Srivastava, Neha; Alhazmi, Alaa; Mohammad, Akbar; Haque, Shafiul; Srivastava, Manish; Pal, Dan Bahadur; Singh, Rajeev; Mishra, P. K.; Vo, Dai Viet N.; Yoon, Taeho; Gupta, Vijai Kumar published the artcile< Biohydrogen production via integrated sequential fermentation using magnetite nanoparticles treated crude enzyme to hydrolyze sugarcane bagasse>, Application In Synthesis of 112-63-0, the main research area is biohydrogen integrated sequential fermentation magnetite nanoparticle sugarcane bagasse.
This study presents a potential approach to enhance integrated sequential biohydrogen production from waste biomass using magnetite nanoparticle (Fe3O4 NPs) which is synthesized through waste seeds of Syzygium cumini. Consequences of 0.5% Fe3O4 NPs have been investigated on the thermal and pH stability of fungal crude cellulase. It is noticed that Fe3O4 NPs treated enzyme and control exhibits 100% activity in the temperature range of 45-60éºç¯ and 45-55éºç¯, resp. Moreover, Fe3O4 NPs treated enzyme showed extended thermal stability in the temperature range of 50-60éºç¯ up to 12 h. Beside this, Fe3O4 NPs treated enzyme possesses 100% stability in the pH range of 5.0-7.0 whereas control exhibited only at pH 6.0. Enzymic hydrolysis via Fe3O4 NPs treated enzyme has been employed which produces é?8.0 g/L reducing sugars from sugarcane bagasse. Subsequently, sugar hydrolyzate has been utilized as substrate in the sequential integrated fermentation that produces é?427.0 mL/L cumulative hydrogen after 408 h. This approach may have potential for the pilot scale production of biohydrogen from waste biomass at low-cost in an eco-friendly manner.
International Journal of Hydrogen Energy published new progress about Bagasse. 112-63-0 belongs to class esters-buliding-blocks, and the molecular formula is C19H34O2, Application In Synthesis of 112-63-0.
Referemce:
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics