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プロフィール詳細
プロジェクトを作成
★★★★★
☆☆☆☆☆
Sylvester M.に依頼
United States

PhD. Materials engineer

プロフィール概要
専門分野
サービス
Writing Technical Writing, General Proofreading & Editing
Research User Research, Technology Scouting, Gap Analysis, Gray Literature Search, Scientific and Technical Research, Systematic Literature Review, Secondary Data Collection
Consulting Scientific and Technical Consulting
Data & AI Predictive Modeling, Statistical Analysis, Algorithm Design-Non ML, Algorithm Design-ML, Data Visualization
職務経験

Research assistant

University of Utah

8月 2022 - 現在

Teaching

Teachers Service Commission (TSC) - Kenya

5月 2013 - 2022

学歴

PhD (Materials science and engineering)

University of Utah

8月 2022 - 現在

PhD (Physics)

Kenyatta University

6月 2019 - 現在

Msc (Physics)

Kenyatta University

4月 2013 - 12月 2017

Thesis research (Physics)

Uppsala University

8月 2014 - 6月 2015

認定資格
  • 認定資格の詳細は未入力です。
出版物
JOURNAL ARTICLE
Sylvester W. Makumi, Stefanie Haugg, Bojan Bosnjak, Robert Zierold, Robert H. Blick, Zlatan Aksamija (2024). Enhanced field emission of electrons from wrinkled graphene: A unified approach . Physical Review Applied.
Sylvester Makumi, Stefanie Haugg, Sven Velten, Robert Zierold, Zlatan Aksamija, Robert H. Blick (2024). Thermally Driven Field Emission from Zinc Oxide Wires on a Nanomembrane Used as a Detector for Time-of-Flight Mass Spectrometry . ACS Omega.
Observation of defect density dependent elastic modulus of graphene @article{10.1063/5.0157104,author={Li, Hu and Gürbüz, Emel and Haldar, Soumyajyoti and Hussain, Tanveer and Zheng, Xiaoxiao and Ye, Xiaoling and Makumi, Sylvester Wambua and Duan, Tianbo and Jafri, Syed Hassan Mujtaba and Daukiya, Lakshya and Simon, Laurent and Karton, Amir and Sanyal, Biplab and Leifer, Klaus},title={{Observation of defect density dependent elastic modulus of graphene}},journal={Applied Physics Letters},volume={123},number={5},pages={053102},year={2023},month={08},abstract={{The recent decade has witnessed a tremendous development of graphene applications in many fields; however, as one of the key considerations, the mechanical properties of graphene still remain largely unexplored. Herein, by employing focused ion beam irradiation, graphene with various defect levels is obtained and further investigated by using Raman spectroscopy and scanning tunneling microscopy. Specially, our atomic force microscopy based nanomechanical property measurement demonstrates a clear defect density dependent behavior in the elastic modulus of graphene on a substrate as the defect density is higher than a threshold value of 1012 cm−2, where a clear decay is observed in the stiffness of graphene. This defect density dependence is mainly attributed to the appearance of amorphous graphene, which is further confirmed with our molecular dynamics calculations. Therefore, our reported result provides an essential guidance to enable the rational design of graphene materials in nanodevices, especially from the perspective of mechanical properties.}},issn={0003-6951},doi={10.1063/5.0157104},url={https://doi.org/10.1063/5.0157104},eprint={https://pubs.aip.org/aip/apl/article-pdf/doi/10.1063/5.0157104/18071175/053102\_1\_5.0157104.pdf}} . Applied Physics Letters.
Hu Li, Emel Gürbüz, Soumyajyoti Haldar, Tanveer Hussain, Xiaoxiao Zheng, Xiaoling Ye, Sylvester Wambua Makumi, Tianbo Duan, Syed Hassan Mujtaba Jafri, Lakshya Daukiya, et al. (2023). Observation of defect density dependent elastic modulus of graphene . Applied Physics Letters.
Sylvester W Makumi, Daniel Bem, Nicholas Musila, Cameron Foss, Zlatan Aksamija(2023). In-plane thermoelectric properties of graphene/xBN/graphene van der Waals heterostructures . Journal of Physics: Condensed Matter. 35. (15). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 155701. {IOP} Publishing