Engineering and application of polysaccharides and proteins-based nanobiocatalysts in the recovery of toxic metals, phosphorous, and ammonia from wastewater: A review.
暂无分享,去创建一个
E. Lichtfouse | E. Drăgoi | Fatemeh Karimi | C. Karaman | H. Karimi-Maleh | Neda Irannejad | H. Teymourinia | Jagpreet Singh | F. Ebrahimi | M. Ghalkhani | Hakimeh Teymourinia
[1] A. Islam,et al. Sustainable ligand-modified based composite material for the selective and effective cadmium(II) capturing from wastewater , 2022, Journal of Molecular Liquids.
[2] A. Islam,et al. Assessing sustainable Lutetium(III) ions adsorption and recovery using novel composite hybrid nanomaterials , 2022, Journal of Molecular Structure.
[3] Md. Rabiul Awual,et al. Progress in recent sustainable materials for greenhouse gas (NOx and SOx) emission mitigation , 2022, Progress in Materials Science.
[4] Linxin,et al. Recent advances on carbon-based nanomaterials supported single-atom photo-catalysts for waste water remediation , 2022, Journal of Nanostructure in Chemistry.
[5] A. S. Santos,et al. The Role of the Circular Economy in Road Transport to Mitigate Climate Change and Reduce Resource Depletion , 2022, Sustainability.
[6] M. Nobre,et al. Nickel oxide nanoparticles synthesis using plant extract and evaluation of their antibacterial effects on Streptococcus mutans , 2022, Bioprocess and Biosystems Engineering.
[7] Hafiz Muhammad Zia-ul-haq,et al. Exploring essential factors to improve waste-to-resource recovery: A roadmap towards sustainability , 2022, Journal of Cleaner Production.
[8] Hafiz M.N. Iqbal,et al. Upgrading recalcitrant lignocellulosic biomass hydrolysis by immobilized cellulolytic enzyme–based nanobiocatalytic systems: a review , 2022, Biomass Conversion and Biorefinery.
[9] U. Krishnan,et al. Electrocatalytic reduction of 2,4 dinitrophenol on carbon black-modified glassy carbon electrode and its selective recognition in cold beverages , 2022, Carbon Letters.
[10] M. Shahid,et al. Ternary metal oxide WO3.NiO.ZnO nanoparticles and their composite with CNTs for organic dye photocatalytic degradation , 2022, Ceramics International.
[11] A. Bruyant,et al. Plasmonic Origami : Periodic folding of a gold nano leaf triggers omnidirectional absorption , 2022, Journal of the Optical Society of America B.
[12] P. Show,et al. Nanochemistry approach for the fabrication of Fe and N co-decorated biomass-derived activated carbon frameworks: a promising oxygen reduction reaction electrocatalyst in neutral media , 2022, Journal of Nanostructure in Chemistry.
[13] G. Ibrahim,et al. Synthesis, Characterization, Antibacterial and Antifungal Activities Evaluation of Metal Complexes With Benzaldehyde‐4‐methylthiosemicarbazone Derivatives , 2022, ChemistrySelect.
[14] F. Ameen,et al. Synthesis of N-myristoyltaurine stabilized gold and silver nanoparticles: Assessment of their catalytic activity, antimicrobial effectiveness and toxicity in zebrafish. , 2022, Environmental research.
[15] R. Luque,et al. Valorisation of nuts biowaste: Prospects in sustainable bio(nano)catalysts and environmental applications , 2022, Journal of Cleaner Production.
[16] M. Kwak,et al. Cancer immunotherapy by immune checkpoint blockade and its advanced application using bio-nanomaterials. , 2022, Seminars in cancer biology.
[17] M. L. Verma,et al. Development and applications of nanobiosensors for sustainable agricultural and food industries: Recent developments, challenges and perspectives , 2022, Environmental Technology & Innovation.
[18] M. Danquah,et al. Advances in graphene oxide based nanobiocatalytic technology for wastewater treatment , 2022, Environmental Nanotechnology, Monitoring & Management.
[19] M. Farooque,et al. A Comprehensive Review on Conventional and Biological-Driven Heavy Metals Removal from Industrial Wastewater , 2022, Environmental Advances.
[20] K. Yun,et al. Remediation of microplastics using bionanomaterials: A review. , 2022, Environmental research.
[21] Hafiz M.N. Iqbal,et al. Integrated biorefinery approach to valorize citrus waste: A sustainable solution for resource recovery and environmental management. , 2022, Chemosphere.
[22] Naumih M. Noah,et al. Green synthesis of nanomaterials from sustainable materials for biosensors and drug delivery , 2021, Sensors International.
[23] Y. Vasseghian,et al. Recent progress in Biomass-derived nanoelectrocatalysts for the sustainable energy development , 2022, Fuel.
[24] Gopal Shankar Krishnakumar,et al. Polymer-based bionanomaterials for targeted drug delivery , 2022, Fundamentals of Bionanomaterials.
