Showing total 87,360 results

1. Single-fibre coating and additive manufacturing of multifunctional papers.

Author

Mikolei, Joanna Judith, Helbrecht, Christiane, Pleitner, Janine Christin, Stanzel, Mathias, Pardehkhorram, Raheleh, Biesalski, Markus, Schabel, Samuel, and Andrieu-Brunsen, Annette

Published

2024

2. Chitosan-adhered graphene/nano iron tetroxide carbon paper electrode for the detection of hexavalent chromium.

Author

Liangyi Tian, Ting Huang, Yilei Xiang, Yichun Bi, Zihan Yu, Jihuan Xie, Jingping Qiu, Lemin Chen, and Linbin Jiang

Subjects

*CARBON electrodes, *CARBON paper, *HEXAVALENT chromium, *MAGNETITE, *IRON, *GRAPHENE, *CHROMIUM compounds

Abstract

This report presents an investigation into the use of carbon paper electrodes prepared from chitosan-adhered graphene magnetite nanoparticles for the analysis of Cr(VI). The preparation and storage of carbon paper electrodes is a simple process, and these electrodes are easier to replace than electrodes modified by more conventional methods. The electrochemical detection of Cr(VI) using square wave adsorption cathodic dissolution voltammetry (SWAdCSV) with high selectivity and sensitivity, as well as the optimum conditions for the preparation of the electrodes and the electrode parameters affecting the SWAdCSV signal, were the main points of focus of the investigation. Cr(VI) was detected linearly in the range of 4-40 μg L-1 with a detection limit of 2.84 μg L-1. The electrode output precision, calculated as %RSD, was 7.16% (n = 6), and this was the measurement used for the detection of Cr(VI) in standard and test samples with recoveries between 89% and 114%. The results were consistent with those obtained using the standard UV-Vis spectrophotometric method with a paired t-test at 95% confidence level. [ABSTRACT FROM AUTHOR]

Published

2024

3. Used tissue paper as a 3D substrate for non-enzyme glucose sensors.

Author

Zhiyu Chen, Lei Li, Xuanyu Xiao, Yuxin Zhang, Jieyu Zhang, Qing Jiang, Xuefeng Hu, and Yunbing Wang

Subjects

*GLUCOSE analysis, *PAPER recycling, *OXIDATION of glucose, *RECYCLED paper, *DETECTORS, *DENSITY functional theory

Abstract

Non-enzymatic electrochemical blood glucose sensors often suffer from issues such as requiring an alkaline environment, limited monitoring range, and poor anti-interference properties. Carbon substrates have been demonstrated to improve the performance of non-enzymatic sensors, but complex and energy-consuming manufacturing processes restrict their use. Herein, a simple and green approach for the preparation of 3D porous Au/Au-Pt networks (PAAPNs) is proposed using tissue paper for recycling as the nanomaterial substrate to deposit Au-Pt bimetallic nanoparticles. The unique structure of the PAAPNs sensor allows for low-potential operation (-1.0 V) with a wide monitoring range (-0.25 to 36 mM) in a neutral environment. Moreover, the sensor exhibited excellent selectivity (<10% response of interference) even without the use of an anti-interference outer membrane. Further investigation using density functional theory (DFT) simulation revealed the synergistic effect between Au and Pt in promoting glucose oxidation. Overall, this work provides a simple and low-carbon footprint method for creating carbon substrates from tissue paper for recycling, offering new opportunities for fabricating novel value-added nanomaterials for medical sensing applications. [ABSTRACT FROM AUTHOR]

Published

2024

4. A supramolecular polymer network constructed using a pillararene-based multi-functional monomer and its application as a rewritable fluorescent paper.

Author

Liang, Bicong, Xia, Danyu, Cheng, Yujie, Zheng, Qiang, and Wang, Pi

Subjects

*ELECTRONIC paper, *SUPRAMOLECULAR polymers, *FLUORESCENT polymers, *MONOMERS, *POLYMER networks

Abstract

A simple and mild stimulus-responsive fluorescent supramolecular polymer network was constructed from a pillararene-based multi-functional monomer through multiple noncovalent interactions and used as a rewritable paper. [ABSTRACT FROM AUTHOR]

Published

2023

5. A paper-based ratiometric fluorescence sensor based on carbon dots modified with Eu3+ for the selective detection of tetracycline in seafood aquaculture water.

Author

Zhang, Jialu, Chen, Yuanyuan, Qi, Ji, Miao, Qinglan, Deng, Dongmei, He, Haibo, Yan, Xiaoxia, and Luo, Liqiang

Subjects

FLUORESCENCE, SEAFOOD, TETRACYCLINE, TETRACYCLINES, AQUACULTURE, DETECTORS

Abstract

Paper-based ratiometric fluorescence sensors are normally prepared using two or more types of fluorescent materials on a paper chip for simple, low-cost and fast detection. However, the choice of multi-step and one-step modifications on the paper chip affects the analytical performance. Herein, a novel paper-based dual-emission ratiometric fluorescence sensor was designed for the selective detection of tetracycline (TC). Carbon dots (CDs) modified with Eu3+ were combined with a sealed paper-based microfluidic chip by two methods: one-step grafting of CDs-Eu3+ on paper and step-by-step grafting of CDs and Eu3+ on paper. The analytical performance was studied and optimized respectively. The red fluorescence of Eu3+ at 450 nm is enhanced and the blue fluorescence of CDs at 617 nm is quenched by energy transfer in the presence of TC. Under optimal conditions, TC is selectively determined in the linear range from 0.1 μM to 100 μM with a detection limit of 0.03 μM by the step-by-step grafting method. In addition, the sealed paper chip could effectively prevent pollution and volatilization from the reagent. This technique has been used to analyze TC in seafood aquaculture water with satisfactory results. [ABSTRACT FROM AUTHOR]

Published

2024

6. Office paper and laser printing: a versatile and affordable approach for fabricating paper-based analytical devices with multimodal detection capabilities.

Author

Sousa, Lucas R., Guinati, Barbara G. S., Maciel, Lanaia I. L., Baldo, Thaisa A., Duarte, Lucas C., Takeuchi, Regina M., Faria, Ronaldo C., Vaz, Boniek G., Paixão, Thiago R. L. C., and Coltro, Wendell K. T.

Subjects

LASER printing, PRINTMAKING, PROSTATE-specific antigen, ELECTROCHEMICAL analysis, ELECTROSPRAY ionization mass spectrometry, IRON, PHOTOVOLTAIC power systems

Abstract

Multiple protocols have been reported to fabricate paper-based analytical devices (PADs). However, some of these techniques must be revised because of the instrumentation required. This paper describes a versatile and globally affordable method to fabricate PADs using office paper as a substrate and a laser printing technique to define hydrophobic barriers on paper surfaces. To demonstrate the feasibility of the alternatives proposed in this study, the fabrication of devices for three types of detection commonly associated with using PADs was demonstrated: colorimetric detection, electrochemical detection, and mass spectrometry associated with a paper-spray ionization (PSI-MS) technique. Besides that, an evaluation of the type of paper used and chemical modifications required on the substrate surface are also presented in this report. Overall, the developed protocol was suitable for using office paper as a substrate, and the laser printing technique as an efficient fabrication method when using this substrate is accessible at a resource-limited point-of-need. Target analytes were used as a proof of concept for these detection techniques. Colorimetric detection was carried out for acetaminophen, iron, nitrate, and nitrite with limits of detection of 0.04 μg, 4.5 mg mL−1, 2.7 μmol L−1, and 6.8 μmol L−1, respectively. A limit of detection of 0.048 fg mL−1 was obtained for the electrochemical analysis of prostate-specific antigen. Colorimetric and electrochemical devices revealed satisfactory performance when office paper with a grammage of 90 g m−2 was employed. Methyldopa analysis was also carried out using PSI-MS, which showed a good response in the same paper weight and behavior compared to chromatographic paper. [ABSTRACT FROM AUTHOR]

Published

2024

7. A wash-free, elution-free and low protein adsorption paper-based material for nucleic acid extraction.

Author

Tang, Ruihua, Yan, Xueyan, Li, Min, Du, Aoqi, Yang, Hui, Yin, Huancai, and Xie, Mingyue

Published

2023

8. Dual-response fluorescence sensing of H2PO4− and CO32− using AJP filter paper based on a pH-stable CdII-based luminescent metal–organic framework.

