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Journal articles on the topic 'Bio-magnetic separation'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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1

Li, Wensong, Liangrong Yang, Tingting Dong, et al. "Gas-assisted low-field magnetic separation for large scale continuous magnetic bio-separation process." AIChE Journal 65, no. 1 (2018): 175–83. http://dx.doi.org/10.1002/aic.16389.

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2

Kale, Anup, Sonia Kale, Prasad Yadav, et al. "Magnetite/CdTe magnetic–fluorescent composite nanosystem for magnetic separation and bio-imaging." Nanotechnology 22, no. 22 (2011): 225101. http://dx.doi.org/10.1088/0957-4484/22/22/225101.

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3

Bahaj, A. S., J. H. P. Watson, and D. C. Ellwood. "Determination of magnetic susceptibility of loaded micro-organisms in bio-magnetic separation." IEEE Transactions on Magnetics 25, no. 5 (1989): 3809–11. http://dx.doi.org/10.1109/20.42440.

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4

Ramadan, Qasem, Victor Samper, Daniel Poenar, and Chen Yu. "On-chip micro-electromagnets for magnetic-based bio-molecules separation." Journal of Magnetism and Magnetic Materials 281, no. 2-3 (2004): 150–72. http://dx.doi.org/10.1016/j.jmmm.2004.04.100.

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5

Zhang, Liang, Lili Li, and Zhi-Min Dang. "Bio-inspired durable, superhydrophobic magnetic particles for oil/water separation." Journal of Colloid and Interface Science 463 (February 2016): 266–71. http://dx.doi.org/10.1016/j.jcis.2015.10.065.

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6

Bilgili, Hatice, Teymuraz Abbasov, and Yusuf Baran. "MEASUREMENT AND MODELLING OF GRADIENT MAGNETIC FIELDS FOR BIO-CHEMICAL SEPARATION PROCESSES." International Journal of Engineering Science Technologies 5, no. 2 (2021): 69–80. http://dx.doi.org/10.29121/ijoest.v5.i2.2021.174.

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Separation processes are widely used in chemical and biotechnical processes. Especially biomagnetic separation is an important issue among effective separation processes to separate the magnetic micron and submicron particles. It is necessary to establish and determine a high magnetic field or field gradient in the separation cell. However, it is not easy to determine the magnetic field gradient in the working region for different separation in practice. The reason for these difficulties is that the magnetic cells used in biochemical separation have different geometries and there are no simple
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Song, Hui Ping, Huai Gang Cheng, Xin Gang Li, and Fang Qin Cheng. "Kinetics and Modelling of Bio-Magnetic Separation of Au(III) from Wastewater." Advanced Materials Research 233-235 (May 2011): 1031–35. http://dx.doi.org/10.4028/www.scientific.net/amr.233-235.1031.

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This study used nickel wire to trap the magnetotactic bacteria which had adsorbed Au(III), and a magnetic separation model was built to describe this process. Kinetics of the movement of metal loaded bacteria in the whole magnetic field was investigated both experimentally and theoretically. It was found that the magnetic intensity had evident effect on the separation efficiency, but little effect on the separation rate. The period of trapping bacteria to capacity for the nickel wire was proved about 100 minutes. It was found that the trapped bacteria were deposited in multi-layers, showing th
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8

Banert, T., and U. A. Peuker. "SYNTHESIS OF MAGNETIC BEADS FOR BIO-SEPARATION USING THE SOLUTION METHOD." Chemical Engineering Communications 194, no. 6 (2007): 707–19. http://dx.doi.org/10.1080/00986440600992750.

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9

Kyeong, San, Cheolhwan Jeong, Homan Kang, et al. "Double-Layer Magnetic Nanoparticle-Embedded Silica Particles for Efficient Bio-Separation." PLOS ONE 10, no. 11 (2015): e0143727. http://dx.doi.org/10.1371/journal.pone.0143727.

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10

Sun, Yanhua, Jian Chen, Yuqing Li, et al. "Bio-inspired magnetic molecularly imprinted polymers based on Pickering emulsions for selective protein recognition." New Journal of Chemistry 40, no. 10 (2016): 8745–52. http://dx.doi.org/10.1039/c6nj01846g.