[25] S. Soltani,et al. Synthesis, properties, and biomedical applications of inorganic bionanomaterials , 2022, Fundamentals of Bionanomaterials.
[26] M. Danquah,et al. Bionanomaterials: definitions, sources, types, properties, toxicity, and regulations , 2022, Fundamentals of Bionanomaterials.
[27] A. Manjceevan,et al. Role of bionanomaterials for environmental remediation , 2021, Bionanomaterials for Environmental and Agricultural Applications.
[28] B. Singh,et al. Role of proteins in the biosynthesis and functioning of metallic nanoparticles , 2021, Critical reviews in biotechnology.
[29] J. Bae,et al. Fabrication of nitrogen-doped porous carbon nanofibers for heavy metal ions removal , 2021, Carbon Letters.
[30] M. Khairuddean,et al. A polypyrrole/GO/ZnO nanocomposite modified pencil graphite electrode for the determination of andrographolide in aqueous samples , 2021, Alexandria Engineering Journal.
[31] Nar Singh Chauhan,et al. Nano-Biocatalysts: Potential Biotechnological Applications , 2021, Indian Journal of Microbiology.
[32] P. Jaiswal,et al. Nanomaterials: stimulants for biofuels and renewables, yield and energy optimization , 2021, Materials Advances.
[33] Anisha Gupta,et al. Green Synthesis of Nanomaterials , 2021, Nanomaterials.
[34] S. Kanchi,et al. Low dimensional Bi2Se3 NPs/reduced graphene oxide nanocomposite for simultaneous detection of L-Dopa and acetaminophen in presence of ascorbic acid in biological samples and pharmaceuticals , 2021, Journal of Nanostructure in Chemistry.
[35] F. Ameen,et al. Ecofriendly and low-cost synthesis of ZnO nanoparticles from Acremonium potronii for the photocatalytic degradation of azo dyes. , 2021, Environmental research.
[36] R. Singh,et al. Introduction to bionanomaterials: an overview , 2021, Bionanomaterials.
[37] Xiaodong Zheng,et al. Bio-based nanomaterials for cancer therapy , 2021 .
[38] Ankita Dey,et al. Microbial Fabrication of Nanomaterial and Its Role in Disintegration of Exopolymeric Matrices of Biofilm , 2021, Frontiers in Chemistry.
[39] Elena Gkantzou,et al. Trends in the development of innovative nanobiocatalysts and their application in biocatalytic transformations. , 2021, Biotechnology advances.
[40] J. Labrincha,et al. A novel approach for nutrients recovery from municipal waste as biofertilizers by combining electrodialytic and gas permeable membrane technologies. , 2021, Waste management.
[41] R. Jain,et al. Plant-based biomaterials in tissue engineering , 2021 .
[42] U. Rashid,et al. Nanobiocatalysts for Biodiesel Synthesis through Transesterification—A Review , 2021, Catalysts.
[43] C. Vaneeckhaute,et al. Phosphorus removal and recovery from wastewater via hybrid ion exchange nanotechnology: a study on sustainable regeneration chemistries , 2021, npj Clean Water.
[44] V. Vishwakarma,et al. Recovery and recycle of wastewater contaminated with heavy metals using adsorbents incorporated from waste resources and nanomaterials-A review. , 2021, Chemosphere.
[45] M. Nasrollahzadeh,et al. Starch, cellulose, pectin, gum, alginate, chitin and chitosan derived (nano)materials for sustainable water treatment: A review. , 2021, Carbohydrate polymers.
[46] M. Ansari,et al. Role of Viruses in Nanoparticles Synthesis , 2021, Microbial Nanotechnology: Green Synthesis and Applications.
[47] M. Muti,et al. High stability potentiometric urea biosensor based on enzyme attached nanoparticles , 2021 .
[48] D. Ganji,et al. Effect of two different fins (longitudinal-tree like) and hybrid nano-particles (MoS2-TiO2) on solidification process in triplex latent heat thermal energy storage system , 2020 .
[49] S. Iravani. Nanomaterials and nanotechnology for water treatment: recent advances , 2020, Inorganic and Nano-Metal Chemistry.
[50] Akhilesh Kumar,et al. Recent trends in solid waste management status, challenges, and potential for the future Indian cities – A review , 2020 .
[51] Kok Zhi Lee,et al. Engineering Tobacco Mosaic Virus and Its Virus‐Like‐Particles for Synthesis of Biotemplated Nanomaterials , 2020, Biotechnology journal.
[52] S. Toma,et al. Superparamagnetic iron oxide nanoparticles (SPIONs) conjugated with lipase Candida antarctica A for biodiesel synthesis , 2020, RSC advances.
[53] Wenlei Xie,et al. Fabrication of immobilized Candida rugosa lipase on magnetic Fe3O4-poly(glycidyl methacrylate-co-methacrylic acid) composite as an efficient and recyclable biocatalyst for enzymatic production of biodiesel , 2020 .