Author

Cao, Xiao-Qin, Li, Qiang, Yao, Shu-Li, Zhong, Li-qin, Cao, Lei, Chen, Yong-Qiang, and Liu, Sui-Jun

Subjects

*METAL-organic frameworks, *FILTER paper, *FLUORESCENCE, *LIGHT emitting diodes, *DUAL fluorescence

Abstract

A new CdII-based luminescent metal–organic framework (LMOF) with the formula {[Cd(BIBT)(NDC)]·solvents}n (JXUST-32, BIBT = 4,7-bi(1H-imidazol-1-yl)benzo-[2,1,3]thiadiazole and H2NDC = 2,6-naphthalenedicarboxylic acid) was successfully synthesized by a solvothermal method. JXUST-32 shows a two-dimensional (4,4)-connected network and exhibits significant fluorescence red shift and slight enhancement for H2PO4− and CO32− sensing with detection limits of 0.11 and 0.12 μM, respectively. In addition, JXUST-32 has good thermal stability, chemical stability and recyclability. Significantly, JXUST-32 represents a fluorescence red-shift dual response MOF sensor for H2PO4− and CO32− detection and the analytes can be identified by the naked eye, aerosol jet printing filter paper, light-emitting diode beads and luminescent films. [ABSTRACT FROM AUTHOR]

Published

2023

9. Fluorescent filter paper with pH-responsive carbon dots for the on-site detection of biogenic amines in food.

Author

Yan, Jianfeng, Fu, Quanbin, Zhang, Shikai, Shi, Xianbao, Zhang, Yuanhong, Hou, Juying, Duan, Junling, and Ai, Shiyun

Subjects

*BIOGENIC amines, *FILTER paper, *CARBON paper, *FOOD spoilage, *FOOD safety, *DETECTION limit

Abstract

As a kind of organic basic compound containing nitrogen, biogenic amine is released from food spoilage and considered as an indicator for monitoring food freshness. Herein, an excellent dual-emission ratiometric fluorescent sensor for eight kinds of biogenic amines was established via the facile mixing of pH-responsive carbon dots and Rhodamine B. The developed sensor shows a rapid response (10 s), low limit of detection (0.733–3.943 μM) and a wide linear range (0–150 μM). More importantly, a portable fluorescent filter paper was prepared by simple dispersing the filter paper in a solution mixture of carbon dots and Rhodamine B. The obtained fluorescent filter paper based sensor showed an obvious color change in the presence of biogenic amine vapor derived from shrimp and mushroom. The results revealed that this sensor could realize the on-site and visual detection of biogenic amines in real food samples, making it suitable for potential application in food safety monitoring. [ABSTRACT FROM AUTHOR]

Published

2023

10. Phytic acid-modified waste paper-derived cellulose for lanthanum capture: fabrication concept and affinity mechanism.

Author

Yuan, Bangwen, An, Qingda, Xiao, Zuoyi, Dong, Xiaoling, Zhu, Kairuo, Shao, Guolin, Zhai, Shangru, and Ha, Chang-Sik

Subjects

*LANGMUIR isotherms, *ADSORPTION kinetics, *WASTE paper, *LANTHANUM, *PHYTIC acid

Abstract

Selective enrichment of La(III) by green material as an industrial raw material is of great research interest. In this study, the selective interaction between P and La(III) was utilized, and waste paper (WP) modified with phytic acid (PA) was used to adsorb La(III) from water using a simple one-pot method. The adsorption capacity was 237.23 mg g−1 (30 °C, pH = 5, initial concentration of 200 mg L−1). The equilibrium isotherm fitted the Langmuir isotherm model well. The adsorption equilibrium was reached after 15 min. The adsorption kinetics followed the pseudo-second-order kinetic model, indicating that the adsorption mechanism of the material towards La(III) is single-layer chemisorption. It selectively adsorbed La(III) from four coexisting substances (Pb, Ni, Cu, and Co). After six cycles, the adsorption efficiency of the adsorbent material remained at 60%. [ABSTRACT FROM AUTHOR]

Published

2024

11. Fluorescence sensor using porous host molecules deposited on filter paper with vapochromic and mechanochromic properties.

Author

Umezane, Sota, Fukutomi, Satoshi, Ono, Toshikazu, Hisaeda, Yoshio, Nishimura, Tomoki, Kawasaki, Riku, and Ikeda, Atsushi

Subjects

*FILTER paper, *FLUORESCENCE, *IRRADIATION, *ABSORBED dose, *MOLECULES, *DETECTORS

Abstract

Naphthalenediimide derivative-absorbed papers, which were prepared by dropping chloroform solution, showed fluorescence under photoirradiation after exposure to vapors of small aromatic guests. The fluorescence intensity and maximum wavelength depended on the type of guest aromatic molecules, similar to the crystal. The naphthalenediimide derivative-absorbed papers showed vapochromic and mechanochromic properties. [ABSTRACT FROM AUTHOR]

Published

2023

12. Rapid fabrication of hydrophobic/hydrophilic patterns on paper substrates for paper spray mass spectrometry.

Author

Arias, Austin, Windham, Peyton E., Cheyne, Natalie A., and Gilliland, William M.

Subjects

EFAVIRENZ, MASS spectrometry, ENERGY dispersive X-ray spectroscopy, HYDROPHOBIC surfaces, CONTACT angle, DETECTION limit, OXYGEN masks

Abstract

A simple, rapid chemical coating and patterning method was developed and optimized for paper-based substrates for use in paper spray mass spectrometry (PS-MS). A variety of chlorosilanes were explored for coating paper substrates, and their effectiveness in forming hydrophobic surfaces was characterized via contact angle goniometry, scanning electron microscopy, and energy dispersive X-ray spectroscopy. Trichloromethylsilane was selected as the primary coating agent because of the short time required to produce a hydrophobic surface (contact angle > 130°), as well as the ease of patterning. Patterning was performed using 3D-printed masks and an oxygen/plasma cleaner. Optimal mask thickness and oxygen/plasma cleaning parameters were determined to produce channels varying from 0.5 to 2.5 mm in width. The effectiveness of the patterned substrates for PS-MS was determined via analysis of four antiretrovirals: emtricitabine, lamivudine, efavirenz, and dolutegravir. Calibration curves were made for each antiretroviral at varying channel widths, and the limits of detection and limits of quantification for each drug were determined. These results show that this patterning method results in an average 7.2-fold improvement in sensitivity and an average 190-fold improvement in limits of detection over uncoated paper substrates in a neat matrix. In a proof-of-concept experiment, calibration curves were generated for each antiretroviral in urine. A patterned paper substrate with a 2-mm channel resulted in an average 7.4-fold improvement in sensitivity and an average 18-fold improvement in limits of detection over uncoated paper substrates. [ABSTRACT FROM AUTHOR]

Published

2023

13. A leaf-like porous N-doped carbon structure embedded with CoS2 nanoparticles self-supported on carbon fiber paper as a cathode in flexible zinc–air batteries.

Author

Chen, Mengyu, Wu, Yongjian, Zhou, Yujie, Yu, Xinxin, Dai, Peng, Yu, Jing, Jiang, Tongtong, and Wu, Mingzai

Subjects

*CARBON paper, *CARBON fibers, *DOPING agents (Chemistry), *OXYGEN evolution reactions, *METALLIC composites, *CHARGE exchange, *HYDROGEN evolution reactions

Abstract

Developing new forms of flexible zinc–air (Zn–air) batteries is crucial to economic growth. Nevertheless, the absence of an oxygen evolution reaction catalyst with high catalytic efficiency and low-cost causes instability of Zn–air battery cycling and economic unviability, respectively. In this paper, a leaf-like N-doped carbon structure with CoS2 nanoparticles self-supported on carbon fiber paper (CoS2-CZ@CFP) was developed as an air electrode for Zn–air batteries, which not only uses nonprecious metal elements, but also has a self-supporting configuration, enhancing the contact between the catalyst and electrode while facilitating the transfer of electrons. Sulfur as the source gas was introduced into Co-doped metal–organic skeletons (Co-ZIFs) anchored on carbon fiber paper (CFP) for in situ vulcanizing transition metal Co, which successfully ensures the uniform distribution of sulfide particles in the carbon matrix, hence enriching active catalyst sites. The CoS2-CZ@CFP demonstrated an overpotential of 1.611 V at J = 50 mA cm−2, superior to RuO2@CFP (1.814 V). A Zn–air battery fabricated using the synthesized CoS2-CZ@CFP exhibited an extended life cycle of 117 h. This research paves the way for a novel method of designing self-supporting configurations of sulfides and carbon matrix composites as promising air electrodes applicable to Zn–air batteries. [ABSTRACT FROM AUTHOR]

