properties is proposed considering the typical multi-scale feature of the PMFC system, which could inspire the designing of advanced cell materials with optimal multi-scale structures for applications of PMFCs. [ABSTRACT FROM AUTHOR]

Published

2024

24. Stability of SARS-CoV-2 and influenza virus varies across different paper types.

Author

Hirose, Ryohei, Miyazaki, Hajime, Bandou, Risa, Watanabe, Naoto, Yoshida, Takuma, Daidoji, Tomo, Itoh, Yoshito, and Nakaya, Takaaki

Subjects

*INFLUENZA viruses, *INFLUENZA A virus, *SARS-CoV-2, *VIRAL transmission, *SURFACE structure

Abstract

The assessment of the risk of virus transmission through papers, such as postcards, is important. However, the stability of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and influenza A virus (IAV) on different types of papers is currently unknown. Investigation of the survival time of these viruses on different types of papers will provide insights into their risk of long-distance transport by postal items. We evaluated the stability of SARS-CoV-2 and IAV, mixed with a culture medium, on the surface of postcards with various coatings, including plain paper (PP), inkjet paper (IP), and inkjet photo paper (IPP). The surface structure of each paper was microscopically assessed. The surface structures of PP, IP, and IPP varied greatly depending on the presence or absence, and type, of coat layer, regardless of the base material. IP and IPP surfaces were less conducive to virus survival than PP surfaces, because of the difference in surface shapes. The survival times of SARS-CoV-2 on each paper were approximately 59.8 (PP), 6.5 (IP), and 9.8 h (IPP), and significantly longer than those of IAV (10.3, 1.8, and 3.3 h, respectively). The risk of SARS-CoV-2 transmission via paper, such as postcards, is significantly higher than that of IAV transmission. While PP, IP, and IPP have the same base material, their surface structures differ, which affects viral stability. The IP and IPP surfaces are less suitable for virus survival. This study provides novel insights into the risks of viral transmission via paper. [ABSTRACT FROM AUTHOR]

Published

2022

25. Recycling Paper-Plastic laminate coffee cups using a Single-Disk Refiner: Energy requirements and recovered fiber quality.

Author

Bilek, Michael A., Salem, Hayder J., Korehei, Reza, and Olson, James A.

Subjects

*COFFEE cups, *CANADA-United States relations, *PLASTIC fibers, *ENVIRONMENTAL degradation, *LAMINATED materials, *FIBERS

Abstract

• 72% − 80% of fibre was recovered from disposable coffee cups. • 2% and 3% consistency shredded cups required > 100 kWh/tonne to repulp with 3 refiner passes. • Pulp quality did not significantly diminish after repulping using a single-disk refiner. Over 64 billion paper-plastic laminate (PPL) coffee cups are consumed between the United States and Canada annually, the majority accumulating in landfills due to a hydrophobic plastic inner-lining. Recycling can mitigate environmental damage and provide economic value from repurposed products. We found that standard repulping methods were insufficient to separate fiber from plastic due to the low intensity of treatment. To increase process intensity, we mechanically refined shredded PPL coffee cups and Kraft eucalyptus sheets (control) at 2%, 3%, and 4% consistencies with three passes to determine the energy required to separate fibers from plastic and the effects on fiber quality. 2% and 3% consistency PPL cups measured under 40 kWh/tonne of input material for one refiner pass and ∼ 80 kWh/tonne for 4% consistency PPL cups. Recovered fiber fraction totaled 87.7%, 85.3%, and 80.5% of input mass of Kraft eucalyptus and 72.3%, 72.6%, and 79.6% of input mass of PPL cups at 2%, 3%, and 4% consistency, respectively. Fines content of PPL cups jumped from 8% pre-refining to ∼ 30% post-refining while Kraft eucalyptus fibers were unaffected, suggesting that breaking the plastic-fiber bonds results in fines generation. Mean fiber length of PPL cups slightly decreased with consistency and tensile strength improved. Freeness decreased with consistency only in PPL cup samples. These results demonstrate a low energy requirement to effectively separate fiber and plastics in PPL cups as well as minimal impact on fiber quality using existing refining technology, and provides an estimate of the financial costs of local recycling efforts. [ABSTRACT FROM AUTHOR]

Published

2021

26. Under the spotlight: A new tool (artificial light radiation) to bleach paper documents.

Author

Pérez, Ana Reyes, Arias, Teresa Espejo, García, María Rosario Blanc, Escolano, Amparo, and Hernández, Nuria Gómez

Subjects

*ENGRAVING, *ARCHES, *HYDROGEN peroxide, *RADIATION, *DIGITAL printing, *HISTORICAL source material

Abstract

• Artificial light radiation is a viable tool for paper documents bleaching. • Artificial light bleaching does not produce any physico-chemical change in paper. • Artificial light bleaching reduces the yellowing of paper in short and long term. • Paper is physico-chemical and optically deteriorated by hydrogen peroxide. This study offers a new tool to restorers to bleach paper documents: artificial light radiation (ALR). It is a controlled method that is an alternative to other highly aggressive procedures that have been applied to cellulose based media. Its main novelty is its intrinsic lighting characteristics which guarantee uniformity and avoid heating the paper. The results of testing this new tool were compared to those of bleaching with hydrogen peroxide (H 2 O 2). Each of the two methods was applied to five different types of widely used paper: Arches and Somerset (brands serving for engraving and digital printing), Ingres (drawing), press-type (magazines and newspapers) and Bible-type (historical documents). Once characterised by physico-mechanical, chemical and optical parameters (grammage, thickness, specular gloss, optical properties, air permeance, tensile properties, determining the pH of both surface and aqueous extracts), the different papers were bleached by the two methods according to pre-established criteria. Finally, to determine the evolution and effects of the two treatments, the papers were subjected to accelerated ageing. [ABSTRACT FROM AUTHOR]

Published

2021

27. Ag immobilized lignin-based PU coating: A promising candidate to promote the mechanical properties, thermal stability, and antibacterial property of paper packaging.