[54] Cuong Dang,et al. Single-phase Cr2O3 nanoparticles for biomedical applications , 2020 .
[55] Kiran,et al. Fabrication of thermostable and reusable nanobiocatalyst for dye decolourization by immobilization of lignin peroxidase on graphene oxide functionalized MnFe2O4 superparamagnetic nanoparticles. , 2020, Bioresource technology.
[56] K. Helming,et al. Sustainability Considerations in Water–Energy–Food Nexus Research in Irrigated Agriculture , 2020 .
[57] F. Sen,et al. Green synthesis and characterization of Camellia sinensis mediated silver nanoparticles for antibacterial ceramic applications , 2020 .
[58] Rony S. Khnayzer,et al. Curcumin encapsulated colloidal amphiphilic block co-polymeric nanocapsules: colloidal nanocapsules enhance photodynamic and anticancer activities of curcumin , 2020, Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology.
[59] D. Elhamifar,et al. Sulfonic Acid Supported on Magnetic Methylene-Based Organosilica as an Efficient and Recyclable Nanocatalyst for Biodiesel Production via Esterification , 2020, Frontiers in Energy Research.
[60] D. Jafari,et al. Heavy metal ions (lead, cobalt, and nickel) biosorption from aqueous solution onto activated carbon prepared from Citrus limetta leaves , 2020, Carbon Letters.
[61] A. Lateef,et al. Nanobiosensors: applications in biomedical technology , 2020, IOP Conference Series: Materials Science and Engineering.
[62] M. Yousefi,et al. Application of multi-component reaction for covalent immobilization of two lipases on aldehyde-functionalized magnetic nanoparticles; production of biodiesel from waste cooking oil , 2020 .
[63] B. Giri,et al. Preparation and characterization of novel hybrid bio-support material immobilized from Pseudomonas cepacia lipase and its application to enhance biodiesel production , 2020 .
[64] L. Kuang,et al. The effect of single CNTs/GNPs and complexes on promoting the interfacial catalytic activity of lipase in conventional emulsions. , 2020, Journal of the science of food and agriculture.
[65] S. Jia,et al. Production and use of immobilized lipases in/on nanomaterials: A review from the waste to biodiesel production. , 2020, International journal of biological macromolecules.
[66] U. Rashid,et al. Synthesis of Lipase-Immobilized CeO2 Nanorods as Heterogeneous Nano-Biocatalyst for Optimized Biodiesel Production from Eruca sativa Seed Oil , 2020, Catalysts.
[67] G. Hosseini Salekdeh,et al. Stable cellulase immobilized on graphene oxide@CMC-g-poly(AMPS-co-AAm) hydrogel for enhanced enzymatic hydrolysis of lignocellulosic biomass. , 2020, Carbohydrate polymers.
[68] Z. Salehi,et al. Conversion of bio-oil extracted from Chlorella vulgaris micro algae to biodiesel via modified superparamagnetic nano-biocatalyst , 2020 .
[69] Quanshun Li,et al. Immobilized lipase in bio-based metal-organic frameworks constructed by biomimetic mineralization: A sustainable biocatalyst for biodiesel synthesis. , 2020, Colloids and surfaces. B, Biointerfaces.
[70] Y. Taufiq-Yap,et al. Assessment of clean H2 energy production from water using novel silicon photocatalyst , 2020, Journal of Cleaner Production.
[71] A. Saboury,et al. Lipase immobilized on functionalized superparamagnetic few-layer graphene oxide as an efficient nanobiocatalyst for biodiesel production from Chlorella vulgaris bio-oil , 2019, Biotechnology for Biofuels.
[72] A. Mohammadi,et al. Effects of Graphene Oxide Nanosheets and Al 2 O 3 Nanoparticles on CO 2 Uptake in Semi‐clathrate Hydrates , 2020 .
[73] U. Rashid,et al. Fe3O4-PDA-Lipase as Surface Functionalized Nano Biocatalyst for the Production of Biodiesel Using Waste Cooking Oil as Feedstock: Characterization and Process Optimization , 2019, Energies.
[74] A. Basso,et al. Industrial applications of immobilized enzymes—A review , 2019 .
[75] M. Morshed,et al. Surface modification of polyester fabric using plasma-dendrimer for robust immobilization of glucose oxidase enzyme , 2019, Scientific Reports.
[76] M. R. Awual. A facile composite material for enhanced cadmium(II) ion capturing from wastewater , 2019, Journal of Environmental Chemical Engineering.
[77] Z. Karami,et al. Magnetic cross-linked enzyme aggregates of Km12 lipase: A stable nanobiocatalyst for biodiesel synthesis from waste cooking oil , 2019, Renewable Energy.
[78] R. Luque,et al. Waste-to-wealth: biowaste valorization into valuable bio(nano)materials. , 2019, Chemical Society reviews.