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11

Shimazu, R., M. Tada, N. Matsushita, H. Handa, and M. Abe. "Expediting magnetic separation using Ni Wires,Applicable for robot-manipulated bio-screening systems." IEEE Transactions on Magnetics 41, no. 10 (2005): 4143–45. http://dx.doi.org/10.1109/tmag.2005.855342.

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12

Yun, S. H., C. W. Lee, Jai Sung Lee, C. W. Seo, and E. K. Lee. "Fabrication of SiO2-Coated Magnetic Nanoparticles for Applications to Protein Separation and Purification." Materials Science Forum 449-452 (March 2004): 1033–36. http://dx.doi.org/10.4028/www.scientific.net/msf.449-452.1033.

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Coating of -Fe2O3 nanoparticles with SiO2 layer by wet chemical synthesis and its applications to protein separation and purification were investigated. The average particle size of -Fe2O3 core was 20 nm and SiO2 layer thickness was 5 nm. The band of OH- radicals on SiO2 layer was detected between 3600 and 3200 cm-1 in wave numbers, which showed that the surface property of coated nanoparticles was similar to that of conventional fumed silica. Finally, the feasibility of -Fe2O3/SiO2 nanoparticles for magnetic separation media in various bio processes was discussed in terms of structural and fu
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13

Wan, Xinyi, Xiao Wang, Ting Wan, Youguo Yan, Zhizhen Ye, and Xinsheng Peng. "Bio-inspired ferromagnetic graphene oxide/magnetic ionic liquid membrane for highly efficient CO2 separation." Applied Materials Today 24 (September 2021): 101164. http://dx.doi.org/10.1016/j.apmt.2021.101164.

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14

Sahin, Ferat, Eylem Turan, Hayrettin Tumturk, and Gokhan Demirel. "Core–shell magnetic nanoparticles: a comparative study based on silica and polydopamine coating for magnetic bio-separation platforms." Analyst 137, no. 23 (2012): 5654. http://dx.doi.org/10.1039/c2an36211b.

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15

Bahaj, A. S., P. A. B. James, and F. D. Moeschler. "Wastewater treatment by bio-magnetic separation: a comparison of iron oxide and iron sulphide biomass recovery." Water Science and Technology 38, no. 6 (1998): 311–17. http://dx.doi.org/10.2166/wst.1998.0266.

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Many microorganisms have an affinity to accumulate metal ions onto their surfaces, which results in metal loading of the biomass. Microbial biomineralisation of iron produces a biomass, which is often highly magnetic and can be separated from water systems by the application of a magnetic field. This paper reports on the magnetic separation of biomass containing microbial iron oxide (Fe3O4, present within magnetotactic bacteria) and iron sulphide (Fe1-XS, precipitated extracellularly by sulphate reducing bacteria) in a single wire cell. Since such bacteria can be separated magnetically, their
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16

Park, Hye-Young, Mark J. Schadt, Wang, et al. "Fabrication of Magnetic Core@Shell Fe Oxide@Au Nanoparticles for Interfacial Bioactivity and Bio-separation." Langmuir 23, no. 17 (2007): 9050–56. http://dx.doi.org/10.1021/la701305f.

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17

Kucmanová, Alexandra, and Kristína Gerulová. "Microalgae Harvesting: A Review." Research Papers Faculty of Materials Science and Technology Slovak University of Technology 27, no. 44 (2019): 129–43. http://dx.doi.org/10.2478/rput-2019-0014.

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Abstract Microalgae are photosynthetic autotrophic microscopic organisms growing in a range of aquatic and terrestrial habitats. They produce a huge complex of compounds in their surroundings which are of important use to humans. Their commercial use lies in human nutrition, animal and aquatic feed, in cosmetics products, natural pigments, pharmaceutical industry, bio-fertilizer for extracting high-value molecules, stable isotope biochemicals, and for the synthesis of antimicrobial, antiviral, antibacterial and anticancer drugs. Therefore, it is necessary to develop a simple, effective and eco
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18

Modak, Nipu, Amitava Datta, and Ranjan Ganguly. "Immunomagnetic Separation and Transport of Magnetic Beads in Microfluidic Field Flow Fractionation Devices for Bio-MEMS Application." Procedia Engineering 127 (2015): 1243–49. http://dx.doi.org/10.1016/j.proeng.2015.11.477.