Author

Xie, Huihui, Zhang, Hui, Liu, Xinxin, Tian, Shenglong, Liu, Yunsi, and Fu, Shiyu

Subjects

*SURFACE coatings, *LIGNINS, *LIGNIN structure, *THERMAL stability, *PACKAGING materials, *PACKAGING, *TENSILE strength, *BRITTLENESS

Abstract

A lignin-based PU coating was prepared for paper-based green packaging. Two representative diisocyanate were used to prepare the coatings. Due to the rigid aromatic, the physical properties of the TDI system reached the maximum below the lignin content of 40%. The HDI that contains flexible aliphatic chains alleviated the brittleness of coating, and it showed physical advantages when the lignin content was more than 50%. Owing to the high lignin content, the coating presented enhanced thermal stability. After coated with the lignin-based PU coatings, the dry tensile strength of coated paper was improved by 126%. Amazingly, the wet strength was increased from 0.31 to 12.6 MPa with an improvement nearly 40 times. Based on the coordination of lignin, Ag+ was introduced into the PU matrix, which imparted the coating with excellent antibacterial ability. The colony forming units of E. coli and S. aureus were both less than 1. However, no inhibition halo was observed, which indicated that the Ag was firmly anchored on the coating and the antibacterial ability is only available when the bacterial contact the coating surface. The lignin-based PU coating with favorable sustainability and properties shows great potential in paper-based green packaging fields. The prepared PU coating with high lignin content and firmly anchored Ag+ exhibits outstanding physical properties, thermal stability, and antibacterial property, which makes it an ideal candidate to be used in paper-based green packaging. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2021

28. Ultrasensitive strain sensor based on superhydrophobic microcracked conductive Ti3C2Tx MXene/paper for human-motion monitoring and E-skin.

Author

Bu, Yibing, Shen, Taoyu, Yang, Wenke, Yang, Shiyin, Zhao, Ye, Liu, Hu, Zheng, Yanjun, Liu, Chuntai, and Shen, Changyu

Subjects

*STRAIN sensors, *MOTION, *SURFACE energy, *DIHEDRAL angles, *SURFACE coatings, *DETECTION limit, *ELASTIC modulus

Abstract

[Display omitted] With the rapid development of wearable intelligent devices, low-cost wearable strain sensors with high sensitivity and low detection limit are urgently demanded. Meanwhile, sensing stability of sensor in wet or corrosive environments should also be considered in practical applications. Here, superhydrophobic microcracked conductive paper-based strain sensor was fabricated by coating conductive Ti 3 C 2 T x MXene on printing paper via dip-coating process and followed by depositing superhydrophobic candle soot layer on its surface. Owing to the ultrasensitive microcrack structure in the conductive coating layer induced by the mismatch of elastic modulus and thermal expansion coefficient between conductive coating layer and paper substrate during the drying process, the prepared paper-based strain sensor exhibited a high sensitivity (gauge factor, GF = 17.4) in the strain range of 0–0.6%, ultralow detection limit (0.1% strain) and good fatigue resistance over 1000 cycles towards bending deformation. Interestingly, it was also applicable for torsion deformation detection, showing excellent torsion angle dependent, repeatable and stable sensing performances. Meanwhile, it displayed brilliant waterproof, self-cleaning and corrosion-resistant properties due to the existence of micro/nano-structured and the low surface energy candle soot layer. As a result, the prepared paper-based strain sensor can effectively monitor a series of large-scale and small-scale human motions even under water environment, showing the great promising in practical harsh outdoor environments. Importantly, it also demonstrated good applicability for spatial strain distribution detection of skin upon body movement when assembled into electronic-skin (E-skin). This study will provide great guidance for the design of next generation wearable strain sensor. [ABSTRACT FROM AUTHOR]

Published

2021

29. The YO-IFOS key points to write a good paper in otolaryngology.

Author

Lechien, J.R., Chiesa-Estomba, C.M., Calvo-Henriquez, C., Ayad, T., Simon, F., and Fakhry, N.

Subjects

OTOLARYNGOLOGY

Published

2021

30. The Top 100 Most-Cited Articles on Hallux Valgus.

Author

Tekin, Sezgin Bahadır and Bozgeyik, Bahri

Abstract

To perform the citation and content analysis of 100 articles on Hallux valgus from the most cited to the least. Articles published on Hallux valgus between 1980 and 2020 were analyzed by making use of the Web of Science database. Articles were ranked from most cited to the least. Content analysis of all articles was also carried out. Original research articles, reviews, and clinical trials were included in the study whereas case reports were excluded from the study. The total number of citations of the 100 most-cited articles was 7,697. The most-cited article was ' Prevalence of hallux valgus in the general population; systematic review and meta-analysis ' published by Sheere Nix in Journal of Foot and Ankle Research in 2010. The country where the articles were mostly produced was USA (n = 46). The most interesting issue was the osteotomy techniques and changes in Hallux valgus surgery. The treatment of the Hallux valgus disease is still discussed today. Citation analyses have shown that surgical developments related to HV surgery still attract attention, and this information will be updated continuously in line with the increasing number of articles. [ABSTRACT FROM AUTHOR]

