@article { , title = {Unprecedented homotopy perturbation method for solving nonlinear equations in the enzymatic reaction of glucose in a spherical matrix.}, abstract = {The theory of glucose-responsive composite membranes for the planar diffusion and reaction process is extended to a microsphere membrane. The theoretical model of glucose oxidation and hydrogen peroxide production in the chitosan-aliginate microsphere has been discussed in this manuscript for the first time. We have successfully reported an analytical derived methodology utilizing homotopy perturbation to perform the numerical simulation. The influence and sensitive analysis of various parameters on the concentrations of gluconic acid and hydrogen peroxide are also discussed. The theoretical results enable to predict and optimize the performance of enzyme kinetics.}, doi = {10.1007/s00449-017-1865-0}, eissn = {1615-7605}, issn = {1615-7591}, issue = {2}, journal = {Bioprocess and biosystems engineering}, note = {COMPLETED -- Replied with AAM 1/2/2018 LM -- Contact replied to say he had sent this, can'f find email nor article in folder, requested doc again 2/1/2018 LM -- Requested AAM from contact 1/2/2018 LM -- Info via WoS alert 1/2/2018 LM ADDITIONAL INFORMATION: Fernandez, Carlos -- Panel A}, pages = {281-294}, publicationstatus = {Published}, publisher = {Springer}, url = {http://hdl.handle.net/10059/2709}, volume = {41}, keyword = {Enzyme encapsulated polymer microspheres, Enzyme reaction mechanism, Mathematical modelling, New approaches of homotopy perturbation method}, year = {2018}, author = {Saranya, K. and Mohan, V. and Kizek, R. and Fernandez, C. and Rajendran, L.} }