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19

Elingarami, Sauli, and Xin Zeng. "A Short Review on Current Use of Magnetic Nanoparticles for Bio-Separation, Sequencing, Diagnosis and Drug Delivery." Advanced Science Letters 4, no. 11 (2011): 3295–300. http://dx.doi.org/10.1166/asl.2011.1884.

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20

Gao, Zhaojian, Shuai Zhou, Yingmei Zhou, et al. "Bio-inspired magnetic superhydrophobic PU-PDA-Fe3O4-Ag for effective oil-water separation and its antibacterial activity." Colloids and Surfaces A: Physicochemical and Engineering Aspects 613 (March 2021): 126122. http://dx.doi.org/10.1016/j.colsurfa.2020.126122.

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21

Chapa Gonzalez, Christian, Carlos A. Martínez Pérez, Alejandro Martínez Martínez, et al. "Development of Antibody-Coated Magnetite Nanoparticles for Biomarker Immobilization." Journal of Nanomaterials 2014 (2014): 1–7. http://dx.doi.org/10.1155/2014/978284.

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Magnetic nanoparticles (MNPs) have great potential in biomedical applications because of their magnetic response offers the possibility to direct them to specific areas and target biological entities. Magnetic separation of biomolecules is one of the most important applications of MNPs because their versatility in detecting cancer biomarkers. However, the effectiveness of this method depends on many factors, including the type of functionalization onto MNPs. Therefore, in this study, magnetite nanoparticles have been developed in order to separate the 5′-nucleotidase enzyme (5eNT). The 5eNT is
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22

SHAMIM, N., Z. PENG, L. HONG, K. HIDAJAT, and M. S. UDDIN. "SYNTHESIS AND CHARACTERIZATION OF DOUBLE SURFACTANT COATED MAGNETIC PARTICLES." International Journal of Nanoscience 04, no. 02 (2005): 187–95. http://dx.doi.org/10.1142/s0219581x05003061.

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The unique and novel physicochemical features of the nanosized magnetic particles, which are attained due to their size and shape morphology, have aggregated an interest in the fields of nanoscience and nanotechnology. In this work, magnetic particles coated with double-layer surfactants were prepared and characterized. The magnetic particles ( Fe3O4 ) were synthesized by chemical precipitation of Fe2+ and Fe 3+ salts (1:2 ratio) with ammonium hydroxide ( NH4OH ) under inert atmosphere at 80°C followed by resuspension of the nanoparticles in water using thiodiglycolic acid. This procedure prod
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23

Wang, Yufei, Yong Ma, Jingjing Zhou, Kehe Su, Baoliang Zhang, and Qiuyu Zhang. "Thermo‐sensitive surface molecularly imprinted magnetic microspheres based on bio‐macromolecules and their specific recognition of bovine serum albumin." Journal of Separation Science 43, no. 5 (2020): 996–1002. http://dx.doi.org/10.1002/jssc.201901024.

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24

Meyer, Donna M., Adam Tillinghast, Nevan C. Hanumara, and Ana Franco. "Bio-Ferrography to Capture and Separate Polyethylene Wear Debris from Hip Simulator Fluid and Compared with Conventional Filter Method." Journal of Tribology 128, no. 2 (2005): 436–41. http://dx.doi.org/10.1115/1.2162554.

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This paper describes an experimental method, bio-ferrography, to separate ultrahigh molecular weight polyethylene (UHMWPE) wear debris, generated in hip simulators, from bovine serum lubricating fluid. A total of 54 experiments were performed in which an enzyme digestion “cocktail” was developed and used to clean the bovine serum samples of extraneous sugars, proteins, and lipids that interfere with the UHMWPE particle separation. Erbium chloride was used to marginally magnetize particles in the fluid prior to passing through the ferrographic device. The particles were captured and separated f
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25

Kumar, Abiram Karanam Rathan, Kongkona Saikia, Gerard Neeraj, Hubert Cabana, and Vaidyanathan Vinoth Kumar. "Remediation of bio-refinery wastewater containing organic and inorganic toxic pollutants by adsorption onto chitosan-based magnetic nanosorbent." Water Quality Research Journal 55, no. 1 (2019): 36–51. http://dx.doi.org/10.2166/wqrj.2019.003.