Published

2021

31. Porous lignin-based composites for oil/water separation: A review.

Author

He, Zhiwei, Wang, Mingkun, and Ma, Shiyu

Subjects

*LIGNINS, *ETHANOL as fuel, *OIL spills, *FOOD chains, *OIL fields, *INDUSTRIAL wastes, *HUMAN beings

Abstract

Frequent oceanic oil spill incidents and the discharge of industrial oily wastewaters have caused serious threats to environments, food chains and human beings. Lignin wastes with many reactive groups exist as the byproducts from bioethanol and pulping processing industries, and they are either discarded as wastes or directly consumed as a fuel. To make full use of lignin wastes and simultaneously deal with oily wastewaters, porous lignin-based composites have been rationally designed and prepared. In this review, recent advances in the preparation of porous lignin-based composites are summarized in terms of aerogels, sponges, foams, papers, and membranes, respectively. Then, the mechanisms and the application of porous lignin-based adsorbents and filtration materials for oil/water separation are discussed. Finally, the challenges and perspectives of porous lignin-based composites are proposed in the field of oil/water separation. The utilization of abundant lignin wastes can replace fossil resources, and meanwhile porous lignin-based composites can be used to efficiently treat with oily wastewaters. The above utilization strategy opens an avenue to the rational design and preparation of lignin wastes with high-added value, and gives a possible solution to use lignin wastes in a sustainable and environmentally friendly way. [ABSTRACT FROM AUTHOR]

Published

2024

32. Physics informed neural networks reveal valid models for reactive diffusion of volatiles through paper.

Author

Serebrennikova, Alexandra, Teubler, Raimund, Hoffellner, Lisa, Leitner, Erich, Hirn, Ulrich, and Zojer, Karin

Subjects

*DIFFUSION, *PARTIAL differential equations, *CHEMICAL reactions, *POROUS materials, *PHYSICS, *VOLATILE organic compounds

Abstract

Predictive models for the transport of volatile organic compounds in paper need to consider the complex interplay of diffusion, adsorption, desorption, or chemical reactions. The relative importance of each of these processes is determined by the polarity of the volatile. Hence, it is challenging to pick a valid theoretical model that correctly predicts transport regardless of the polarity. Here, physics-informed neural networks (PINNs) assess which of five different models correctly describe transport of DMSO as polar and n-tetradecane as apolar model compound: (i) a pseudo first-order adsorption model for an irreversible sorption process, (ii) a first-order kinetics model allowing reversible sorption, (iii) a second-order model with a reversible process, and an effective diffusion model accounting for a constant (iv) and for a variable effective diffusivity (v). Each tested model is given as set of partial differential equations (PDE). Considering the model under testing and experimentally obtained spatially and temporally resolved concentration profiles through stacks of paper sheets, PINNs predict concentration of the volatiles and associated material constants such as sorption constants and effective diffusion coefficients by solving the inverse problem. Our PINNs revealed two models, pseudo first-order sorption and second-order reversible sorption, that correctly predict concentration profiles and polarity-driven differences in sorption times. While a PINN-based picking of valid transport models has important implications for the development of effective methods for controlling emission of volatiles from paper materials, PINNs represent a versatile mathematical tool to validate or refute the capability of PDE-based theoretical models to describe experimental data. • PINNs evaluate sorption kinetics in porous materials. • Focus: Transport of organic volatiles in cellulose. • Pseudo first-order model suits organic volatiles. • Predicting transport of volatiles through paper. [ABSTRACT FROM AUTHOR]

Published

2024

33. Lightweight honeycomb furniture panels with discreetly located strengthening blocks.

Author

Smardzewski, Jerzy and Tokarczyk, Maciej

Abstract

[Display omitted] • Honeycomb panels with discrete arranged block reinforcements were numerically designed. • The elastic moduli of the new honeycomb panels are higher than those of heavier panels with slatted. • Tables with new cellular panels are characterized by a stiffness of 85 % of the stiffness of heavier tables with slats. Furniture manufacturers indicate they know the benefits of lightweight honeycomb panels but still expect their higher mechanical properties. This work presents a numerical and experimental approach to designing new tables manufactured of paper honeycomb panels with discreetly arranged reinforcing blocks in the core. The main goal was to determine whether the discrete arrangement of the blocks affects the strength and amount of energy absorbed by the newly designed tables and stiffness of honeycomb panels. Optimization reduced the weight of the panels by up to 30 %. At the same time, their linear elastic modulus was increased from 1579 MPa to 1771 MPa. After ten load cycles, tables with discrete reinforcements have a stiffness up 86.85–87.20 % of the stiffness of the reference table. After destructive tests up 89.96–91.16 %. Ultimately, the test results demonstrate the effectiveness of replacing wide slats with discreetly placed reinforcing blocks in the core structure. [ABSTRACT FROM AUTHOR]

Published

2024

34. Liquid uptake in porous cellulose sheets studied with UFI-NMR: Penetration, swelling and air displacement.

Author

Nicasy, R.J.K., Waldner, C., Erich, S.J.F., Adan, O.C.G., Hirn, U., and Huinink, H.P.