[79] Esmail Doustkhah,et al. Noncovalent Immobilization of Yarrowia lipolytica Lipase on Dendritic-Like Amino Acid-Functionalized Silica Nanoparticles , 2019, Biomolecules.
[80] D. Das,et al. Fe2O3 nanocatalyst aided transesterification for biodiesel production from lipid-intact wet microalgal biomass: A biorefinery approach , 2019, Energy Conversion and Management.
[81] Abdullah M. Asiri,et al. Cleaning the arsenic(V) contaminated water for safe-guarding the public health using novel composite material , 2019, Composites Part B: Engineering.
[82] M. R. Awual. Efficient phosphate removal from water for controlling eutrophication using novel composite adsorbent , 2019, Journal of Cleaner Production.
[83] M. Kazemeini,et al. Green Biodiesel Production from Various Plant Oils Using Nanobiocatalysts Under Different Conditions , 2019, BioEnergy Research.
[84] E. Dintwa,et al. Production of biodiesel from microalgae via nanocatalyzed transesterification process: A review , 2019, Materials Science for Energy Technologies.
[85] Abdullah M. Asiri,et al. Novel optical composite material for efficient vanadium(III) capturing from wastewater , 2019, Journal of Molecular Liquids.
[86] Hafiz M.N. Iqbal,et al. Chemical, physical, and biological coordination: An interplay between materials and enzymes as potential platforms for immobilization , 2019, Coordination Chemistry Reviews.
[87] E. Giannelis,et al. Development of Effective Lipase-Hybrid Nanoflowers Enriched with Carbon and Magnetic Nanomaterials for Biocatalytic Transformations , 2019, Nanomaterials.
[88] L. Resar,et al. Genetic Engineering of Primary Mouse Intestinal Organoids Using Magnetic Nanoparticle Transduction Viral Vectors for Frozen Sectioning. , 2019, Journal of visualized experiments : JoVE.
[89] Luhong Zhang,et al. Morphology-Controlled Synthesis of Three-Dimensional Hierarchical Flowerlike Mg–Al Layered Double Hydroxides with Enhanced Catalytic Activity for Transesterification , 2019, Industrial & Engineering Chemistry Research.
[90] Z. Karami,et al. Construction of CLEAs-lipase on magnetic graphene oxide nanocomposite: An efficient nanobiocatalyst for biodiesel production. , 2019, Bioresource technology.
[91] J. D. Robertson,et al. Boron-neutron Capture on Activated Carbon for Hydrogen Storage , 2019, Scientific Reports.
[92] A. Montañés,et al. Performance and convergence in municipal waste treatment in the European Union. , 2019, Waste management.
[93] Z. Vryzas,et al. How different nanoparticles affect the rheological properties of aqueous Wyoming sodium bentonite suspensions , 2019, Journal of Petroleum Science and Engineering.
[94] J. P. van der Hoek,et al. Nitrogen Recovery from Wastewater: Possibilities, Competition with Other Resources and Adaptation Pathways , 2018, Prime Archives in Sustainability.
[95] S. Ghosh. Introduction to Circular Economy and Summary Analysis of Chapters , 2019, Circular Economy: Global Perspective.
[96] Q. An,et al. Unraveling sorption of nickel from aqueous solution by KMnO4 and KOH-modified peanut shell biochar: Implicit mechanism. , 2019, Chemosphere.
[97] Jiefu Wang. Reuse of Heavy Metal from Industrial Effluent Water , 2018, IOP Conference Series: Earth and Environmental Science.
[98] P. Pfeifer,et al. Structure–Function Relations for Gravimetric and Volumetric Methane Storage Capacities in Activated Carbon , 2018, ACS omega.
[99] S. Krishnan,et al. Photohydrogen production from dark-fermented palm oil mill effluent (DPOME) and statistical optimization: Renewable substrate for hydrogen , 2018, Journal of Cleaner Production.
[100] Khodir Madani,et al. Removal of lead by exopolysaccharides from Paenibacillus peoriae strainTS7 isolated from rhizosphere of durum wheat , 2018, Biocatalysis and Agricultural Biotechnology.
[101] Wei Du,et al. Rationally designing hydrophobic UiO-66 support for the enhanced enzymatic performance of immobilized lipase , 2018 .
[102] Q. Husain,et al. Exquisite stability and catalytic performance of immobilized lipase on novel fabricated nanocellulose fused polypyrrole/graphene oxide nanocomposite: Characterization and application. , 2018, International journal of biological macromolecules.
[103] F. J. Iruretagoyena,et al. Easy reuse of magnetic cross-linked enzyme aggregates of lipase B from Candida antarctica to obtain biodiesel from Chlorella vulgaris lipids. , 2018, Journal of bioscience and bioengineering.
[104] Yunjun Yan,et al. Carbon nanotube-lipase hybrid nanoflowers with enhanced enzyme activity and enantioselectivity. , 2018, Journal of biotechnology.
