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Page last updated: 2024-08-25

chitosan and sodium borohydride

chitosan has been researched along with sodium borohydride in 12 studies

Research

Studies (12)

Timeframe	Studies, this research(%)	All Research%
pre-1990	0 (0.00)	18.7374
1990's	0 (0.00)	18.2507
2000's	3 (25.00)	29.6817
2010's	6 (50.00)	24.3611
2020's	3 (25.00)	2.80

Authors

Authors	Studies
Adriano, WS; Filho, EH; Gonçalves, LR; Silva, JA	1
Banerjee, T; Maitra, AN; Sharma, RK; Singh, AK	1
Chang, YC; Chen, DH	1
Bin Ahmad, M; Ibrahim, NA; Lim, JJ; Shameli, K; Tay, MY	1
Ananda, K; Chethan, PD; Poojary, B; Sathish, L; Vishalakshi, B	1
He, D; Ikeda-Ohno, A; Kacopieros, M; Waite, TD	1
Chang, TY; Chen, CC; Chen, XA; Chen, YH; Cheng, KM; Chin, CY; Chiueh, TS; Sun, JR; Young, JJ	1
Hussain, I; Murtaza, G; Shah, A	1
Sargin, I	1
Amrollahi Biuki, N; Hamzavi, SF; Jamili, S; Mashinchian Moradi, A; Yousefzadi, M	1
Dantas, FDS; de Lima, LRM; de Oliveira, EF; de Paula, RCM; Dias, FGB; Figueiredo, EAT; Paula, HCB; Santos, CM; Silva, RBC	1
Ahmad, A; Begum, R; Farooqi, ZH; Irfan, A; Kanwal, F; Roy, PG; Zhou, S	1

Other Studies

12 other study(ies) available for chitosan and sodium borohydride

Article	Year
Optimization of penicillin G acylase multipoint immobilization on to glutaraldehyde-chitosan beads. Biotechnology and applied biochemistry, 2005, Volume: 41, Issue:Pt 3 Topics: Binding Sites; Borohydrides; Chitosan; Enzyme Stability; Enzymes, Immobilized; Escherichia coli; Glutaral; Hot Temperature; Hydrogen-Ion Concentration; Kinetics; Penicillin Amidase; Phenylacetates; Protein Binding	2005
Labeling efficiency and biodistribution of Technetium-99m labeled nanoparticles: interference by colloidal tin oxide particles. International journal of pharmaceutics, 2005, Jan-31, Volume: 289, Issue:1-2 Topics: Animals; Borohydrides; Chitosan; Colloids; Drug Evaluation, Preclinical; Isotope Labeling; Mice; Mice, Inbred Strains; Nanostructures; Organotechnetium Compounds; Rabbits; Technetium; Technology, Pharmaceutical; Tin Compounds; Tissue Distribution	2005
Catalytic reduction of 4-nitrophenol by magnetically recoverable Au nanocatalyst. Journal of hazardous materials, 2009, Jun-15, Volume: 165, Issue:1-3 Topics: Borohydrides; Catalysis; Chitosan; Conservation of Natural Resources; Gold; Kinetics; Magnetics; Metal Nanoparticles; Nitrophenols; Reducing Agents	2009
Synthesis of silver nanoparticles in chitosan, gelatin and chitosan/gelatin bionanocomposites by a chemical reducing agent and their characterization. Molecules (Basel, Switzerland), 2011, Aug-25, Volume: 16, Issue:9 Topics: Borohydrides; Chitosan; Fourier Analysis; Gelatin; Metal Nanoparticles; Microscopy, Atomic Force; Nanocomposites; Particle Size; Powder Diffraction; Reducing Agents; Silver; Spectrophotometry; X-Ray Diffraction	2011
Preparation of substituted quaternized arylfuran chitosan derivatives and their antimicrobial activity. International journal of biological macromolecules, 2013, Volume: 59 Topics: Aldehydes; Anti-Bacterial Agents; Antifungal Agents; Borohydrides; Candida albicans; Chitosan; Hydrocarbons, Iodinated; Magnetic Resonance Spectroscopy; Microbial Sensitivity Tests; Mycobacterium smegmatis; Pseudomonas aeruginosa; Schiff Bases; Spectroscopy, Fourier Transform Infrared; Thermogravimetry	2013
Optimizing the design and synthesis of supported silver nanoparticles for low cost water disinfection. Environmental science & technology, 2014, Oct-21, Volume: 48, Issue:20 Topics: Anti-Bacterial Agents; Borohydrides; Carbon; Chitosan; Disinfection; Metal Nanoparticles; Oryza; Silicon Dioxide; Silver; Waste Products; Water Purification	2014
Trimethyl chitosan-capped silver nanoparticles with positive surface charge: Their catalytic activity and antibacterial spectrum including multidrug-resistant strains of Acinetobacter baumannii. Colloids and surfaces. B, Biointerfaces, 2017, Jul-01, Volume: 155 Topics: Acinetobacter baumannii; Anti-Bacterial Agents; Borohydrides; Chitosan; Drug Resistance, Multiple, Bacterial; Escherichia coli; Glucose; Metal Nanoparticles; Microbial Sensitivity Tests; Nitrophenols; Oxidation-Reduction; Pseudomonas aeruginosa; Silver; Sodium Hydroxide; Staphylococcus aureus; Static Electricity	2017
Chemical synthesis and characterization of chitosan/silver nanocomposites films and their potential antibacterial activity. International journal of biological macromolecules, 2018, Volume: 116 Topics: Anti-Bacterial Agents; Bacteria; Bandages; Borohydrides; Chitosan; Metal Nanoparticles; Microbial Sensitivity Tests; Nanocomposites; Silver Nitrate	2018
Efficiency of Ag(0)@chitosan gel beads in catalytic reduction of nitroaromatic compounds by sodium borohydride. International journal of biological macromolecules, 2019, Sep-15, Volume: 137 Topics: Borohydrides; Catalysis; Chitosan; Gels; Microspheres; Nitro Compounds; Oxidation-Reduction; Silver	2019
Immobilization of platinum nanoparticles on the functionalized chitosan particles: an efficient catalyst for reduction of nitro compounds and tandem reductive Ugi reactions. Molecular diversity, 2020, Volume: 24, Issue:4 Topics: Borohydrides; Catalysis; Chitosan; Metal Nanoparticles; Nitro Compounds; Platinum	2020
Eco-friendly synthesis of an alkyl chitosan derivative. International journal of biological macromolecules, 2020, Nov-15, Volume: 163 Topics: Alkylation; Anti-Bacterial Agents; Borohydrides; Chitosan; Gram-Positive Bacteria; Magnetic Resonance Spectroscopy; Microbial Sensitivity Tests; Oils, Volatile; Schiff Bases; Spectroscopy, Fourier Transform Infrared; X-Ray Diffraction	2020
Fabrication of silver nanoparticles within chitosan based microgels for catalysis. International journal of biological macromolecules, 2023, Jun-15, Volume: 240 Topics: Catalysis; Chitosan; Metal Nanoparticles; Microgels; Silver	2023