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Abstract The novelty of the current study deals with the application of magnetic nanosorbent, chitosan-coated magnetic nanoparticles (cMNPs), to be utilized for the management of lignocellulosic bio-refinery wastewater (LBW) containing three heavy metals and 26 phenolic compounds. The magnetic property of the adsorbent, confirmed by elemental and vibrating sample magnetometer analysis (saturation magnetization of 26.96 emu/g), allows easy separation of the particles in the presence of an external magnetic field. At pH 6.0, with optimized adsorbent dosage of 2.0 g/L and 90 min contact time, max
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26

Li, Yi-Kun, Wei-tao Li, Xun Liu, Ting Yang, Ming-Li Chen, and Jian-Hua Wang. "Functionalized magnetic composites based on the aptamer serve as novel bio-adsorbent for the separation and preconcentration of trace lead." Talanta 203 (October 2019): 210–19. http://dx.doi.org/10.1016/j.talanta.2019.05.075.

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27

Qian, Yinyin, Kaijia Xu, Rui Ni та Yuzhi Wang. "Fabrication of a novel bio-sorbent based on magnetic β-cyclodextrin composites modified by polymeric deep eutectic solvent for the efficient separation of Ovalbumin". Separation and Purification Technology 264 (червень 2021): 118422. http://dx.doi.org/10.1016/j.seppur.2021.118422.

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28

Ali, Zafar, Tian Li, Muhammad Khan, Nisar Ali, and Qiuyu Zhang. "Immobilization of Lipase on Iron Oxide Organic/Inorganic Hybrid Particles: A Review Article." REVIEWS ON ADVANCED MATERIALS SCIENCE 53, no. 1 (2018): 106–17. http://dx.doi.org/10.1515/rams-2018-0008.

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Abstract In last few decades the demand of lipase has been dramatically increase due to its useful use in numbers of biochemical industries. Varieties of natural and synthetic carriers and methodologies have been used to improve lipase activities by the process of immobilization in order to enhance its activities in term of its resistance to high temperature, pH and to increase its reusibity and storage capacity. Due to the expensive nature the recycling of the lipase has been the target of the researchers to decrease its cost in the industrial process. Magnetic iron oxide organic/inorganic hy
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29

Hassanzadeh, Marjan, and Mousa Ghaemy. "Preparation of bio-based keratin-derived magnetic molecularly imprinted polymer nanoparticles for the facile and selective separation of bisphenol A from water." Journal of Separation Science 41, no. 10 (2018): 2296–304. http://dx.doi.org/10.1002/jssc.201701452.

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30

Syed Yaacob, Syed Fariq Fathullah, Muhammad Afzal Kamboh, Wan Aini Wan Ibrahim та Sharifah Mohamad. "New sporopollenin-based β-cyclodextrin functionalized magnetic hybrid adsorbent for magnetic solid-phase extraction of nonsteroidal anti-inflammatory drugs from water samples". Royal Society Open Science 5, № 7 (2018): 171311. http://dx.doi.org/10.1098/rsos.171311.

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A magnetic solid-phase extraction (MSPE) procedure on the newly synthesized magnetic β-cyclodextrin functionalized with toluene diisocyanate (TDI) as a linker and further modified with bio-polymeric spores of sporopollenin (MSp-TDI-βCD), was developed for the extraction of nonsteroidal anti-inflammatory drugs (NSAIDs), namely, indoprofen (INP), ketoprofen (KTP), ibuprofen (IBP) and fenoprofen (FNP) from water samples prior to their HPLC-DAD determination. The newly synthesized MSp-TDI-βCD was comprehensibly characterized using FT-IR, XRD, SEM-EDX, BET and VSM analyses. The separation of select
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31

Jasiukaitytė-Grojzdek, Edita, Filipa A. Vicente, Miha Grilc, and Blaž Likozar. "Ambient-Pressured Acid-Catalysed Ethylene Glycol Organosolv Process: Liquefaction Structure–Activity Relationships from Model Cellulose–Lignin Mixtures to Lignocellulosic Wood Biomass." Polymers 13, no. 12 (2021): 1988. http://dx.doi.org/10.3390/polym13121988.

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Raising the awareness of carbon dioxide emissions, climate global warming and fossil fuel depletion has renewed the transition towards a circular economy approach, starting by addressing active bio-economic precepts that all portion amounts of wood are valorised as products. This is accomplished by minimizing residues formed (preferably no waste materials), maximizing reaction productivity yields, and optimising catalysed chemical by-products. Within framework structure determination, the present work aims at drawing a parallel between the characterisation of cellulose–lignin mixture (derived
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32

Wentworth, S., J. A. McBride, and W. H. Walker. "Chemiluminescence receptor assay for measuring vitamin B12 in serum evaluated." Clinical Chemistry 40, no. 4 (1994): 537–40. http://dx.doi.org/10.1093/clinchem/40.4.537.

