 The study aimed to investigate the feasibility of producing cellulosic pulp and nanofibrillated cellulose, NFC, from prevalent plants in West and Central Africa, including raffia fibr, raffia vinifera, cassava bagasse, manihot eschilenta, and ambarella, spondias dulcis, to assess their suitability as reinforcing elements for composite. Fibers were produced using both organosolve and basic soda methods, and morphological characterization showed pulp fibres of width 24 to 33 m and length 0.2 to 1.1 mm, while nanofibres of width 110 to 278 nanometers were obtained after nanofibrillation. FTIR confirmed that the isolation processes effectively removed amorphous content, while X-ray diffraction analysis demonstrated the increase in crystallinity when fibres were processed from pulp to nanofibrillated cellulose. Despite being fibrous in nature, ambarella did not respond to soda and organosol pulping due to high wax and ash content. The yield of raffia pulp is within the range found in conventional wood sources, and the nanosize nature, high specific surface area and aspect ratio, biodegradability and renewability of nanofibrillated cellulose have demonstrated the potential of raffia fibres and cassava bagasse as suitable sources for micro nanosellulose. This article was authored by Tido T. Wistanislas, Joseph R. Fobertendo, M.S.O. Becliojo and others. We are article.tv, links in the description below.