Published

2023

14. Copper phenanthroline for selective electrochemical CO2 reduction on carbon paper.

Author

Du, Jiehao, Cheng, Banggui, Jiang, Long, and Han, Zhiji

Subjects

*CARBON paper, *ELECTROLYTIC reduction, *PHENANTHROLINE, *CARBON electrodes, *COPPER, *LIGANDS

Abstract

We report a series of structurally relevant copper phenanthroline complexes as pre-catalysts for highly selective electrocatalytic reduction of CO2 to C2 products using inexpensive carbon paper electrodes. The Cu complexes with non-substituted phenanthroline promote the production of ethylene with a high faradaic efficiency of 71.2%, while the one with pyridinium-functionalized ligands is more selective for ethanol. The C2 selectivity can be effectively tuned by increasing the number of coordinated phenanthrolines and remains high at a wide range of potentials. [ABSTRACT FROM AUTHOR]

Published

2023

15. Controllable preparation of 2D carbon paper modified with flower-like WS2 for efficient microwave absorption.

Author

Hao Chen, Yuming Zhou, Meiyun Zhang, Shuangjiang Feng, Xiaohai Bu, Zewu Zhang, and Man He

Subjects

*CARBON paper, *MULTIPLE scattering (Physics), *MICROWAVES, *COMPOSITE coating, *ELECTROMAGNETIC waves

Abstract

In the practical application of microwave absorbing materials, traditional powder materials need to be mixed with the matrix to fabricate composite coatings. However, the complex preparation process of composite coatings and the uneven dispersion of powders in the matrix limit their application. To solve these problems, two-dimensional (2D) F-WS2/CP composite films were prepared by using carbon paper (CP) as a dispersion matrix and loading flower-like WS2 on its surface through a simple hydrothermal method. The morphology and microwave absorption (MA) performance of the composite films are easily regulated by adjusting the amount of reaction precursors. The combination of WS2 and CP facilitates impedance matching and improves the electromagnetic wave attenuation performance based on the synergistic effect of different loss mechanisms including multiple reflections and scattering, interfacial polarization, dipolar polarization, and conduction loss. At a low filler content (5 wt%), the maximum reflection loss (RL) of the composite film is up to -50 dB (99.999% energy absorption) at 12.5 GHz with 2.8 mm thickness. Moreover, at a relatively thin 1.8 mm thickness, its maximum RL remains -35 dB (>99.9% energy absorption). The as-prepared composite film shows excellent MA properties at a thinner thickness and lower filling content, providing inspiration for the preparation of light weight and efficient 2D thin-film microwave absorbers in the future. [ABSTRACT FROM AUTHOR]

Published

2023

16. On paper characterisation of droplet and evaporation study using impedance spectroscopy.

Author

Siva Prakasam, O. Kare, Basu, Akashlina, Chaudhury, Koel, and Das, Soumen

Published

2024

17. Equipment-free determination of ascorbic acid based on the UV-induced oxidation of 3,3′,5,5′-tetramethylbenzidine in a paper-based analysis device.

Author

Liu, Xiaoxia, Hou, Wenya, Zhao, Jinzhong, Zhang, Lili, Li, Anping, and Ma, Ruiyan

Subjects

VITAMIN C, ANALYSIS of colors, OXIDATION, FILTER paper, HYDROXYL group, BLUE

Abstract

A simple, portable and cost-effective paper-based analysis device is developed for quantitative determination of ascorbic acid (AA) based on the UV-induced oxidation of 3,3′,5,5′-tetramethylbenzidine (TMB). The method does not involve the introduction of any enzyme or external oxidants. More importantly, large equipment is not needed and only a 20 μL sample is needed for each analysis which only takes 8 min. The filter paper is pre-treated with TMB and it turns blue upon UV irradiation because TMB is a self-photosensitizer. The phenol hydroxyl groups of AA can inhibit photo-triggered oxidation resulting in a lighter blue color. The color signal is captured using a smartphone and analyzed using color analysis software. A series of factors that affect the performance of the device are investigated, including the concentration of TMB, buffer pH, channel selection, and irradiation time. The analytical performance is evaluated, and the results show that the method has a wide detection range of 0.05–1.0 mmol L−1 as well as a high selectivity and reproducibility. The proposed method is applied for assaying AA in beverage samples and a VC tablet, and the results correspond to those obtained using the UV method. The results of the recovery test of human serum indicate that the proposed method is feasible in biological samples. This device is easy to fabricate, and convenient to store and transport. It is a truly portable device which has great potential in the on-site assay. [ABSTRACT FROM AUTHOR]

Published

2023

18. A paper-based dual functional biosensor for safe and user-friendly point-of-care urine analysis.

Author

Yujia Li, Yingqi Kong, Yubing Hu, Yixuan Li, Asrosa, Rica, Wenyu Zhang, Boruah, Buddha Deka, Yetisen, Ali K., Davenport, Andrew, Tung-Chun Lee, and Bing Li

Subjects

*URINALYSIS, *BIOSENSORS, *PRUSSIAN blue, *GLUCOSE analysis, *GLUCOSE oxidase, *GRAPHITE composites, *ORGANOPHOSPHORUS pesticides

Abstract

Safe, accurate, and reliable analysis of urinary biomarkers is clinically important for early detection and monitoring of the progression of chronic kidney disease (CKD), as it has become one of the world's most prevalent non-communicable diseases. However, current technologies for measuring urinary biomarkers are either time-consuming and limited to well-equipped hospitals or lack the necessary sensitivity for quantitative analysis and post a health risk to frontline practitioners. Here we report a robust paper-based dual functional biosensor, which is integrated with the clinical urine sampling vial, for the simultaneous and quantitative analysis of pH and glucose in urine. The pH sensor was fabricated by electrochemically depositing IrOx onto a paper substrate using optimised parameters, which enabled an ultrahigh sensitivity of 71.58 mV pH-1. Glucose oxidase (GOx) was used in combination with an electrochemically deposited Prussian blue layer for the detection of glucose, and its performance was enhanced by gold nanoparticles (AuNPs), chitosan, and graphite composites, achieving a sensitivity of 1.5 μA mM-1. This dual function biosensor was validated using clinical urine samples, where a correlation coefficient of 0.96 for pH and 0.98 for glucose detection was achieved with commercial methods as references. More importantly, the urine sampling vial was kept sealed throughout the sample-to-result process, which minimised the health risk to frontline practitioners and simplified the diagnostic procedures. This diagnostic platform, therefore, holds high promise as a rapid, accurate, safe, and user-friendly point-of-care (POC) technology for the analysis of urinary biomarkers in frontline clinical settings. [ABSTRACT FROM AUTHOR]

Published

2024

19. Distance-based paper analytical device for multiplexed quantification of cytokine biomarkers using carbon dots integrated with molecularly imprinted polymer.

Author

Khachornsakkul, Kawin, Del-Rio-Ruiz, Ruben, Chheang, Lita, Wenxin Zenga, and Sonkusale, Sameer

Subjects

*IMPRINTED polymers, *MICROFLUIDICS, *TUMOR necrosis factors, *CYTOKINES, *BIOMARKERS, *FLUORESCENCE quenching, *POINT-of-care testing

Abstract

This article introduces distance-based paper analytical devices (dPADs) integrated with molecularly imprinted polymers (MIPs) and carbon dots (CDs) for simultaneous quantification of cytokine biomarkers, namely C-reactive protein (CRP), tumor necrosis factor-alpha (TNF-a), and interleukin-6 (IL-6) in human biological samples for diagnosis of cytokine syndrome. Using fluorescent CDs and MIP technology, the dPAD exhibits high selectivity and sensitivity. Detection is based on fluorescence quenching of CDs achieved through the interaction of the target analytes with the MIP layer on the paper substrate. Quantitative analysis is easily accomplished by measuring the distance length of quenched fluorescence with a traditional ruler and naked eye readout enabling rapid diagnosis of cytokine syndrome and the underlying infection. Our sensor demonstrated linear ranges of 2.50-24.0 pg mL-1 (R2 = 0.9974), 0.25-3.20 pg mL-1 (R2 = 0.9985), and 1.50-16.0 pg mL-1 (R2 = 0.9966) with detection limits (LODs) of 2.50, 0.25, and 1.50 pg mL-1 for CRP, TNF-a, and IL-6, respectively. This sensor also demonstrated remarkable selectivity compared to a sensor employing a non-imprinted polymer (NIP), and precision with the highest relative standard deviation (RSD) of 5.14%. The sensor is more accessible compared to prior methods relying on expensive reagents and instruments and complex fabrication methods. Furthermore, the assay provided notable accuracy for monitoring these biomarkers in various human samples with recovery percentages ranging between 99.22% and 103.58%. By integrating microfluidic systems, nanosensing, and MIPs technology, our developed dPADs hold significant potential as a cost-effective and user-friendly analytical method for point-of-care diagnostics (POC) of cytokine-related disorders. This concept can be further extended to developing diagnostic devices for other biomarkers. [ABSTRACT FROM AUTHOR]

Published

2024

20. A disposable paper-based electrochemical biosensor decorated by electrospun cellulose acetate nanofibers for highly sensitive bio-detection.