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Abstract We evaluated a chemiluminescence receptor assay for vitamin B12 in serum (Magic Lite; Ciba Corning Diagnostics), in which an acridinium ester label is used with magnetic particle separation. Within- and between-batch precisions were generally acceptable, except at low analyte concentrations. The reference range determined from 104 elective preoperative patients was 120-610 pmol/L, compared with 150-590 pmol/L for our in-house radioligand-binding assay. Magic Lite discriminated between normal and abnormal results as effectively as the in-house method when local reference ranges were ap
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33

Johnson, Kameka L., Desen Zheng, Supaporn Kaewnum, Cheryl Lynn Reid, and Thomas Burr. "Development of a Magnetic Capture Hybridization Real-Time PCR Assay for Detection of Tumorigenic Agrobacterium vitis in Grapevines." Phytopathology® 103, no. 6 (2013): 633–40. http://dx.doi.org/10.1094/phyto-10-12-0267-r.

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Agrobacterium vitis, the causal agent of grape crown gall, can have severe economic effects on grape production. The bacterium survives systemically in vines and, therefore, is disseminated in propagation material. We developed an assay for use in indexing programs that is efficient and sensitive for detecting A. vitis in grape tissue. Initially, real-time polymerase chain reaction (PCR) primers specific for diverse tumorigenic strains of A. vitis were developed using the virD2 gene sequence. To overcome the effects of PCR inhibitors present in plant tissue, DNA extraction methods that include
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34

Schwaminger, S. P., S. A. Blank-Shim, I. Scheifele, P. Fraga-García, and S. Berensmeier. "Peptide binding to metal oxide nanoparticles." Faraday Discussions 204 (2017): 233–50. http://dx.doi.org/10.1039/c7fd00105c.

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Magnetic metal oxide nanoparticles demonstrate great applicability in several fields such as biotechnology, medicine and catalysis. A stable, magnetic and low-cost material, nanoscale magnetite, is an interesting adsorbent for protein purification. Downstream processing can account for up to 80% of the total production costs in biotechnological production. As such, the development of new innovative separation methods can be regarded as highly profitable. While short peptide sequences can be used as specific affinity tags for functionalised adsorber surfaces, they need expensive affinity ligand
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35

Saha, Arijit, Soumen Payra, Archana Asatkar, Ashok Raj Patel, and Subhash Banerjee. "[AcMIM]FeCl4: A Magnetically Separable Organocatalyst for the Clean Synthesis of Tetrahydrobenzo[b]pyran Derivatives." Current Organocatalysis 6, no. 2 (2019): 177–82. http://dx.doi.org/10.2174/2213337206666181126114820.

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Background: Recently, organic synthesis using ionic liquids (ILs) via green approach has attracted considerable attention to address the problem associated with environmental pollution. Magnetization of ILs provides added advantages of separation by external magnet. This can be accomplished by incorporation of high-spin iron(III) in the form of tetrachloro or tetrabromoferrate( III). Thus, synthesis of novel magnetically separable ILs for organic transformations is highly desirable. Results: [AcMIm]FeCl4 ionic liquid showed excellent catalytic activity in the one pot threecomponent synthesis t
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36

Yadav, Virendra Kumar, and Madhusudan Hiraman Fulekar. "Advances in Methods for Recovery of Ferrous, Alumina, and Silica Nanoparticles from Fly Ash Waste." Ceramics 3, no. 3 (2020): 384–420. http://dx.doi.org/10.3390/ceramics3030034.

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Fly ash or coal fly ash causes major global pollution in the form of solid waste and is classified as a “hazardous waste”, which is a by-product of thermal power plants produced during electricity production. Si, Al, Fe Ca, and Mg alone form more than 85% of the chemical compounds and glasses of most fly ashes. Fly ash has a chemical composition of 70–90%, as well as glasses of ferrous, alumina, silica, and CaO. Therefore, fly ash could act as a reliable and alternative source for ferrous, alumina, and silica. The ferrous fractions can be recovered by a simple magnetic separation method, while
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37

Li, Xinxin, Chao Zhao, Yi Liu, et al. "Fluorescence signal amplification assay for the detection of B. melitensis 16M, based on peptide-mediated magnetic separation technology and a AuNP-mediated bio-barcode assembled by quantum dot technology." Analyst 144, no. 8 (2019): 2704–15. http://dx.doi.org/10.1039/c9an00028c.

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38

Sheldon, Roger A. "Engineering a more sustainable world through catalysis and green chemistry." Journal of The Royal Society Interface 13, no. 116 (2016): 20160087. http://dx.doi.org/10.1098/rsif.2016.0087.

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The grand challenge facing the chemical and allied industries in the twenty-first century is the transition to greener, more sustainable manufacturing processes that efficiently use raw materials, eliminate waste and avoid the use of toxic and hazardous materials. It requires a paradigm shift from traditional concepts of process efficiency, focusing on chemical yield, to one that assigns economic value to replacing fossil resources with renewable raw materials, eliminating waste and avoiding the use of toxic and/or hazardous substances. The need for a greening of chemicals manufacture is readi
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39

Mirahmadi-Zare, Seyede Zohreh, Fatemeh Aboutalebi, Maryam Allafchian, Leila Pirjamali, and Mohammad-Hossein Nasr-Esfahani. "Layer by layer coating of NH 2 -silicate/polycarboxylic acid polymer saturated by Ni 2+ onto the super magnetic NiFe 2 O 4 nanoparticles for sensitive and bio-valuable separation of His-tagged proteins." Protein Expression and Purification 143 (March 2018): 71–76. http://dx.doi.org/10.1016/j.pep.2017.10.015.

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40

Walcott, Ron R. "Detection of Seedborne Pathogens." HortTechnology 13, no. 1 (2003): 40–47. http://dx.doi.org/10.21273/horttech.13.1.0040.

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Plant pathogens present a serious threat to seedling establishment and the potential for plant disease epidemics under greenhouse conditions is great. Hence, pathogen exclusion by detection and elimination of infested seedlots remains a requisite tactic for seedling production and disease management. Unfortunately, the numbers of contaminated seed within a lot may be low and infested seed may be asymptomatic making their detection difficult. To address these issues seed detection assays have been developed, but many of them have shortcomings that reduce their effectiveness. Examples of frequen
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41

Masiuk, D. М., V. S. Nedzvetsky, A. V. Kokariev, O. V. Danchuk, T. O. Vasilenko, and O. M. Yefimova. "Evaluation of commercial methods to separate nucleic acids from intestinal tissues of pigs for diagnosis of porcine epidemic diarrhea." Regulatory Mechanisms in Biosystems 10, no. 4 (2019): 477–83. http://dx.doi.org/10.15421/021970.

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The article presents the results of evaluating commercial methods for extracting nucleic acids from pig intestinal tissues for the diagnosis of PED. The study was based on samples of small intestine tissues and faeces from 3–5 day old pigs which died from PED. Nucleic acid extraction was performed using commercial kits with different nucleic acid separation strategies based on: silicon-sorbent; silicate membrane fixed in a microcentrifuge column and magnetic balls. The studies were conducted in two stages. The first was a comparison of the results of the amplification of the obtained nucleic a
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42

Bagga, K., D. F. Brougham, T. E. Keyes, and D. Brabazon. "Magnetic and noble metal nanocomposites for separation and optical detection of biological species." Physical Chemistry Chemical Physics 17, no. 42 (2015): 27968–80. http://dx.doi.org/10.1039/c5cp01219h.

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Nanoalloys and nanocomposites are widely studied classes of nanomaterials within the context of biological systems. This article presents an overview of methods currently used for nanoalloy and nanocomposite synthesis and characterization, focusing on Au-Ag and FexOy@Au structures as primary components in detection platforms for plasmonic and magnetically enabled plasmonic bio-sensing.
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43

Chang, Zheng, Jing Feng, and Xingwang Zheng. "A highly sensitive fluorescence sensor based on lucigenin/chitosan/SiO 2 composite nanoparticles for microRNA detection using magnetic separation." Luminescence 35, no. 6 (2020): 835–44. http://dx.doi.org/10.1002/bio.3789.