Subjects

*DARCY'S law, *POROUS materials, *FILM flow, *MAGNETIC resonance imaging, *CELLULOSE, *CELLULOSE fibers, *FOAM

Abstract

Liquid penetration in porous cellulosic materials is crucial in many technological fields. The complex geometry, small pore size, and often fast timescale of liquid uptake makes the process hard to capture. Effects such as swelling, vapor transport, film flow and water transport within cellulosic material makes transport deviate from well-known relations such as Lucas-Washburn and Darcy's Law. In this work it is demonstrated how Ultra-Fast Imaging NMR can be used to simultaneously monitor the liquid distribution and swelling during capillary uptake of water with a temporal- and spatial resolution of 10 ms and 14.5–18 μm respectively. The measurements show that in a cellulose fiber sheet, within the first 65 ms, liquid first penetrates the whole sheet before swelling takes place for another 30 s. Furthermore, it was observed that the liquid front traps 15 v% of air which is slowly replaced by water during the final stage of liquid uptake. Our method makes it possible to simultaneously quantify the concentration of all three phases (solid, liquid and air) within porous materials during processes exceeding 50 ms (5 times the temporal resolution). We hence believe that the proposed method should also be useful to study liquid penetration, or water diffusion, into other porous cellulosic materials like foams, membranes, nonwovens, textiles and films. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

35. On the development of a high strain-rate tensile testing method for thin low-impedance materials.

Author

Baumann, Georg, Czibula, Caterina, Hirn, Ulrich, and Feist, Florian

Subjects

*TENSILE tests, *DIGITAL twins, *TEST methods, *FINITE element method

Abstract

• An attempt to characterize thin, low impedance paper at various high strain-rates. • The creation of a digital twin of the physical Split Hopkinson Test bench. • To demonstrate that there can be distortions of the transmitted measuring signal. This work deals with the high strain-rate characterization of paper under uniaxial tension using a Split Hopkinson test bench. An aluminum bar system featuring a highly sensitive hollow transmission bar was used. Paper tests were performed in a strain-rate range between approximately 60 s−1 and 210 s−1. The experimental tests showed that the breaking strength appears to decrease with increasing strain-rate. To verify these results, a digital twin of both the paper specimen and the entire test rig was created in an explicit Finite Element method environment. The numerical model was then used to perform a parameter study with different types of transmission bars. It was shown that the system is quite sensitive to additional masses caused by the specimen fixtures, as well as to drastic reductions in the cross section of the transmission bar. As a result, the transmitted measuring signal can be distorted and may need to be corrected using the digital twin. [ABSTRACT FROM AUTHOR]

Published

2024

36. Paper-based fluorescent materials containing on-demand nanostructured brain-cells-inspired AIE self-assembles for real-time visual monitoring of seafood spoilage.

Author

Chen, Lijuan, Luo, Xiaomin, Wang, Xuechuan, Ning, Lulu, Li, Nihao, Zhao, Suqiu, Zhang, Qian, Liu, Xinhua, and Jiang, Huie

Subjects

*FOOD spoilage, *SEAFOOD, *BIOGENIC amines, *DETECTION limit, *SMARTPHONES, *DAYLIGHT

Abstract

[Display omitted] • Molecular-level light-emitting origins were strategically imparted to paper. • The morphology of AIE self-assembly can be adjusted on demand. • AFP-FP exhibited high selectivity, sensitivity and repeatable recognition of NH 3. • AFP-FP integrated with smartphone realized the visual food spoilage monitoring. Biogenic amines containing NH 3 are important indicators for conducting full-scale appraisal of food spoilage and disease diagnosis. However, the currently-used detection methods of NH 3 have several limitations such as time-consuming high cost, and inability to provide visual real-time monitoring. Therefore, researchers have attempted to explore strategies for quantitative real-time monitoring of NH 3 for food spoilage has attracted widespread attentions. Herein, we developed sustainable, fast response, hypersensitized, user-friendly and molecular-level light-emitting biomass-based materials (AFP-FP) containing on-demand nanostructured brain-cells-inspired aggregation-induced-emission (AIE) self-assembles for real-time visual monitoring of seafood spoilage. The 2-hydroxy-5-methyl-isophthalaldehyde-based AIE probe (AFP) was synthesized using a simple "one-step" route. AFP-FP exhibited high selectivity, sensitivity, repeatable and quantitative recognition (y = 7.292×103x + 7.621×104, R = 0.990) of NH 3 with a low detection limit (246 ppb) and fast response (<1 s). Furthermore, we integrated AFP-FP into a user-friendly smartphone color recognition app, enabling its practical application in visual, real-time daylight monitoring of food spoilage. [ABSTRACT FROM AUTHOR]

Published

2024

37. Visual distance-based paper analytical device for on-site detection of Pb(II).

Author

Zhang, Yuan, Qian, Lelin, Yu, Zhangli, Yu, Ying, Feng, Chang, Niu, Lili, and Zhang, Juan

Subjects

*RESOURCE-limited settings, *METAL detectors, *DETECTION limit, *CATALYTIC activity, *DEOXYRIBOZYMES

Abstract

[Display omitted] • An visual distance-based paper analytical device has been developed for on-site detection of Pb(II). • Pb(II) can inhibit the catalytic activity of G4/hemin DNAzyme induced by K+. • The biosensor can sensitively detect Pb(II) with a lowest detection limit of 1 nM. • The biosensor can be applied to detect Pb(II) in real samples. A simple, inexpensive, fast, and visual distance-based paper analytical device has been developed for on-site detection of Pb(II). Pb(II) can inhibit the catalytic activity of G-quadruplex/hemin (G4/hemin) DNAzyme induced by K+, which catalyzes 3,3,5,5-tetramethyl benzidine (TMB) immobilized on paper to produce a visible blue band. The factors affecting Pb(II) detection have been optimized with PS concentration of 3 μM, K+ concentration of 10 mM, and hemin concentration of 10 μM, as well as the straight channel width of 2.0 mm. It can be well found that the formed length correlates with the concentration of Pb(II) with a linear detection range of 0.02 μM − 50 μM. A fitting linear equation of Y = 20.793–5.391Log C (R2 = 0.9788) can be obtained with a lowest detection limit of 1 nM. Additionally, the method is capable of selectively detecting Pb(II) and works well for Pb(II) detection in real samples. Overall, the visual distance-based paper analytical device offers an ideal platform for on-site detection of heavy metal ions, especially in resource-limited areas. [ABSTRACT FROM AUTHOR]

Published

2024

38. Development of the viscosity biosensor for the detection of DNase I based on the flow distance on the paper with DNA mucus.

Author

Li, Xia, Duan, Qing, Khan, Mashooq, Yang, Danhong, Liu, Qian, Yin, Fangchao, Hu, Qiongzheng, and Yu, Li

Subjects

*MUCUS, *VISCOSITY, *DNA, *BIOSENSORS, *DETECTION limit

Abstract

Deoxyribonuclease I (DNase I) is a biomarker which has important applications in various biological processes. Thus, it is highly important to develop a user-friendly method for the detection of DNase I. Here, we present a paper-based distance sensor for the rapid detection of DNase I based on changes in the viscosity of DNA mucus. The viscosity of DNA mucus varies with different concentrations of DNase I, showing different water flow lengths on the pH test papers, this makes the quantification of DNase I possible. This method has a wide linear range (0.01–10 U/mL), excellent sensitivity, remarkable specificity and excellent reproducibility. The detection limit reaches 0.003 U/mL. Additionally, it can be well applied to detection of DNase I inhibitors, assay of DNase I in human serum and quality evaluation of nucleic acid scavengers. In general, this study offers a brief, convenient, label-free, and economical method to construct paper-based distance sensors using DNA mucus, which is very promising in the detection of DNase I in various applications. [Display omitted] • The paper-based sensor detects DNase I by distance signal. • The new method for detecting DNase I based on viscosity changes. • The detection limit for DNase I is 0.003 U/mL. • The sensor shows excellent specificity, remarkable practicality and portability. [ABSTRACT FROM AUTHOR]

Published

2024

39. Robust, ultrathin and flexible electromagnetic interference shielding paper designed with all-polysaccharide hydrogel and MXene.

Author

Wei, Jiasheng, Dai, Lei, Xi, Xiangju, Chen, Zhuo, Zhu, Meng, Dong, Cuihua, Ding, Shujiang, and Lei, Tingzhou

Subjects

*ELECTROMAGNETIC interference, *ELECTROMAGNETIC shielding, *GUAR gum, *SURFACE preparation, *FILTER paper, *POLYDIMETHYLSILOXANE

Abstract

An effective strategy was demonstrated to design an electromagnetic interference (EMI) shielding paper via a facile surface treatment on paper. TEMPO-oxidized cellulose nanofibers (TOCN) were first integrated with Ti 3 C 2 T x MXene, and subsequently cast onto a filter paper with cationic guar gum (CGG) in a sequential way. TOCN and CGG generated a self-assembling hydrogel and formed a MXene-containing hydrogel film on top of the filter paper. The hydrogel film enhanced the tensile strength (9.49 MPa) of composite paper, and resulted in a 17 % increase as compared to the control. The composite paper containing 80 mg MXene (namely, 2.07 mg·cm−2) showed a conductivity of 3843 S·m−1 and EMI shielding effectiveness (EMI SE) of 49.37 dB. Furthermore, the 2-layer assembled TC-M 80 hydrogel composite paper achieved an EMI SE of 73.99 dB. Importantly, this composite paper showed higher EMI SE and lower thickness than a lot of reported materials. The presence of TOCN and CGG also protected MXene against several solvents and the incorporation of polydimethylsiloxane (PDMS) further improved the durability of the composite paper. This work provides a novel and simple strategy to design robust, ultrathin and flexible EMI shielding materials, and it might also inspire other work in paper-based functional materials. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

40. Role of intrinsic and extrinsic xylan in softwood kraft pulp fiber networks.

Author

Schaubeder, Jana B., Spirk, Stefan, Fliri, Lukas, Orzan, Eliott, Biegler, Veronika, Palasingh, Chonnipa, Selinger, Julian, Bakhshi, Adelheid, Bauer, Wolfgang, Hirn, Ulrich, and Nypelö, Tiina

Subjects

*SULFATE pulping process, *PLANT cell walls, *FIBERS, *SOFTWOOD, *PAPERMAKING

Abstract

Xylan is primarily found in the secondary cell wall of plants providing strength and integrity. To take advantage of the reinforcing effect of xylan in papermaking, it is crucial to understand its role in pulp fibers, as it undergoes substantial changes during pulping. However, the contributions of xylan that is added afterwards (extrinsic) and xylan present after pulping (intrinsic) remain largely unexplored. Here, we partially degraded xylan from refined bleached softwood kraft pulp (BSKP) and adsorbed xylan onto BSKP. Enzymatic degradation of 1 % xylan resulted in an open hand sheet structure, while adsorption of 3 % xylan created a denser fiber network. The mechanical properties improved with adsorbed xylan, but decreased more significantly after enzymatic treatment. We propose that the enhancement in mechanical properties by adsorbed extrinsic xylan is due to increased fiber-fiber bonds and sheet density, while the deterioration in mechanical properties of the enzyme treated pulp is caused by the opposite effect. These findings suggest that xylan is decisive for fiber network strength. However, intrinsic xylan is more critical, and the same properties cannot be achieved by readsorbing xylan onto the fibers. Therefore, pulping parameters should be selected to preserve intrinsic xylan within the fibers to maintain paper strength. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

41. Long term curl of printing paper due to ink solvent migration.

Author

Maass, Alexander and Hirn, Ulrich

Subjects

*INK, *HIGH performance liquid chromatography

Abstract

[Display omitted] • For the first time the root cause for paper curl developing over days and weeks is described. • The curl of the paper sheets is caused by migration of co-solvents (e.g., glycerol) from the inkjet ink. • A 2D-laser scanner is utilized to investigate short- and long-term paper curl. • Glycerol migration in paper sheets is monitored using a combination of sheet splitting and subsequent HPLC analysis. The dimensional stability of paper during printing is crucial for ensuring production quality and runnability. However, inkjet printing faces inherent challenges due to the hygroscopic nature of paper and the use of water-based inks. Despite freshly printed sheets are flat, a considerable development of paper curl is often observed during storage. In this study, we establish the link between the migration of ink co-solvents and the long-term curl development of printed paper. A4 paper sheets were sprayed with a water-glycerol model ink and changes in the sheet's curvature were monitored using a 2D-laser sensor. We also investigated glycerol migration by splitting the sheets into layers and determining the glycerol distribution using high-performance liquid chromatography. Our results demonstrate the development of curl during storage as well as glycerol migration in thickness direction of the sheet, both on a comparable timescale. We thus propose that long term curl in inkjet printing can be caused by z-directional migration of the co-solvent (glycerol) over time. This study enhances understanding of the physical mechanisms that drive the long-term curl phenomenon in inkjet-printed sheets. The results can be used to optimize printing processes, allowing for the production of higher quality printed products with greater dimensional stability. [ABSTRACT FROM AUTHOR]

Published

2024

42. Cellulosic paper with high antioxidative and barrier properties obtained through incorporation of tannin into kraft pulp fibers.

Author

Ji, Yunzhong, Xu, Qinghua, Jin, Liqiang, and Fu, Yingjuan

Subjects

*TANNINS, *SULFATE pulping process, *ACTIVE food packaging, *VAPOR barriers, *ATOMIC hydrogen, *HYDROPHOBIC surfaces

Abstract

In this work, we prepared novel cellulosic paper by incorporating tannin into the kraft pulp for potential application in active food packaging. The kraft pulp fibers were firstly periodate oxidized to obtain the dialdehyde cellulosic fibers, and then reacted with varied dosages of tannin to incorporate them into the fibers by covalent bondings between aldehyde groups on cellulose and active hydrogen on tannin. Handsheets were prepared using the tannin incorporated fibers through papermaking process and the properties were characterized. The percentage of tannin in the paper increased with the increase of the tannin dosage. FT-IR spectra confirmed the successful incorporation of tannin into the cellulosic fibers. It was found that paper after incorporation of tannin turned to be surface hydrophobic with contact angles higher than 90°, which may probably due to the covalent bonds between tannin and cellulose. The handsheets show high antioxidative and UV-shielding properties, which both increased with the increase of the tannin percentage in the paper. Water vapor transmission rate (WVTR) decreased after the incorporation of tannin, and this could facilitate its application in food packaging. The breaking length of tannin incorporated paper decreased insignificantly, less than 10% with the tannin percentage as high as 45%. Unlabelled Image • Tannin were incorporated into the kraft fibers through covalent bondings. • Paper handsheets were prepared using tannin incorporated kraft fibers. • Paper with tannin exhibited high UV-shielding and antioxidative properties. • Its hydrophobicity and water vapor barrier property were improved. [ABSTRACT FROM AUTHOR]

Published

2020

43. Phenotypically distinguishing ESBL-producing pathogens using paper-based surface enhanced Raman sensors.

Author

Hilton, Shannon H., Hall, Connor, Nguyen, Hieu T., Everitt, Micaela L., DeShong, Philip, and White, Ian M.

Subjects

*SERS spectroscopy, *LACTAMS, *BETA lactam antibiotics, *MEDICAL microbiology, *MULTIDRUG resistance, *DETECTORS, *CHEMICAL synthesis

Abstract

Antimicrobial stewardship practices are critical in preventing the further erosion of treatment options for bacterial infections. Yet, at the same time, determination of an infection's antimicrobial susceptibility requires multiple rounds of culture and expensive lab automation systems. In this work, we report the use of paper-based surface enhanced Raman spectroscopy (SERS) sensors and portable instrumentation to phenotypically discriminate multi-drug resistance with fewer culture steps than conventional clinical microbiology. Specifically, we demonstrate the identification of resistance to varying generations of β -lactam antibiotics by detecting the activity of particular β -lactamase enzymes in a multiplexed assay. The method utilizes molecular reporters that consist of β -lactams with SERS barcodes. Hydrolysis of the β -lactam by β -lactamase enzymes in the sample expels the barcode; the released sulfur-containing barcode is then detected via SERS. Using this approach, we demonstrate the differentiation of E. coli strains with (1) extended spectrum β -lactamase (ESBL), (2) narrow-spectrum β -lactamase, and (3) no resistance, using only a single measurement on a single sample. In addition, we experimentally validate an approach to expand the library of reporters through the simple chemical synthesis of new barcoded β -lactams. Importantly, the reported method determines the susceptibility based on phenotypic β -lactamase activity, which is aligned with current microbiology lab standards. This new method will enable the precise selection of effective β -lactam antibiotics (as opposed to defaulting to drugs of last resort) faster than current methods while using simple steps and low-cost portable instrumentation. Image 1 • We demonstrate phenotypic detection of β-lactamase activity using paper SERS sensors and portable instrumentation. • We show discrimination of β -lactamases with different degrees of resistance in a single sample on a single sensor. • We demonstrate a simple synthesis method to expand the library of SERS-based β -lactamase reporters. • We accomplish β-lactamase discrimination in significantly less time than conventional microbiology. [ABSTRACT FROM AUTHOR]

Published

2020

44. The role of the fiber and the bond in the hygroexpansion and curl of thin freely dried paper sheets.

Author

Brandberg, August, Motamedian, Hamid Reza, Kulachenko, Artem, and Hirn, Ulrich

Subjects

*ABSOLUTE value, *FIBERS

Abstract

A computationally efficient method to study the in-plane and out-of-plane dimensional instability of thin paper sheets under the influence of moisture changes is presented. The method explicitly resolves the bonded and the free segments of fibers in the sheet, capturing the effect of anisotropic hygroexpansion at the fiber level. The method is verified against a volumetric model. The importance of longitudinal fiber hygroexpansion is demonstrated in spite of the absolute value of longitudinal hygroexpansion being an order of magnitude lower than the transverse hygroexpansion component. Finally, the method is used to demonstrate the formation of macroscopic sheet curl due to a moisture gradient in structurally uniform sheets in the absence of viscoelastic or plastic constitutive behavior and through-thickness residual stress profiles. [ABSTRACT FROM AUTHOR]

Published

2020

45. Investigating the mechanical behaviour of the lining system for Raphael's Cartoon "The School of Athens".

Author

Gulotta, Davide, Villa, Tomaso, and Toniolo, Lucia

Subjects

*PACKAGING materials, *TENSILE tests, *BEHAVIOR, *MURAL art, *SCHOOLS

Abstract

Lining of canvases and paper artworks is a diffused conservation methodology developed to ensure the safe and long-term preservation of weakened supports. Lining systems are generally constituted by a new supporting material or a package of new materials glued to the original artefact. This paper reports on the study of the mechanical behaviour of four multi-layered paper and canvas composites, proposed as lining systems for a large drawing on paper: the "School of Athens" by Raffaello Sanzio, dated 1508. This masterpiece is the 1:1 preparatory cartoon for the wall-painting in the Vatican rooms. Uniaxial tensile testing has been employed in this study to characterize both the single layer materials and the overall mechanical behaviour of the composites. The mechanical tests have been performed before and after artificial ageing with high humidity regime. The complex testing protocol allowed selecting the best performing composite for the final lining, and to assess a safety threshold in terms of stress value for the framing and display of the restored artwork in the new showcase. The results constitute a quantitative evaluation of the different systems, and therefore they can effectively support the conservators' activity and methodological choices. [ABSTRACT FROM AUTHOR]

Published

2020

46. Smart "Sticky Note" for strain and temperature sensing using few-layer graphene from exfoliation in red spinach solution.

Author

W Idris, Wan Farhana, Abu Kasim, Nurul Farhana, Abdullah, Abu Hannifa, Khusairi, Zulsyawan Ahmad, Yusoh, Kamal, and Ismail, Zulhelmi

Subjects

*GRAPHENE, *TEMPERATURE coefficient of electric resistance, *CONDUCTIVE ink, *STRAIN gages, *GRAPHENE synthesis, *SMART materials, *GRAPHITE, *CHENOPODIACEAE

Abstract

The synthesis of few-layer graphene from graphite typically uses N, N methyl pyrrolidone (NMP) or dimethylformamide (DMF) due to the strong affinity of both solvents for graphite. However, NMP and DMF are known as carcinogens and a long-time exposure to these substances may subject users to potential risk of major health issue later. Therefore, a replacement with dispersing solvent that is not only harmless but also able to exfoliate graphite at an excellent concentration yield must be outlined for a sustainable mass-production of graphene. In this work, we have successfully exfoliated graphite to few-layer graphene with a recorded yield concentration of up to 0.75°mg/ml (2.5°h) just by using extracted red spinach/water mixture as an exfoliating medium. The prepared graphene was found to possess less structural defect (I D /I G : 0.5) and high C/O ratio (6.8) and can be used further as an electrical conductive ink for smart "Sticky Note" sensor. The fabricated device was able to detect strain and temperature with gauge factor and temperature coefficient resistance of 23.5 and −32.14 × 10-4°Ω/°;C, respectively. We believe that this study would be useful for the preparation of environmental-friendly graphene that is not only strain and thermally sensitive but also producible at low -cost. Image 1 [ABSTRACT FROM AUTHOR]

Published

2020

47. What affects the placebo effect?

Author

Baines, Georgina, Araklitis, George, Flint, Richard, Robinson, Dudley, and Cardozo, Linda

Subjects

*PLACEBOS, *OVERACTIVE bladder, *URINARY incontinence, *META-analysis, *SECONDARY analysis

Abstract

Objective: To determine whether electronic bladder diaries are associated with a larger placebo effect than paper diaries in studies of overactive bladder (OAB). To identify any other factors in study design that may influence the placebo effect.Study Design: This is a secondary analysis of a previous systematic review and network meta-analysis on the efficacy and tolerability of mirabegron. Each study was analysed and placebo response rate (PRR) was calculated. Statistical analysis was used to look for associations with different factors and PRR.Results: The PRR was considerable in the studies analysed (10.5 % when calculated for change in number of micturitions over 24 h and 41.2 % for change in urgency urinary incontinence episodes over 24 h). Paper bladder diaries were associated with a significantly larger placebo response rate than electronic (10.76 % vs 10.22 %), although this may be clinically small. The size of study had a moderate positive correlation with PRR. Length of bladder diary was not associated with increased PRR.Conclusions: The PRR in studies of OAB is varied and significant. It is clear that it can be affected by factors in study design including type of bladder diary. When designing clinical studies this should be borne in mind. Equally, when attempting to optimise patient care, the benefit of the therapeutic encounter should be remembered. [ABSTRACT FROM AUTHOR]

Published

2020

48. Evaluation of a Hot Print System for the development of latent fingermarks on thermal paper: A pseudo-operational trial.