Author

Zhang, Zhiwei, Du, Manman, Cheng, Xiao, Dou, Xuechen, Zhou, Junting, Wu, Jianguo, Xie, Xinwu, and Zhu, Mengfu

Subjects

*CELLULOSE acetate, *ELECTROCHEMICAL sensors, *ESCHERICHIA coli, *ELECTROCHEMICAL electrodes, *NANOFIBERS, *BIOSENSORS, *SQUARE waves

Abstract

Paper-based electrochemical sensors have the characteristics of flexibility, biocompatibility, environmental protection, low cost, wide availability, and hydropathy, which make them very suitable for the development and application of biological detection. This work proposes electrospun cellulose acetate nanofiber (CA NF)-decorated paper-based screen-printed (PBSP) electrode electrochemical sensors. The CA NFs were directly collected on the PBSP electrode through an electrospinning technique at an optimized voltage of 16 kV for 10 min. The sensor was functionalized with different bio-sensitive materials for detecting different targets, and its sensing capability was evaluated by CV, DPV, and chronoamperometry methods. The test results demonstrated that the CA NFs enhanced the detection sensitivity of the PBSP electrode, and the sensor showed good stability, repeatability, and specificity (p < 0.01, N = 3). The electrochemical sensing of the CA NF-decorated PBSP electrode exhibited a short detection duration of ∼5–7 min and detection ranges of 1 nmol mL−1–100 μmol mL−1, 100 fg mL−1–10 μg mL−1, and 1.5 × 102–106 CFU mL−1 and limits of detection of 0.71 nmol mL−1, 89.1 fg mL−1, and 30 CFU mL−1 for glucose, Ag85B protein, and E. coli O157:H7, respectively. These CA NF-decorated PBSP sensors can be used as a general electrochemical tool to detect, for example, organic substances, proteins, and bacteria, which are expected to achieve point-of-care testing of pathogenic microorganisms and have wide application prospects in biomedicine, clinical diagnosis, environmental monitoring, and food safety. [ABSTRACT FROM AUTHOR]

Published

2024

21. Water-resistant, strong, degradable and recyclable rosin-grafted cellulose composite paper.

Author

Sun, Penghao, Wang, Siheng, Huang, Zhen, Zhang, Lei, Dong, Fuhao, Xu, Xu, and Liu, He

Subjects

CELLULOSE fibers, CELLULOSE, YOUNG'S modulus, SUSTAINABLE development, PLASTICS, DRINKING straws

Abstract

Petroleum-based plastics are useful, but they pose a huge threat to the environment and human health. The development of sustainable cellulose paper materials with excellent mechanical and water-resistance properties to replace plastics is highly desirable but also challenging. Herein, we report a new kind of rosin-based modifier synthesized from fully hydrogenated rosin and (3-glycidoxypropyl)triethoxysilane, which can covalently bind with cellulose fiber networks to improve the hydrophobicity and weaken the capillarity of cellulose paper. The rosin-grafted cellulose composite paper shows a unique combination of water resistance (water absorption of 19.2% and 37.9% in 25 and 90 °C water, respectively) and high strength (tensile strength of 47.9 MPa and Young's modulus of 2.32 GPa). Moreover, the rosin-grafted cellulose composite paper can be completely degraded when buried in soil for up to 100 days, and it can be recycled when treated with an alkali. These impressive performances make rosin-grafted cellulose composite paper a promising eco-friendly alternative material to replace plastics in straws, boxes, cups, bags and so on. [ABSTRACT FROM AUTHOR]

Published

2022

22. Rapid and inexpensive process to fabricate paper based microfluidic devices using a cut and heat plastic lamination process.

Author

Kumawat, Nityanand, Soman, Soja Saghar, Vijayavenkataraman, Sanjairaj, and Kumar, Sunil

Subjects

LAMINATED plastics, MICROFLUIDIC devices, MICROFLUIDICS, POROUS materials, CHEMICAL industry, FILTER paper, CHEMICAL resistance

Abstract

Microfluidic paper-based analytical devices (microPADs) are emerging as simple-to-use, low-cost point-of-care testing platforms. Such devices are mostly fabricated at present by creating hydrophobic barriers using wax or photoresist patterning on porous paper sheets. Even though devices fabricated using these methods are used and tested with a wide variety of analytes, still they pose many serious practical limitations for low-cost automated mass fabrication for their widespread applicability. We present an affordable and simple two-step process – cut and heat (CH-microPADs) – for the selective fabrication of hydrophilic channels and reservoirs on a wide variety of porous media such as tissue/printing/filter paper and cloth types, such as cotton and polyester, by a lamination process. The technique presents many advantages as compared to existing commonly used methods. The devices possess excellent mechanical strength against bending, folding and twisting, making them virtually unbreakable. They are structurally flexible and show good chemical resistance to various solvents, acids and bases, presenting widespread applicability in areas such as clinical diagnostics, biological sensing applications, food processing, and the chemical industry. Fabricated paper media 96 well-plate CH-microPAD configurations were tested for cell culture applications using mice embryonic fibroblasts and detection of proteins and enzymes using ELISA. With a simple two-step process and minimal human intervention, the technique presents a promising step towards mass fabrication of inexpensive disposable diagnostic devices for both resource-limited and developed regions. [ABSTRACT FROM AUTHOR]

Published

2022

23. PCB-C4D coupled with paper-based microfluidic sampling for the rapid detection of liquid conductivity.

Author

Yang, Mingpeng, Cao, Mingyi, Zhang, Zhixuan, and Wang, Chaofan

Published

2024

24. Paper card-like electrochemical platform as a smart point-of-care device for reagent-free glucose measurement in tears.

Author

Fiore, Luca, Sinha, Ankita, Seddaoui, Narjiss, di Biasio, Jessica, Ricci, Federico, Stojanovic, Goran M., and Arduini, Fabiana

Subjects

SMART devices, GLUCOSE, ELECTRONIC paper, POLYVINYL chloride, DETECTION limit, BLOOD sugar monitors

Abstract

This communication describes the development of polyvinyl chloride electrochemical system in which a paper layer loaded with reagents is inserted into the device, demonstrating a new concept of a paper card-like pad for a reagent-free and easy measurement of the target analyte in solution. This device detects glucose in artificial tears in the range of 0.2–2 mM with a detection limit of 50 μM by simply adding the artificial tears to the paper card-like pad. The novel configuration goes beyond the state of the art, widening the application range of paper in the design of smart analytical devices. [ABSTRACT FROM AUTHOR]

Published

2023

25. ZnO nano grafted chitin–chitosan based hybrid composite coated super hydrophobic filter paper for water flow cleaning and oil–water separation applications.

Author

Selvaraj, V., Swarna Karthika, T., Mansiya, C., and Alagar, M.

Subjects

*CHITIN, *HYBRID materials, *FILTER paper, *COMPOSITE coating, *WATER filters, *FOURIER transform infrared spectroscopy

Abstract

A robust superhydrophobic filter paper was developed through a coating technique, simple and facile, cost-effective, eco-friendly, and defensible, for wide portfolio applications. To develop super hydrophobic filter papers, the paper was coated with inorganic–organic hybrid nanocomposites comprising zinc oxide, chitin, and polycaprolactone (chitin–ZnO–PCL) and zinc oxide, chitosan, and polycaprolactone (chitosan–ZnO–PCL) hybrids through the grafting method. The preparation of a superhydrophobic surface by dip-coating deposition is a facile process. Zinc oxide nanoparticles grafted with chitin–PCL and chitosan–PCL hybrids coated on paper exhibit superhydrophobic properties. Water contact angle measurement carried out using a goniometer showed the average static water angle values of 145° and 160° for the chitin–ZnO–PCL and chitosan–ZnO–PCL grafted hybrid coated surfaces, respectively. The surface morphology of the coating was studied using scanning electron microscopy, X-ray powder diffraction, UV radiation, and Fourier transform infrared spectroscopy. In addition, durability, oil/water separation, bio-degradability, and self-cleaning ability through water flush-out were also studied and reported. The results show that the coated filter papers possess excellent superhydrophobic properties for real-time applications. [ABSTRACT FROM AUTHOR]

Published

2023

26. Functionalized Schiff-base containing phenothiazine and cholic acid as a paper-based fluorescence turn-off sensor for Sn(II) ion detection and its application.

Author

Bariya, Dipakkumar and Mishra, Satyendra

Subjects

*CHOLIC acid, *CHEMORECEPTORS, *PHENOTHIAZINE, *TIN, *METAL detectors, *FLUORESCENCE

Abstract

Employing a one-pot Schiff-base condensation approach, the derivative "cholyl hydrazide Schiff base of phenothiazine" (ChHSB-PTZ) based on cholic acid has been synthesized and characterized via standard procedures. ChHSB-PTZ demonstrates exceptional sensitivity towards Sn(II) metal ion detection through fluorescence "turn-off" behavior based on chelation-enhanced fluorescence quenching (CHEQ) even in the presence of various cations and anions. Through modified Stern–Volmer and Stern–Volmer graph analyses, the binding constant (Ka) and limit of detection (LOD) were found to be 2.8 × 1010 M−1 and 2.2 nM, respectively. A 1 : 1 stoichiometry between ChHSB-PTZ and the Sn(II) metal ion was found via Job's plot. Moreover, the distribution of electronic states in the ChHSB-PTZ Schiff base and the sensing mechanism (CHEQ) were clarified through the use of 1H NMR titration spectroscopy and density functional theory (DFT) calculations. ChHSB-PTZ test paper strips are developed as an essential tool to improve the analytical applicability of the device and enable the rapid, accurate, and affordable detection of Sn(II) metal ions in environmental analysis. [ABSTRACT FROM AUTHOR]

Published

2024

27. Paper spray mass spectrometry combined with machine learning as a rapid diagnostic for chronic kidney disease.

Author

Pereira, Igor, Sboto, Jindar N. S., Robinson, Jason L., and Gill, Chris G.

Subjects

*CHRONIC kidney failure, *MASS spectrometry, *RANDOM forest algorithms, *HIGH voltages, *MASS measurement

Abstract

A new analytical method for chronic kidney disease (CKD) detection utilizing paper spray mass spectrometry (PS-MS) combined with machine learning is presented. The analytical protocol is rapid and simple, based on metabolic profile alterations in urine. Anonymized raw urine samples were deposited (10 μL each) onto pointed PS-MS sample strips. Without waiting for the sample to dry, 75 μL of acetonitrile and high voltage were applied to the strips, using high resolution mass spectrometry measurement (15 s per sample) with polarity switching to detect a wide range of metabolites. Random forest machine learning was used to classify the resulting data. The diagnostic performance for the potential diagnosis of CKD was evaluated for accuracy, sensitivity, and specificity, achieving results >96% for the training data and >91% for validation and test data sets. Metabolites selected by the classification model as up- or down-regulated in healthy or CKD samples were tentatively identified and in agreement with previously reported literature. The potential utilization of this approach to discriminate albuminuria categories (normo, micro, and macroalbuminuria) was also demonstrated. This study indicates that PS-MS combined with machine learning has the potential to be used as a rapid and simple diagnostic tool for CKD. [ABSTRACT FROM AUTHOR]

Published

2024

28. Smartphone-based paper strip assay for putrescine and spermidine detection using hybrid organic–inorganic perovskite with Eu3+ complex.

Author

Truong, Thi Thuy, Huy, Bui The, Huong, Le Thi Cam, Truong, Hai Bang, and Lee, Yong-Ill

Subjects

*SPERMIDINE, *PUTRESCINE, *PEROVSKITE, *SMARTPHONES, *FLUORESCENCE quenching, *FLUORESCENT probes, *POLYAMINES, *BIOGENIC amines

Abstract

A new method utilizing fluorescent ratiometry is proposed for detecting putrescine and spermidine. The method involves the use of a fluorescent probe comprising a 2D halide perovskite synthesized from octadecylamine-iodine and PbI2via a grinding-sonicating technique, along with a Eu3+-complex. Upon excitation at 290 nm, the probe fluoresces at two distinguishable wavelengths. The addition of putrescine and spermidine significantly decreases the emission of the 2D halide perovskite at 496 nm, while the emission of the Eu3+-complex at 618 nm remains stable. The color changes of the probe depend on the concentration of putrescine and spermidine, and the assay offers linearity over a wide concentration range (30–4000 ng mL−1), a low detection limit (4 ng mL−1 for putrescine, and 7 ng mL−1 for spermidine), and a quick response time. Furthermore, a portable device based on a smartphone can be used to record the color change of the paper test strip using the prepared fluorescent materials. The fluorescence quenching mechanism of the probe is explained as dynamic quenching. [ABSTRACT FROM AUTHOR]

Published

2024

29. Ultrasensitive amplification-free detection of circulating miRNA via droplet-based processing of SERS tag–miRNA–magnetic nanoparticle sandwich nanocomplexes on a paper-based electrowetting-on-dielectric platform.

Author

Wang, Kai-Hao, Chen, Yuan-Yu, Wang, Chih-Hsien, Hsu, Keng-Fu, Chau, Lai-Kwan, Wang, Shau-Chun, and Chen, Yuh-Ling

Subjects

*NANOPARTICLES, *SERS spectroscopy, *EARLY detection of cancer, *MICRORNA, *NUCLEIC acids, *PLASMA diagnostics

Abstract

MicroRNAs (miRNAs) have emerged as a promising class of biomarkers for early detection of various cancers, including ovarian cancer. However, quantifying miRNAs in human blood samples is challenging owing to the issues of sensitivity and specificity. In this study, hsa-miR-200a-3p of the miR-200a sub-family, which is a biomarker of ovarian cancer, was used as the analyte to demonstrate the analytical capability of an integrated biosensing platform using an extremely sensitive surface-enhanced Raman scattering (SERS) nanotag−nanoaggregate-embedded beads (NAEBs), magnetic nanoparticles (MNPs), a pair of highly specific locked nucleic acid (LNA) probes, and a semi-automated paper-based electrowetting-on-dielectric (pEWOD) device to provide labor-less and thorough sample cleanup and recovery. A sandwich approach where NAEBs are modified by one LNA-1 probe and MNPs are modified by another LNA-2 probe was applied. Then, the target analyte miRNA-200a-3p was introduced to form a sandwich nanocomplex through hybridization with the pair of LNA probes. The pEWOD device was used to achieve short cleanup time and good recovery of the nanocomplex, bringing the total analysis time to less than 30 min. The detection limit of this approach can reach 0.26 fM through SERS detection. The versatility of this method without the need for RNA extraction from clinical samples is expected to have good potential in detecting other miRNAs. [ABSTRACT FROM AUTHOR]

Published

2024

30. A dual paper-based nucleic acid extraction method from blood in under ten minutes for point-of-care diagnostics.

Author

Malpartida-Cardenas, Kenny, Baum, Jake, Cunnington, Aubrey, Georgiou, Pantelis, and Rodriguez-Manzano, Jesus

Subjects

NUCLEIC acid isolation methods, POINT-of-care testing, DRUG monitoring, FILTER paper, EUKARYOTIC cells

Abstract

Nucleic acid extraction (NAE) plays a crucial role for diagnostic testing procedures. For decades, dried blood spots (DBS) have been used for serology, drug monitoring, and molecular studies. However, extracting nucleic acids from DBS remains a significant challenge, especially when attempting to implement these applications to the point-of-care (POC). To address this issue, we have developed a paper-based NAE method using cellulose filter papers (DBSFP) that operates without the need for electricity (at room temperature). Our method allows for NAE in less than 7 min, and it involves grade 3 filter paper pre-treated with 8% (v/v) igepal surfactant, 1 min washing step with 1× PBS, and 5 min incubation at room temperature in 1× TE buffer. The performance of the methodology was assessed with loop-mediated isothermal amplification (LAMP), targeting the human reference gene beta-actin and the kelch 13 gene from P. falciparum. The developed method was evaluated against FTA cards and magnetic bead-based purification, using time-to-positive (min) for comparative analysis. Furthermore, we optimised our approach to take advantage of the dual functionality of the paper-based extraction, allowing for elution (eluted disk) as well as direct placement of the disk in the LAMP reaction (in situ disk). This flexibility extends to eukaryotic cells, bacterial cells, and viral particles. We successfully validated the method for RNA/DNA detection and demonstrated its compatibility with whole blood stored in anticoagulants. Additionally, we studied the compatibility of DBSFP with colorimetric and lateral flow detection, showcasing its potential for POC applications. Across various tested matrices, targets, and experimental conditions, our results were comparable to those obtained using gold standard methods, highlighting the versatility of our methodology. In summary, this manuscript presents a cost-effective solution for NAE from DBS, enabling molecular testing in virtually any POC setting. When combined with LAMP, our approach provides sample-to-result detection in under 35 minutes. [ABSTRACT FROM AUTHOR]

