Abstract
Main emphasis of present research is to introduce the novel concept of Newtonian flux condition in MHD stretching flow of Jeffrey liquid. Flow is generated due to stretching of a permeable cylinder. Phenomena of heat and mass transfer is based through involvement of thermal-diffusion and diffusion-thermo aspects. Suitable variables are employed for conversion of partial differential frameworks into a sets of ordinary differential expressions. Analytic solutions are constructed through homotopic procedure. Salient impacts of distinct variables are reported graphically. Temperature and concentration are improved within frame of thermal/solutal conjugate variables.