Author

Robb, Kiera, Deacon, Paul, Fordyce, Laura, Fennessy, Rebecca, and Farrugia, Kevin J.

Subjects

SYSTEMS development, POLAR solvents, HIGH temperatures, PAPER, GENTIAN violet

Abstract

Enhancement of latent fingermarks on thermal paper poses a number of problems when using traditional methods used for porous substrates due to blackening of the thermal layer as a result of polar solvents present within the reagents and high temperatures oxidising the acid/dye complex. Thus, methods which prevent such reactions are favoured for the development of latent prints on said substrates. A comparative pseudo-operational trial using UV, Hot Print System (HPS), ninhydrin and ThermaNIN was performed on 1000 thermal paper substrates gathered from various sources. The results indicated that the most effective method was an acetone pre-wash followed by ninhydrin. The sequence of HPS-ninhydrin was similarly effective when compared to ninhydrin as a sole technique. ThermaNIN produced fewer marks than ninhydrin but was superior to HPS. Whilst the HPS developed some fingermarks, there was only a very small number of marks uniquely developed by it. • The Hot Print System (HPS) is inferior to chemical methods on this substrate. • The HPS uniquely developed very few number of fingermarks. • Ninhydrin was the most effective process; however, it compromises text legibility. • The HPS did not adversely affect subsequent chemical development of fingermarks. • ThermaNIN formulation modified to include HFE-71DE to avoid precipitation. [ABSTRACT FROM AUTHOR]

Published

2020

49. Evaluation of novel organosilane modifications of paper spray mass spectrometry substrates for analyzing polar compounds.

Author

Bambauer, Thomas P., Maurer, Hans H., Weber, Armin A., Hannig, Matthias, Pütz, Norbert, Koch, Marcus, Manier, Sascha K., Schneider, Marc, and Meyer, Markus R.

Subjects

*MASS spectrometry, *MATRIX effect, *TOXIN analysis, *SPRAYING, *PAPER

Abstract

Paper spray mass spectrometry (PSMS) is currently used in different analytical fields, but less effort has been made so far to use PSMS for highly polar compounds. Such analytes usually show poor performance in PSMS due to their high affinity for common paper substrates in addition to high matrix effects. In this study, strategies for hydrophobic modifications of commercially available paper substrates using ten different organosilanes were developed. The modified substrates were generated, characterized, and applied for PSMS analysis of polar toxins. By using the modified paper, PSMS performance of some of the toxins could be considerably increased, especially for orellanine, showing a more than 80-fold signal enhancement when substrates modified with chlorotrimethylsilane were used. For other toxins like ricinine, only small beneficial effects could be shown on PSMS performance when using modified substrates. Statistical equivalence tests showed sufficient ruggedness of the developed procedures also compared to conventional substrates. Thus, further systematic development of paper substrates modified with organosilane derivatives based on the presented study for application in PSMS should be encouraged. Image 1 • Comprehensive study using 10 different mono-/trichlorosilanes for paper modification. • Optimization of modification methods and characterization of modified substrates. • Improvements for paper spray MS performance were achieved for many polar toxins. • Equivalence tests proved robustness of paper spray MS performance using modified substrates. [ABSTRACT FROM AUTHOR]

Published

2019

50. Combining Al-air battery with paper-making industry, a novel type of flexible primary battery technology.

Author

Wang, Yifei, Kwok, Holly Y.H., Pan, Wending, Zhang, Yingguang, Zhang, Huimin, Lu, Xu, and Leung, Dennis Y.C.

Subjects

*BATTERY industry, *ELECTRIC batteries, *ELECTROLYTE solutions, *WEARABLE technology, *POWER density, *PAPER

Abstract

Al-air batteries are generally fabricated by rigid and heavyweight materials such as metal or plastic, meanwhile a bulky electrolyte solution either in static or circulation is requisite to ensure their steady operation. Therefore, they are less suitable for powering flexible and portable devices with lower power demand, such as wearable electronics, point-of-care test assays, RFID tags, etc. This work develops a flexible and lightweight Al-air battery with much less electrolyte storage, which is totally fabricated on a cellulose paper. The Al foil anode is embedded inside the paper substrate during paper-making process, while the air-breathing cathode is deposited onto the paper surface using an oxygen reduction ink. Despite its simple structure and low cost, this flexible Al-air battery can deliver a satisfactory power density of 19 mW cm−2 with alkaline electrolyte, and its operation lifespan is as long as 58 h with only 25 mg Al when saline electrolyte is employed. The corresponding Al specific capacity is as high as 2338 mA h g−1. In addition, this battery exhibits an excellent flexibility when facing different bending angles from 60 to 180° and multiple bending times greater than 1000. Furthermore, a flexible current or voltage output can be easily obtained by scaling up or stacking the present flexible Al-air battery, respectively, and the corresponding stacking efficiency is as high as 94%. In the future, non-metal oxygen catalyst will be employed to improve its environmental friendliness, and hot-pressing will be adopted to further increase its robustness to external deformation. • A flexible Al-air battery is developed for powering flexible and portable devices. • Al anode is embedded inside the paper, while ink cathode is deposited on the paper. • Peak power density of 19 mW cm−2 and specific capacity of 2338 mA h g−1 is obtained. • Battery performance is very stable even it is bended to 180° and by 1000 times. • Battery scaling-up and stacking is very convenient and highly-efficient (94%). [ABSTRACT FROM AUTHOR]

Published

2019