has been cited by the following article(s):
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[1]
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Exploring Nonlinear Reaction–Diffusion in Enzyme Immobilized Systems: Integer and Fractional Order Modeling
Applied Biochemistry and Biotechnology,
2025
DOI:10.1007/s12010-024-05050-x
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[2]
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Modeling Immobilized Enzyme Reactions: Nonlinear Kinetics With Fractional‐ and Integer‐Order Analysis
Mathematical Methods in the Applied Sciences,
2025
DOI:10.1002/mma.10791
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[3]
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Wavelet-based mathematical analysis of immobilized enzymes in porous catalysts under nonlinear Michaelis–Menten kinetics
Journal of Mathematical Chemistry,
2024
DOI:10.1007/s10910-023-01548-7
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[4]
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Beyond conventional models: integer and fractional order analysis of nonlinear Michaelis-Menten kinetics in immobilised enzyme reactors
Engineering Computations,
2024
DOI:10.1108/EC-03-2024-0238
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[5]
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Beyond conventional models: integer and fractional order analysis of nonlinear Michaelis-Menten kinetics in immobilised enzyme reactors
Engineering Computations,
2024
DOI:10.1108/EC-03-2024-0238
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[6]
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A study using a semi-analytical approach to the reaction kinetics that describes the behavior of heterogeneous reaction–diffusion process with a glyoxyl-agarose immobilized enzyme (penicillin G acylase) in a batch reactor
Chemical Engineering Journal,
2024
DOI:10.1016/j.cej.2024.153858
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[7]
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Analytical expressions of the concentrations of substrate and product in enzyme inhibition process
Natural Science,
2013
DOI:10.4236/ns.2013.59129
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[8]
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Approximate Solution of Non-Linear Reaction Diffusion Equations in Homogeneous Processes Coupled to Electrode Reactions for CE Mechanism at a Spherical Electrode
American Journal of Analytical Chemistry,
2011
DOI:10.4236/ajac.2011.22010
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