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44

Adelantado, Carlos, Khaled Murtada, Ángel Ríos, and Mohammed Zougagh. "Magnetic multi-walled carbon nanotube poly(styrene-co-divinylbenzene) for propranolol extraction and separation by capillary electrophoresis." Bioanalysis 10, no. 15 (2018): 1193–205. http://dx.doi.org/10.4155/bio-2018-0045.

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45

Puri, Paridhi, Vijay Kumar, Sachin U. Belgamwar, M. Ananthasubramanian, and N. N Sharma. "Microfluidic platform for dielectrophoretic separation of bio-particles using serpentine microelectrodes." Microsystem Technologies 25, no. 7 (2018): 2813–20. http://dx.doi.org/10.1007/s00542-018-4174-x.

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46

Sharma, Astha, E. Senthil Prasad, and Harsh Chaturvedi. "Photon induced separation of bio-nano hybrid complex based on carbon nanotubes and optically active bacteriorhodopsin." Optical Materials Express 6, no. 4 (2016): 986. http://dx.doi.org/10.1364/ome.6.000986.

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Gao, Xin, K. M. Kerry Yu, Kin Y. Tam, and Shik Chi Tsang. "Colloidal stable silica encapsulated nano-magnetic composite as a novel bio-catalyst carrierElectronic Supplementary Information (ESI) available: XRD in Fig. S1; TEM in Fig. S2; SEM in Fig. S3; EDS in Tables; Magnetisation in Fig. S4; Material reusability upon mangetic separation in Fig. S5; Regression in Fig. S6. See http://www.rsc.org/suppdata/cc/b3/b310435d/." Chemical Communications, no. 24 (2003): 2998. http://dx.doi.org/10.1039/b310435d.

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Khoshneviszadeh, Mehdi, Sarah Zargarnezhad, Younes Ghasemi, and Ahmad Gholami. "Evaluation of Surface-modified Superparamagnetic Iron Oxide Nanoparticles to Optimize Bacterial Immobilization for Bio-separation with the Least Inhibitory Effect on Microorganism Activity." Nanoscience & Nanotechnology-Asia 10, no. 2 (2020): 166–74. http://dx.doi.org/10.2174/2210681208666181015120346.

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Background: Magnetic cell immobilization has been introduced as a novel, facile and highly efficient approach for cell separation. A stable attachment between bacterial cell wall with superparamagnetic iron oxide nanoparticles (SPIONs) would enable the microorganisms to be affected by an outer magnetic field. At high concentrations, SPIONs produce reactive oxygen species in cytoplasm, which induce apoptosis or necrosis in microorganisms. Choosing a proper surface coating could cover the defects and increase the efficiency. Methods: In this study, asparagine, APTES, lipo-amino acid and PEG surf
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Piasta, Kene N., and Christopher Miller. "Feel the force: Bio-electricity and the sensing of electric fields." Biochemist 33, no. 6 (2011): 26–29. http://dx.doi.org/10.1042/bio03306026.

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In an issue devoted to sensory phenomena, it may seem odd to include an article on sensing something that we cannot consciously perceive: electric force. Of course, we can sense the dramatic power of a lightning bolt: we see the flash, hear the boom, feel the rumble, and, if we're close enough, smell and taste the ozone produced. Lightning is caused by an enormous electric field that develops under a thundercloud due to the separation of electrical charges between the cloud and the earth. Almost 250 years after Benjamin Franklin's kite-in-the-storm experiment, we still don't fully understand h
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Im, Hogune, Varsha Rao, Kunju Joshi Sridhar, et al. "Transcriptomic Evaluation of CD34+ Marrow Cells from Myelodysplastic Syndrome (MDS) Patients." Blood 124, no. 21 (2014): 1894. http://dx.doi.org/10.1182/blood.v124.21.1894.1894.

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Abstract Background: Prior studies using microarray platforms have shown alterations of gene expression profiles (GEPs) in MDS CD34+ marrow cells related to clinical outcomes (Sridhar et al, Blood 2009, Pellagatti et al, JCO 2013). Given the increased sensitivity and accuracy of high-throughput RNA sequencing (RNA-Seq) (Mortazavi et al, Nat Meth 2008, Soon et al, Mol Syst Bio 2012) for detecting and quantifying mRNA transcripts, we applied this methodology for evaluating differential gene expression between MDS and normal CD34+ marrow cells. Methods:RNA was isolated from magnetic bead affinity
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