[105] Syed Danial Ali,et al. Review of Catalytic Transesterification Methods for Biodiesel Production , 2018, Biofuels - State of Development.
[106] Zhenhong Yuan,et al. Lipase immobilization on amino-silane modified superparamagnetic Fe3O4 nanoparticles as biocatalyst for biodiesel production , 2018, Fuel.
[107] Jaehoon Kim,et al. Solvent effect on the enzymatic production of biodiesel from waste animal fat , 2018, Journal of Cleaner Production.
[108] K. Wilson,et al. A magnetically separable SO4/Fe-Al-TiO2 solid acid catalyst for biodiesel production from waste cooking oil , 2018, Applied Catalysis B: Environmental.
[109] A. M. Kayastha,et al. Covalent immobilization of peanut β-amylase for producing industrial nano-biocatalysts: A comparative study of kinetics, stability and reusability of the immobilized enzyme. , 2018, Food chemistry.
[110] Quanshun Li,et al. Lipase-inorganic hybrid nanoflower constructed through biomimetic mineralization: A new support for biodiesel synthesis. , 2018, Journal of colloid and interface science.
[111] Wenlei Xie,et al. Immobilization of Candida rugosa lipase onto graphene oxide Fe3O4 nanocomposite: Characterization and application for biodiesel production , 2018 .
[112] Li Xu,et al. X-Shaped ZIF-8 for Immobilization Rhizomucor miehei Lipase via Encapsulation and Its Application toward Biodiesel Production , 2018 .
[113] Anne S. Meyer,et al. A general overview of support materials for enzyme immobilization: Characteristics, properties, practical utility , 2018 .
[114] Farnaz Zadehahmadi,et al. Efficient biodiesel production using a lipase@ZIF-67 nanobioreactor , 2018 .
[115] Lee Chee Keong,et al. Pleurotus sajor-caju can be used to synthesize silver nanoparticles with antifungal activity against Candida albicans. , 2018, Journal of the science of food and agriculture.
[116] S. A. Dargham,et al. Nanoporous Graphene Monolith for Hydrogen Storage , 2018 .
[117] H. Hassan,et al. Novel nano-conjugate materials for effective arsenic(V) and phosphate capturing in aqueous media , 2018 .
[118] De-hua Liu,et al. Lipase NS81006 immobilized on functionalized ferric-silica magnetic nanoparticles for biodiesel production , 2017 .
[119] S. Han,et al. Icosahedral plant viral nanoparticles - bioinspired synthesis of nanomaterials/nanostructures. , 2017, Advances in colloid and interface science.
[120] Fuan Wu,et al. Moving and unsinkable graphene sheets immobilized enzyme for microfluidic biocatalysis , 2017, Scientific Reports.
[121] Feng Su,et al. Carbon nanotube filled with magnetic iron oxide and modified with polyamidoamine dendrimers for immobilizing lipase toward application in biodiesel production , 2017, Scientific Reports.
[122] Younggy Kim,et al. Increasing phosphorus recovery from dewatering centrate in microbial electrolysis cells , 2017, Biotechnology for Biofuels.
[123] Sanjay Kumar,et al. A new insight to adsorption and accumulation of high lead concentration by exopolymer and whole cells of lead-resistant bacterium Acinetobacter junii L. Pb1 isolated from coal mine dump , 2017, Environmental Science and Pollution Research.
[124] J. Krömer,et al. Resource Recovery from Wastewater by Biological Technologies: Opportunities, Challenges, and Prospects , 2017, Front. Microbiol..
[125] L. Gonçalves,et al. NANOBIOCATALYTIC SYSTEMS BASED ON LIPASE-Fe3O4 AND CONVENTIONAL SYSTEMS FOR ISONIAZID SYNTHESIS: A COMPARATIVE STUDY , 2016 .
[126] A. Alshami,et al. Immobilization and enhanced catalytic activity of lipase on modified MWCNT for oily wastewater treatment , 2016 .
[127] Feng Su,et al. Lipase oriented-immobilized on dendrimer-coated magnetic multi-walled carbon nanotubes toward catalyzing biodiesel production from waste vegetable oil , 2016 .
[128] S. Martínez-Chapa,et al. Nanobiocatalysis: Nanostructured materials – a minireview , 2016 .
[129] M. Andrade,et al. Lipase immobilized on polydopamine-coated magnetite nanoparticles for biodiesel production from soybean oil , 2016 .
[130] F. Sen,et al. Synthesis and Characterization of Nearly Monodisperse Pt Nanoparticles for C1 to C3 Alcohol Oxidation and Dehydrogenation of Dimethylamine-borane (DMAB). , 2016, Journal of nanoscience and nanotechnology.
[131] J. Puhakka,et al. Arsenic removal from acidic solutions with biogenic ferric precipitates. , 2016, Journal of hazardous materials.
