Assalamualaikum and Hi, LinkedIn community! I am delighted to share an exciting project that I am currently engaged in. As a student pursuing Part 8 of Chemical Engineering, I am currently enrolled in Dr.-Ing Amizon Azizan Azizan Biocatalysis Class, where I am studying the elective subject CBE687. In this course, I have the privilege of exploring the captivating realm of biocatalysis, which involves the use of enzymes and other biological catalysts to potentially revolutionize various industrial processes. Our initial task involves conducting a fascinating survey aimed at raising awareness about the extensive applications and advantages of biocatalysts. The objective is to gain valuable insights from students specializing in civil, mechanical, and electrical engineering to better understand their current perceptions, challenges, and opportunities related to biocatalysis. Through this survey, our aim is to promote knowledge sharing, foster collaboration, and unlock new possibilities for harnessing the power of biocatalysts. To present the intriguing findings of our survey, I have created an informative and visually captivating poster. This poster effectively summarizes the survey results, highlighting significant trends, noteworthy discoveries, and potential future directions in the field of biocatalysis. It serves as a valuable resource for anyone interested in exploring the boundless potential offered by these catalysts inspired by nature. Biocatalysts, at their core, encompass chemical processes that leverage the capabilities of natural catalysts, primarily enzymes or microorganisms, to facilitate a diverse range of chemical reactions. What sets enzymes apart is their remarkable ability to function under mild temperature and pH conditions, while producing minimal by-products and waste. Moreover, biocatalysts demonstrate a high level of specificity, as enzymes possess unique shapes that attract specific substrate molecules, binding them to the enzymes' active sites. Crucial factors influencing biocatalysis activity include substrate concentration, pH levels, and temperature. ☘ Thank you. References: 1)Murzin, D. Y. (n.d.). CATALYSIS AND BIOCATALYSIS. 2)NEW BIOCATALYSTS: ESSENTIAL TOOLS FOR A SUSTAINABLE 21 st CENTURY CHEMICAL INDUSTRY. (n.d.). 3)Wu, S., Snajdrova, R., Moore, J. C., Baldenius, K., & Bornscheuer, U. T. (2021). Biocatalysis: Enzymatic Synthesis for Industrial Applications. In Angewandte Chemie - International Edition (Vol. 60, Issue 1, pp. 88–119). Wiley-VCH Verlag. https://lnkd.in/g2UNavqF #Biocatalyst #Biocatalysis #Bioprocess #Chemicalengineering #Industry #Engineering #Sustainability #Enzymes #Biochemistry #Sustainablechemistry #Renewable #Catalysis #Bioprocessing #Biotechnology #Greenchemistry
Thank you for this interesting knowledge 👍🏼
good sharing. i learned new things about biocatalyst from your poster 👍🏻
Good job and I gained new knowledge about biocatalyst. Your poster really helpful and good information👍🏻
Nice poster and sharing !
Undergraduates, School of Chemical Engineering, College of Chemical Engineering, Universiti Teknologi MARA, Shah Alam, Malaysia.
8moAs your opinion, do you think chemical catalyst are more advantages than bio catalyst? Can you explain and elaborate.