Published

2023

31. Perovskite quantum dots embedded paper photodetectors with high flexibility and self-powered operation.

Author

Guan, Xinwei, Huang, Chien-Yu, Hu, Long, Periyanagounder, Dharmaraj, Lei, Zhihao, Kim, Jiyun, Rahaman, Md. Zahidur, Huang, Jing-Kai, Kumar, Prashant, and Lin, Chun-Ho

Abstract

Metal halide perovskite quantum dots (QDs) with unique physicochemical properties are promising candidates for next-generation optoelectronics, but they often suffer from stability issues that severely limit their potential for practical applications. In this work, we adopt an oleic acid/oleylamine-free approach to synthesize MAPbBr3 quantum dot (MQD) papers by incorporating MQDs into cellulose nanofiber frameworks. The abundant long-chain binding ligands containing sulfate terminal groups within the cellulose nanofiber remarkably stabilize the MQD structure, enabling the fabrication of self-power and flexible MQD paper photodetectors with a responsivity of ∼0.19 mA W−1, detectivity of 1.58 × 108 cm Hz1/2 W−1, and excellent bendability and reliability after 500 bending cycles. More importantly, these MQD/cellulose-based self-powered photodetectors demonstrate extraordinarily high environmental stability, maintaining more than 90% of the initial responsivity after 60 days. The simple disposability of the paper-based device is also illustrated by burning within one second, suggesting the ease of device elimination. Our work provides a unique approach to designing ultra-stable perovskite QD-based electronics with unprecedented functionalities. [ABSTRACT FROM AUTHOR]

Published

2024

32. Paper-based microfluidics in sweat detection: from design to application.

Author

Ye, Zhichao, Yuan, Yuyang, Zhan, Shaowei, Liu, Wei, Fang, Lu, and Li, Tianyu

Subjects

MICROFLUIDIC analytical techniques, MICROFLUIDICS, EXPERIMENTAL design, RESEARCH & development

Abstract

Sweat, as a sample that includes a lot of biochemical information, is good for non-invasive monitoring. In recent years, there have been an increasing number of studies on in situ monitoring of sweat. However, there are still some challenges for the continuous analysis of samples. As a hydrophilic, easy-to-process, environmentally friendly, inexpensive and easily accessible material, paper is an ideal substrate material for making in situ sweat analysis microfluidics. This review introduces the development of paper as a sweat analysis microfluidic substrate material, focusing on the advantages of the structural characteristics of paper, trench design and equipment integration applications to expand the design and research ideas for the development of in situ sweat detection technology. [ABSTRACT FROM AUTHOR]

Published

2023

33. A paper-based point-of-care device for the detection of cysteine using gold nanoparticles from whole blood.

Author

Kumari, Monika, Kumar, Natish, Kumar, Sunny, Gandhi, Shivani, Zussman, Eyal, and Arun, Ravi Kumar

Published

2024

34. Ion imprinted polymers integrated into a multi-functional microfluidic paper-based analytical device for trace cadmium detection in water.

Author

Hu, Jingfang, Wang, Linzhe, Song, Yu, Li, Yansheng, Shen, Yu, Gao, Guowei, Qin, Lei, Wu, Jianfeng, and Mulchandani, Ashok

Published

2024

35. Surface-enhanced Raman scattering detection of thiram and ciprofloxacin using chitosan–silver coated paper substrates.

Author

Martins, Natércia C. T., Fateixa, Sara, Nogueira, Helena I. S., and Trindade, Tito

Subjects

SERS spectroscopy, CIPROFLOXACIN, EMERGING contaminants, WATER quality monitoring, RAMAN microscopy, MOLECULAR probes

Abstract

Fast detection of contaminants of emerging concern (CECs) in water resources is of great environmental interest. Ideally, sustainable materials should be used in water quality monitoring technologies implemented for such purposes. In this regard, the application of bio-based materials aimed at the fabrication of analytical platforms has become of great importance. This research merges both endeavors by exploring the application of chitosan-coated paper, decorated with silver nanoparticles (AgNPs), on surface-enhanced Raman scattering (SERS) spectroscopy studies of two distinct types of CECs dissolved in aqueous samples: an antibiotic (ciprofloxacin) and a pesticide (thiram). Our results indicate the superior SERS performance of biocoated substrates compared to their non-coated paper counterparts. The detection limits achieved for thiram and ciprofloxacin using the biocoated substrates were 0.024 ppm and 7.7 ppm, respectively. The efficient detection of both analytes is interpreted in terms of the role of the biopolymer in promoting AgNPs assemblies that result in local regions of enhanced SERS activity. Taking advantage of these observations, we use confocal Raman microscopy to obtain Raman images of the substrates using ciprofloxacin and thiram as molecular probes. We also demonstrate that these biobased substrates can be promising for on-site analysis when used in conjunction with portable Raman instruments. [ABSTRACT FROM AUTHOR]

Published

2024

36. Cell marathon: long-distance cell migration and metastasis-associated gene analysis using a folding paper system.

Author

Huang, Chia-Hao and Lei, Kin Fong

Subjects

*PAPER arts, *CELL migration, *TUMOR suppressor genes, *PROTEIN-tyrosine phosphatase, *PHOSPHOPROTEIN phosphatases, *GENE expression

Abstract

A high mortality rate was found in cancer patients with distant metastasis. Development of targeted drugs for effectively inhibiting cancer metastasis is the key for increasing therapeutic success. In the current study, a folding paper system was developed to mimic a tumor–vascular interface for the study of long-distance cell migration. Correlation between the cell migration distance and metastasis-associated gene was successfully analyzed by disassembling the stacked paper construct. The result revealed that the migration distance and number of migrated cells were highly correlated to cell characteristics. Moreover, immunocytochemistry was directly conducted on the paper layer to study the signaling pathway. Kelch-like and protein tyrosine phosphatase families were examined and the PTPN13 gene was shown to regulate long-distance cell migration. By analyzing the phosphorylated mTOR, the PTPN13 gene was further confirmed to be a tumor suppressor gene that inhibits long-distance cell migration. The folding paper system provides an alternative approach for long-distance cell migration. Metastasis-associated gene expression can be analyzed to potentially develop targeted drugs for cancer metastasis inhibition. [ABSTRACT FROM AUTHOR]

Published

2022

37. Solvent-free strategies for developing latent fingermarks on paper: a review.

Author

Clarke, Kristen T., Cresswell, Sarah L., and Gee, William J.

Subjects

CRIME laboratories, FORENSIC chemistry, HUMAN fingerprints, SUPPLY chains, ENVIRONMENTAL forensics

Abstract

With growing environmental concern and supply chain uncertainty, now is a fitting time to re-evaluate solvent-free methodologies in forensic chemistry processes. Here, this paper reviews solvent-free approaches for fingermark visualisation, including chemical fuming and vapour phase treatments, dry-transfer treatments, application of heat, and thermal paper specific treatments. After providing historical context, three objectives have been emphasised: identify feasible scenarios for implementing solvent-free methods; showcase the effectiveness of solvent-free methods relative to their nearest solution-based equivalent; and estimate the technological readiness level of each method discussed. Having reviewed the literature, dry-transfer methods of developing latent fingermarks on paper were found to be the most promising and feasible solvent-free approaches for near-term implementation. Such methods make use of standard materials and equipment commonly found in forensic laboratories, are effective at fingermark visualisation, and mitigate most of the pressing issues pertaining to environmental concern and solvent scarcity. [ABSTRACT FROM AUTHOR]

Published

2023

38. High sensitivity and automatic chemiluminescence detection of glucose and lactate using a spin-disc paper-based device.

Author

Tong, Wenqiang, Shi, Jiaming, Yu, Zhihang, Ran, Bin, Chen, Huaying, and Zhu, Yonggang

Subjects

*CHEMILUMINESCENCE, *LACTATES, *ARTIFICIAL saliva, *LACTATION, *GLUCOSE, *SPIN labels, *SIGNAL detection, *CELL culture, *MONOCARBOXYLATE transporters

Abstract

This paper reports a spin-disc paper-based device with 10 individual detection units containing electromagnetic modules controlling the sample incubation time before chemiluminescence (CL) signal detection. After the sample was added to the top paper chip and incubated with the enzyme, the electromagnet was turned off to allow contact between the top and bottom paper. The H2O2 generated by the sample flowed vertically to the bottom paper and initiated the oxidase of the luminol to generate the CL signal. After one detection the disc was automatically rotated to the next position to repeat the above detection. The advantage of using the device over the lateral flow and the in situ detection was firstly proved using the detection of H2O2 and the glucose/lactate sample with 5 minute incubation. The CL intensity was increased 300 times/1000 times as the glucose/lactate was incubated for 5 minutes compared to the non-incubated samples. Afterward, the device was employed to separately detect glucose and lactate diluted in PBS, artificial sweat, artificial saliva, and fresh cell culture media. Finally, the device was employed to detect the glucose and lactate in the media collected over the 24 hour culture of PC3 cells. The uptake and production rates of glucose and lactate were correspondingly determined as 0.328 ± 0.015 pmol h−1 per cell and 1.254 ± 0.053 pmol h−1 per cell, respectively. The reported device has wide application potential due to its capabilities in automatic detection of multiple samples with very high sensitivity and small sample volume (down to 0.5 μL). [ABSTRACT FROM AUTHOR]

Published

2024

39. All-in-one detection of breast cancer-derived exosomal miRNA on a pen-based paper chip.

Author

Guo, Song, Xie, Han, Zhao, Xudong, He, Honghao, Feng, Xiaojun, Li, Yiwei, Liu, Bi-Feng, and Chen, Peng

Subjects

*EXOSOMES, *MICRORNA, *POINT-of-care testing, *EARLY detection of cancer, *CELL communication, *HAIRPIN (Genetics)

Abstract

Exosomal microRNAs (miRNAs) play a pivotal role in intercellular communication, regulating gene expression in target cells, and hold significant promise as cancer biomarkers for early detection and screening. However, achieving precise and viable detection of exosomal miRNAs remains a challenge. This paper proposes an all-in-one detection strategy for breast cancer-derived exosomal miRNA-21 on a pen-based paper chip (PPC). The PPC is constructed using a modified automatic pen and lateral flow assay (LFA), which results in a cost-effective fabrication process. The user only needs to add the sample and trigger the top of the self-contained PPC after a period of time to complete the entire detection process. To enhance the sensitivity of exosomal miRNA testing, an enzyme-free catalyzed hairpin assembly (CHA) is further introduced, enabling highly sensitive detection of miRNA-21 with a limit of detection (LOD) of 25 fmol. Additionally, the detection of miRNAs in differentially-expressed cells and clinical samples has also been successfully achieved with high specificity. Overall, the proposed PPC provides an effective tool for detecting early cancer, monitoring diseases, and establishing point of care testing (POCT). [ABSTRACT FROM AUTHOR]

Published

2024

40. Multifunctional droplet handling on surface-charge-graphic-decorated porous papers.

Author

Wu, Jiayao, Fang, Duokui, Zhou, Yifan, Gao, Ge, Zeng, Ji, Zeng, Yubin, and Zheng, Huai

Subjects

*ELECTRIC potential, *SURFACE charges, *HYDROPHOBIC surfaces, *POTENTIAL well, *MICROFLUIDICS

Abstract

Developing a fluidic platform that combines high-throughput with reconfigurability is essential for a wide range of cutting-edge applications, but achieving both capabilities simultaneously remains a significant challenge. Herein, we propose a novel and unique method for droplet manipulation via drawing surface charge graphics on electrode-free papers in a contactless way. We find that opposite charge graphics can be written and retained on the surface layer of porous insulating paper by a controlled charge depositing method. The retained charge graphics result in high-resolution patterning of electrostatic potential wells (EPWs) on the hydrophobic porous surface, allowing for digital and high-throughput droplet handling. Since the charge graphics can be written/projected dynamically and simultaneously in large areas, allowing for on-demand and real-time reconfiguration of EPWs, we are able to develop a charge-graphic fluidic platform with both high reconfigurability and high throughput. The advantages and application potential of the platform have been demonstrated in chemical detection and dynamically controllable fluidic networks. [ABSTRACT FROM AUTHOR]

Published

2024

41. An electrochemical molecularly imprinted microfluidic paper-based chip for detection of inflammatory biomarkers IL-6 and PCT.

Author

Wenpeng Li, Jiawen Xiang, Jinglong Han, Mingsan Man, Lingxin Chen, and Bowei Li

Subjects

*IMPRINTED polymers, *INTERLEUKIN-6, *HOSPITAL utilization, *BIOMARKERS, *DETECTION limit, *ELECTROCHEMILUMINESCENCE

Abstract

Based on surface biomolecular imprinting technology, a rotary microfluidic electrochemical paper-based chip (MIP-ePADs) was proposed for sensitive and selective detection of human interleukin 6 (IL-6) and procalcitonin (PCT). Compared with the traditional method, the sample can be added directly on the MIP-ePAD by rotating the working electrode, which avoids the loss of the liquid to be tested and greatly simplifies the process of electropolymerization imprinting and template elution. Our experimental results show that linear concentration ranges of IL-6 and PCT in the electrochemical molecularly imprinted microfluidic paper-based chip ranged from 0.01 to 5 ng mL−1, with their detection limits being 3.5 and 2.1 pg mL−1, respectively. For the detection of actual serum samples, there was no significant difference between the results of MIP-ePADs and the traditional electrochemiluminescence method used in hospitals, indicating that the paper-based chip can be used for stable and accurate analysis and detection. The chip greatly reduces the cost of clinical trials due to its advantages of easy preparation and low cost. The chip can be used for the analysis of non-antibody inflammation markers and can be widely used in home and hospital treatment detection. This method will not only play an important role in rapid detection, but also provide new ideas for the improvement of rapid detection technology. [ABSTRACT FROM AUTHOR]

Published

2023

42. A novel ratiometric design of microfluidic paper-based analytical device for the simultaneous detection of Cu2+ and Fe3+ in drinking water using a fluorescent MOF@tetracycline nanocomposite.

Author

Al-Jaf, Sabah H., Mohammed Ameen, Sameera Sh., and Omer, Khalid M.

Subjects

*WATER use, *POLLUTANTS, *NANOCOMPOSITE materials, *WATER quality, *WATER sampling

Abstract

The regular and on-site monitoring of ions in drinking water is essential for safeguarding public health, ensuring high water quality, and preserving the ecological balance of aquatic ecosystems. Thus, developing a portable analytical device for the rapid, cost-effective, and visual on-site detection of multiple environmental pollutants is notably significant. In the present work, a novel ratiometric microfluidic paperbased analytical device (µPAD) was designed and developed for the simultaneous detection of Fe3+ and Cu2+ ions in water samples taking advantages from built-in masking zone. The µPAD was functionalized with a greenish-yellow fluorescent Zn-based metal-organic framework@tetracycline (FMOF-5@TC) nanocomposite, and the ratiometric design was based on the change in emission color from greenish yellow (FMOF-5@TC) to blue (FMOF-5). The µPAD consisted of one sample zone linked to two detection zones via two channels: the first channel was for the detection of both ions, while the second was intended for detecting only Cu2+ ions and comprised a built-in masking zone to remove Fe3+ ions prior to reaching the detection zone. The corresponding color changes were recorded with the aid of a smartphone and RGB calculations. The linear ranges were 0.1-80 µM for Cu2+ and 0.2-160 µM for Fe3+, with limits of detection of 0.027 and 0.019 µM, respectively. The simple µPAD design enabled the simultaneous detection of Cu2+ and Fe3+ ions in drinking water samples with excellent accuracy and precision, with spike recoveries of 81.28-96.36% and 83.01-102.33% for Cu2+ and Fe3+, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

43. Label free electrochemical detection of stress hormone cortisol using sulphur doped graphitic carbon nitride on carbon fiber paper electrode.