[132] M. R. Awual. Assessing of lead(III) capturing from contaminated wastewater using ligand doped conjugate adsorbent , 2016 .
[133] A. Demirbas,et al. Biodiesel production from non-edible plant oils , 2016 .
[134] C. Hou,et al. Covalent immobilization of lipases on monodisperse magnetic microspheres modified with PAMAM-dendrimer , 2016, Journal of Nanoparticle Research.
[135] Bingfang He,et al. Enhancement in ionic liquid tolerance of cellulase immobilized on PEGylated graphene oxide nanosheets: Application in saccharification of lignocellulose. , 2016, Bioresource technology.
[136] F. Huyop,et al. Simple adsorption of Candida rugosa lipase onto multi-walled carbon nanotubes for sustainable production of the flavor ester geranyl propionate , 2015 .
[137] Byung-su Kim,et al. A biological cyanide production and accumulation system and the recovery of platinum-group metals from spent automotive catalysts by biogenic cyanide , 2015 .
[138] J. Marchetti,et al. A review on recent advancement in catalytic materials for biodiesel production. , 2015 .
[139] W. Yu,et al. Immobilization of enzymes on clay minerals for biocatalysts and biosensors , 2015 .
[140] Sukalyan Sengupta,et al. Nitrogen and Phosphorus Recovery from Wastewater , 2015, Current Pollution Reports.
[141] A. Capodaglio,et al. Physico-chemical technologies for nitrogen removal from wastewaters: a review , 2015 .
[142] Jing-Yuan Wang,et al. Effective nitrogen removal and recovery from dewatered sewage sludge using a novel integrated system of accelerated hydrothermal deamination and air stripping. , 2015, Environmental science & technology.
[143] M. R. Awual. A novel facial composite adsorbent for enhanced copper(II) detection and removal from wastewater , 2015 .
[144] M. R. Awual,et al. Fine-tuning mesoporous adsorbent for simultaneous ultra-trace palladium(II) detection, separation and recovery , 2015 .
[145] Bo Jin,et al. Nanobiocatalyst advancements and bioprocessing applications , 2015, Journal of The Royal Society Interface.
[146] Jinshui Yang,et al. Lipid production combined with biosorption and bioaccumulation of cadmium, copper, manganese and zinc by oleaginous microalgae Chlorella minutissima UTEX2341. , 2015, Bioresource technology.
[147] E. C. Abdullah,et al. Immobilization of cellulase enzyme on functionalized multiwall carbon nanotubes , 2014 .
[148] Yijun Jiang,et al. Co-immobilization of multi-enzyme on control-reduced graphene oxide by non-covalent bonds: an artificial biocatalytic system for the one-pot production of gluconic acid from starch , 2014 .
[149] Meltem Yanilmaz,et al. Nanoparticle-on-nanofiber hybrid membrane separators for lithium-ion batteries via combining electrospraying and electrospinning techniques , 2014 .
[150] L. Christopher,et al. Enzymatic biodiesel: Challenges and opportunities , 2014 .
[151] Hao Zhou,et al. Catalytic performance and molecular dynamic simulation of immobilized CC bond hydrolase based on carbon nanotube matrix. , 2014, Colloids and surfaces. B, Biointerfaces.
[152] Eilhann E. Kwon,et al. Transforming duck tallow into biodiesel via noncatalytic transesterification , 2014 .
[153] Ping Wang,et al. Enabling multi-enzyme biocatalysis using coaxial-electrospun hollow nanofibers: redesign of artificial cells. , 2014, Journal of materials chemistry. B.
[154] Jeong Hoon Kim,et al. Colloidal silica nanoparticle-assisted structural control of cellulose nanofiber paper separators for lithium-ion batteries , 2013 .
[155] Xin Du,et al. Developing Functionalized Dendrimer‐Like Silica Nanoparticles with Hierarchical Pores as Advanced Delivery Nanocarriers , 2013, Advanced materials.
[156] R. Stevanato,et al. Enzyme immobilization: an update , 2013, Journal of chemical biology.
[157] D. Madamwar,et al. Robust nanobioconjugates of Candida antarctica lipase B--multiwalled carbon nanotubes: characterization and application for multiple usages in non-aqueous biocatalysis. , 2013, Bioresource technology.
[158] Haji Hassan Masjuki,et al. Evaluation of biodiesel blending, engine performance and emissions characteristics of Jatropha curcas methyl ester: Malaysian perspective , 2013 .
[159] Wei Feng,et al. Enzyme Immobilization on Carboxyl-Functionalized Graphene Oxide for Catalysis in Organic Solvent , 2013 .
[160] P. Su,et al. Immobilization of cellulase on polyamidoamine dendrimer-grafted silica , 2013 .
[161] H. Ohtake,et al. Novel technique for phosphorus recovery from aqueous solutions using amorphous calcium silicate hydrates (A-CSHs). , 2013, Water research.
[162] T. E. Cloete,et al. Immobilization of commercial hydrolytic enzymes on poly (acrylonitrile) nanofibers for anti-biofilm activity , 2013 .
[163] C. Barrow,et al. Enzyme immobilization on nanomaterials for biofuel production. , 2013, Trends in biotechnology.
[164] A. Jang,et al. Immobilization of lysozyme-CLEA onto electrospun chitosan nanofiber for effective antibacterial applications. , 2013, International journal of biological macromolecules.
[165] M. Ivić,et al. Adsorption of lipase from Candida rugosa on multi walled carbon nanotubes , 2013 .
[166] A. Ismail,et al. Preparation and characterization of electro-spun nanofiber membranes and their possible applications in water treatment , 2013 .
[167] R. Philippis,et al. Gold biosorption by exopolysaccharide producing cyanobacteria and purple nonsulphur bacteria , 2012, Journal of applied microbiology.
[168] G. Pastorin,et al. Iron oxide filled magnetic carbon nanotube-enzyme conjugates for recycling of amyloglucosidase: toward useful applications in biofuel production process. , 2012, Langmuir : the ACS journal of surfaces and colloids.
[169] E. Magner,et al. Modification of Mesoporous Silicates for Immobilization of Enzymes , 2012, Topics in Catalysis.
[170] Diannan Lu,et al. Nanobiocatalysis in Organic Media: Opportunities for Enzymes in Nanostructures , 2012, Topics in Catalysis.
[171] Yan-feng Li,et al. Preparation and characterization of graphite nanosheets decorated with Fe3O4 nanoparticles used in the immobilization of glucoamylase , 2012 .
[172] H. H. Yiu,et al. Enzyme–magnetic nanoparticle hybrids: new effective catalysts for the production of high value chemicals , 2012 .
[173] John H T Luong,et al. Applications of functionalized and nanoparticle-modified nanocrystalline cellulose. , 2012, Trends in biotechnology.
[174] S. Ansari,et al. Potential applications of enzymes immobilized on/in nano materials: A review. , 2012, Biotechnology advances.
[175] Jo‐Shu Chang,et al. Immobilization of Burkholderia sp. lipase on a ferric silica nanocomposite for biodiesel production. , 2012, Journal of biotechnology.
[176] Gareth R. Williams,et al. Electrospun polyacrylonitrile-glycopolymer nanofibrous membranes for enzyme immobilization , 2012 .
[177] Diannan Lu,et al. Magnetic enzyme nanogel (MENG): a universal synthetic route for biocatalysts. , 2012, Chemical communications.
[178] Shuzo Tanaka,et al. Biological Removal and Recovery of Toxic Heavy Metals in Water Environment , 2012 .
[179] J. Weijma,et al. Explorative research on innovative nitrogen recovery , 2012 .
[180] Z. Alam,et al. Statistical modelling optimisation of cellulase enzyme immobilisation on functionalised multi-walled carbon nanotubes for empty fruit bunches degradation , 2012 .
[181] Jun Wang,et al. Apoferritin nanoparticle: a novel and biocompatible carrier for enzyme immobilization with enhanced activity and stability , 2011 .
[182] P. Xu,et al. Enzyme-Nanoporous Gold Biocomposite: Excellent Biocatalyst with Improved Biocatalytic Performance and Stability , 2011, PloS one.
[183] L. Hersh,et al. Catalase-coupled gold nanoparticles: comparison between the carbodiimide and biotin-streptavidin methods. , 2011, Acta biomaterialia.
[184] Yan-feng Li,et al. Reversible immobilization of glucoamylase onto magnetic carbon nanotubes functionalized with dendrimer , 2011, Applied Microbiology and Biotechnology.
[185] S. Sahu,et al. A novel method for the immobilization of urease on phosphonate grafted iron oxide nanoparticle , 2011 .
[186] S. El‐Safty,et al. A weak-base fibrous anion exchanger effective for rapid phosphate removal from water. , 2011, Journal of hazardous materials.
[187] Jungbae Kim,et al. Shape reformable polymeric nanofibers entrapped with QDs as a scaffold for enzyme stabilization , 2011 .
[188] M. Jeya,et al. Covalent immobilization of recombinant Rhizobium etli CFN42 xylitol dehydrogenase onto modified silica nanoparticles , 2011, Applied Microbiology and Biotechnology.
[189] E. Costello-Goldring. Multifunctional Fe3O4 nanoparticles for targeted bi-modal imaging of pancreatic cancer , 2011 .
[190] Ashley J. Driscoll,et al. Enzyme nanoparticle fabrication: magnetic nanoparticle synthesis and enzyme immobilization. , 2011, Methods in molecular biology.
[191] Diannan Lu,et al. Preparation and characterization of single-enzyme nanogels. , 2011, Methods in molecular biology.