Author

Cherian, Anila Rose, P., Keerthana, Bhat, Vinay S., Sirimahachai, Uraiwan, Varghese, Anitha, and Hegde, Gurumurthy

Subjects

*CARBON paper, *DOPING agents (Chemistry), *CARBON fibers, *HYDROCORTISONE, *SULFUR, *NITRIDES, *SCHIFF bases

Abstract

Sulphur doped graphitic carbon nitride (SGCN) was effectively prepared and comprehensively described. A straightforward synthetic process based on thermal condensation was reported for the synthesis of SGCN using thiourea as a precursor. Cyclic voltammetry (CV) and differential pulse voltammetry were used to evaluate the electrochemical performance of cortisol. SGCN sheets were used to boost the electro-catalytic activity, exhibiting very exceptional electrochemical behaviour towards cortisol. As a result, we obtained a broad linear response range of 0.1–100 μM, as well as a comparatively low detection limit (15.8 × 10−8 M). Furthermore, the fabricated SGCN/CFP electrode shows excellent selectivity in the presence of a large number of possible interfering species. SGCN comprises (C with N and S) heteroatoms, which most likely would have led to a better current response towards cortisol detection. Furthermore, the structural defects that generate additional active sites on the surface of SGCN may enhance the quick electron transfer that occurs during the oxidation of cortisol. [ABSTRACT FROM AUTHOR]

Published

2022

44. Simultaneous quantitation of urinary albumin and creatinine for rapid clinical albuminuria diagnostics using high-throughput paper spray mass spectrometry.

Author

Pereira, Igor, Robinson, Jason L., and Gill, Chris G.

Subjects

*MASS spectrometry, *ALBUMINURIA, *CREATININE, *KIDNEY physiology, *ALBUMINS, *URINE, *OCHRATOXINS

Abstract

Albuminuria is a clinical condition associated with poor kidney function, diagnosed by determining the ratio of albumin to creatinine concentrations in patient urine samples. We present a high-throughput paper spray mass spectrometry (PS-MS) method for simultaneous quantitation of urinary albumin and creatinine for potential diagnosis of albuminuria. Minimal (urine dilution) or no sample preparation is required. The analytical performance of the method was evaluated, achieving linear calibration curves (R2 > 0.99) with little inter-day variability in the slope (N = 5 days), exhibiting coefficient of variation (CV) of 8% and 3% for albumin and creatinine, respectively. LOD and LOQ for albumin were 2.1 and 7.0 mg L−1, and for creatinine were 0.01 and 0.03 mmol L−1, respectively. Intra- and inter-day (N = 5) precisions (%CV) and accuracies (%bias) were <10% and ±11%, respectively, for both analytes. The method was applied to determine albumin-to-creatinine ratios in anonymous human patient urine samples (N = 56), and a correlation of R2 = 0.9744 was achieved between the PS-MS results and validated clinical method results. This work demonstrates the utility of PS-MS to simultaneously quantify a large (albumin) and a small (creatinine) molecule directly in patient urine samples, and its potential as a tool for clinical albuminuria diagnostics. [ABSTRACT FROM AUTHOR]

Published

2024

45. Tailoring cellulose paper via electroless CuSnB deposition for selective electrochemical detection of dopamine.

Author

Kafle, Alankar, Gupta, Divyani, Mehta, Daisy, and Nagaiah, Tharamani C.

Subjects

*ELECTROLESS deposition, *CELLULOSE, *DOPAMINE, *ELECTROCHEMICAL sensors, *DEFORMATIONS (Mechanics), *VITAMIN C

Abstract

A novel, biodegradable substrate based, and cost-effective flexible electrochemical sensor was developed for the highly selective and sensitive detection of one of the major neurotransmitters, dopamine, which can be utilised as a disposable electrode for point-of-care diagnostic applications. The active material CuSnB decorated over cellulose paper exhibits good sensitivities of 3.92 μA μM−1 cm−2 with a limit of detection of 0.5 nM. Moreover, the flexible sensor demonstrated superior selectivity towards co-existing metabolites such as ascorbic acid, glucose, and uric acid, in addition to stability at various mechanical deformations. [ABSTRACT FROM AUTHOR]

Published

2024

46. 2023 Outstanding Papers published in the Environmental Science journals of the Royal Society of Chemistry.

Author

Cai, Zongwei, Donahue, Neil, Gagnon, Graham, Jones, Kevin C., Manaia, Célia, Sunderland, Elsie, and Vikesland, Peter J.

Abstract

The document titled "2023 Outstanding Papers published in the Environmental Science journals of the Royal Society of Chemistry" showcases the winners of the Outstanding Paper Awards in environmental science journals. The winners were chosen based on factors like article downloads, Altmetrics, and citations. The document highlights exceptional papers in the field, covering topics such as the removal of PFAS in contaminated soil, the role of sulfuric acid, ammonia, and organics in particle formation over agricultural land, and the association of nanoplastics with human cells. These papers provide valuable insights into environmental concerns and their potential impacts. [Extracted from the article]

Published

2024

47. A simple, quick and non-destructive approach for sampling drugs of abuse in tablets and blotter for qualitative analysis by paper spray mass spectrometry.

Author

Diniz, Mariana C. C., de Moura, Fabiana, Machado, Yuri, Coelho Neto, José, and Piccin, Evandro

Published

2023

48. Surfactant-modified Zn nanosheets on carbon paper for electrochemical CO2 reduction to CO.

Author

Wang, Wenyuan, He, Xuhua, Zhang, Kai, and Yao, Yagang

Subjects

*CARBON paper, *NANOSTRUCTURED materials, *SURFACE diffusion, *AMMONIUM bromide, *PROTONS

Abstract

We report a strategy that tunes the CO2 and proton concentrations near the electrode–electrolyte interface using surfactant modification with various amounts (0.05, 0.8, 1.6, and 3.2 mg) of hexadecyl trimethyl ammonium bromide (CTAB). The positively charged group of CTAB favors CO2 surface diffusion and inhibits excessive proton accumulation on Zn nanosheets on carbon paper. A CO faradaic efficiency of 95.6% and a total ampere density of −13.1 mA cm−2 were obtained over the optimal CTAB-modified Zn electrode at −1.1 V with stability over 12 hours. [ABSTRACT FROM AUTHOR]

Published

2022

49. Capacitive platform for real-time wireless monitoring of liquid wicking in a paper strip.

Author

Ruiz-García, Isidoro, Escobedo, Pablo, Ramos-Lorente, Celia E., Erenas, Miguel M., Capitán-Vallvey, Luis F., Carvajal, Miguel A., Palma, Alberto J., and López-Ruiz, Nuria

Subjects

CAPILLARY flow, MICROFLUIDICS, FLOW simulations, CAPACITANCE measurement, COMPUTER monitors, MICROFLUIDIC devices, POROUS materials

Abstract

Understanding the phenomenon of liquid wicking in porous media is crucial for various applications, including the transportation of fluids in soils, the absorption of liquids in textiles and paper, and the development of new and efficient microfluidic paper-based analytical devices (μPADs). Hence, accurate and real-time monitoring of the liquid wicking process is essential to enable precise flow transport and control in microfluidic devices, thus enhancing their performance and usefulness. However, most existing flow monitoring strategies require external instrumentation, are generally bulky and unsuitable for portable systems. In this work, we present a portable, compact, and cost-effective electronic platform for real-time and wireless flow monitoring of liquid wicking in paper strips. The developed microcontroller-based system enables flow and flow rate monitoring based on the capacitance measurement of a pair of electrodes patterned beneath the paper strip along the liquid path, with an accuracy of 4 fF and a full-scale range of 8 pF. Additionally to the wired transmission of the monitored data to a computer via USB, the liquid wicking process can be followed in real-time via Bluetooth using a custom-developed smartphone application. The performance of the capacitive monitoring platform was evaluated for different aqueous solutions (purified water and 1 M NaCl solution), various paper strip geometries, and several custom-made chemical valves for flow retention (chitosan-, wax-, and sucrose-based barriers). The experimental validation delivered a full-scale relative error of 0.25%, resulting in an absolute capacitance error of ±10 fF. In terms of reproducibility, the maximum uncertainty was below 10 nl s−1 for flow rate determination in this study. Furthermore, the experimental data was compared and validated with numerical analysis through electrical and flow dynamics simulations in porous media, providing crucial information on the wicking process, its physical parameters, and liquid flow dynamics. [ABSTRACT FROM AUTHOR]

Published

2023

50. Broadband paper-photodetectors for visible & UV light detection.

Author

Kim, Wonjae, Choi, Minho, and Choi, Jaewu

Abstract

Hygroscopic cellulose office papers possess the ability to absorb water or moisture, resulting in enhanced electrical conductivity. This study demonstrates the utilization of humidified office papers as versatile, disposable, and renewable broadband photodetectors for diverse applications. The developed paper-photodetectors (P-PDs) allow simultaneous detection of broadband light and temperature. By effectively controlling and managing the water content, sealed office papers offer reliable detection of both visible and UV light, along with temperature measurements. Notably, they are characterized by flexibility, scalability, eco-friendliness, and cost-effectiveness. [ABSTRACT FROM AUTHOR]

Published

2023