[192] Rongrong Jiang,et al. Reversible his-tagged enzyme immobilization on functionalized carbon nanotubes as nanoscale biocatalyst. , 2011, Methods in molecular biology.
[193] Chen Guo,et al. Magnetic mesoporous silica nanoparticles: fabrication and their laccase immobilization performance. , 2010, Bioresource technology.
[194] N. Manolova,et al. Functionalized electrospun mats from styrene–maleic anhydride copolymers for immobilization of acetylcholinesterase , 2010 .
[195] Aleksandr Simonian,et al. Enhanced stability of enzyme organophosphate hydrolase interfaced on the carbon nanotubes. , 2010, Colloids and surfaces. B, Biointerfaces.
[196] C. Dinu,et al. Enzyme‐Based Nanoscale Composites for Use as Active Decontamination Surfaces , 2010 .
[197] S. O'Neill,et al. Tailored adsorption of His6-tagged protein onto nickel(II)-cyclam grafted mesoporous silica. , 2010, Chemical communications.
[198] Franja Šulek,et al. Surface functionalization of silica-coated magnetic nanoparticles for covalent attachment of cholesterol oxidase , 2010 .
[199] Haojie Lu,et al. Immobilization of enzyme on detonation nanodiamond for highly efficient proteolysis. , 2010, Talanta.
[200] J. Luong,et al. Cellulose nanocrystal/gold nanoparticle composite as a matrix for enzyme immobilization. , 2009, ACS applied materials & interfaces.
[201] V. Zucolotto,et al. Enzyme immobilization on Ag nanoparticles/polyaniline nanocomposites. , 2009, Biosensors & bioelectronics.
[202] Yangyang Jiang,et al. Magnetic nanoparticles supported ionic liquids for lipase immobilization: Enzyme activity in catalyzing esterification , 2009 .
[203] Zhi-Kang Xu,et al. Enzyme immobilization on electrospun polymer nanofibers: An overview , 2009 .
[204] Christopher R. So,et al. Directed self‐immobilization of alkaline phosphatase on micro‐patterned substrates via genetically fused metal‐binding peptide , 2009, Biotechnology and bioengineering.
[205] A. Jarzebski,et al. Laccase immobilization on mesostructured cellular foams affords preparations with ultra high activity , 2009 .
[206] I. Sokolov,et al. Enzyme-functionalized mesoporous silica for bioanalytical applications , 2009, Analytical and bioanalytical chemistry.
[207] Zhi‐Kang Xu,et al. Covalent immobilization of lipase from Candida rugosa onto poly(acrylonitrile-co-2-hydroxyethyl methacrylate) electrospun fibrous membranes for potential bioreactor application. , 2008, Bioresource technology.
[208] F. Sen,et al. Improving catalytic efficiency in the methanol oxidation reaction by inserting Ru in face-centered cubic Pt nanoparticles prepared by a new surfactant, tert-octanethiol , 2008 .
[209] Hongjuan Ma,et al. Covalent-bonded immobilization of enzyme on hydrophilic polymer covering magnetic nanogels , 2008 .
[210] M. A. Alonso-Lomillo,et al. Hydrogenase-coated carbon nanotubes for efficient H2 oxidation. , 2007, Nano letters.
[211] Roberto Fernandez-Lafuente,et al. Improvement of enzyme activity, stability and selectivity via immobilization techniques , 2007 .
[212] S. Sugunan,et al. Enzymes immobilized on montmorillonite K 10: Effect of adsorption and grafting on the surface properties and the enzyme activity , 2007 .
[213] Jun Ge,et al. Encapsulation of single enzyme in nanogel with enhanced biocatalytic activity and stability. , 2006, Journal of the American Chemical Society.
[214] M. L. Ferreira,et al. Interfacial activation and bioimprinting of Candida rugosa lipase immobilized on polypropylene: effect on the enzymatic activity in solvent-free ethyl oleate synthesis , 2005 .
[215] Jungbae Kim,et al. Single-Enzyme Nanoparticles Armored by a Nanometer-Scale Organic/Inorganic Network , 2003 .
[216] Z. Aksu,et al. Bioaccumulation of copper(II) and nickel(II) by the non-adapted and adapted growing Candida sp. , 2001, Water research.
[217] T. Kajino,et al. Catalytic Activity in Organic Solvents and Stability of Immobilized Enzymes Depend on the Pore Size and Surface Characteristics of Mesoporous Silica , 2000 .
[218] M. L. Villalonga,et al. Preparation and functional properties of trypsin modified by carboxymethylcellulose , 2000 .
[219] K. Neoh,et al. Covalent immobilization of invertase onto the surface-modified polyaniline from graft copolymerization with acrylic acid , 2000 .
[220] J. Dordick,et al. Biocatalytic plastics as active and stable materials for biotransformations , 1997, Nature Biotechnology.
[221] D. Williams,et al. Biomaterials and Biocompatibility , 2000, Medical progress through technology.