Hui-Qing Peng | Chemistry | Best Researcher Award

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Hui-Qing Peng | Chemistry | Best Researcher Award

Prof Hui-Qing Peng, Beijing University of Chemical Technology, China

Prof. Hui-Qing Peng’s extensive experience and research contributions, he appears to be a suitable candidate for the Best Researcher Award. Below is a detailed overview highlighting his qualifications, research fields, and notable publications.

Publication profile

google scholar

Education

  • Ph.D. in Organic Chemistry
    Supramolecular Photochemistry Research Group, Technical Institute of Physics and Chemistry (TIPC), Chinese Academy of Sciences (CAS), Beijing, China (Sept. 2012 – Jul. 2015)
  • Joint M.S. Student at TIPC, CAS (Aug. 2010 – Jul. 2012)
  • M.S. in Chemistry, Shantou University, Guangdong, China (Sept. 2009 – Jul. 2010)
  • B.S. in Chemistry, Qilu University of Technology, Jinan, China (Sept. 2005 – Jul. 2009)

Research Field

  • Supramolecular Photochemistry
  • Aerobic Photocatalysis
  • Photodynamic Therapy

Prof. Peng’s research focuses on innovative approaches in supramolecular photochemistry and photocatalysis, addressing critical issues in energy conversion and medical applications. His expertise in developing light-harvesting systems and exploring their biological applications demonstrates his commitment to advancing the field.

Publication top notes

Nickel–cobalt diselenide 3D mesoporous nanosheet networks supported on Ni foam: an all‐pH highly efficient integrated electrocatalyst for hydrogen evolution

Biological applications of supramolecular assemblies designed for excitation energy transfer

Iron vacancies induced bifunctionality in ultrathin feroxyhyte nanosheets for overall water splitting

Unconventional nickel nitride enriched with nitrogen vacancies as a high‐efficiency electrocatalyst for hydrogen evolution

Bioinspired simultaneous changes in fluorescence color, brightness, and shape of hydrogels enabled by AIEgens

Dramatic differences in aggregation-induced emission and supramolecular polymerizability of tetraphenylethene-based stereoisomers

Artificial light‐harvesting system based on multifunctional surface‐cross‐linked micelles

Conclusion

Prof. Hui-Qing Peng’s significant contributions to supramolecular photochemistry and photocatalysis, along with his strong publication record, establish him as a formidable candidate for the Best Researcher Award. His research not only pushes the boundaries of chemistry but also has meaningful implications for energy sustainability and medical applications.

 

Mustafa Buyukharman | Chemistry Award | Young Scientist Award

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Mr. Mustafa Buyukharman | Chemistry Award | Young Scientist Award

Mr. Mustafa Buyukharman, Istanbul University, Turkey

 

Mustafa Büyükharman is a dedicated Advanced Research and Development Specialist at NERO Industries with a keen focus on advanced reliability. With a background in Material Science and Nanotechnology Engineering, he holds expertise in constructing efficient bioelectrochemical devices and designing novel biological photovoltaic cells. Mustafa’s academic journey includes notable achievements such as winning the TÜBITAK 2241 Undergraduate Thesis Contest and publishing in esteemed journals. He is driven by a passion for 1D-2D materials and semiconductor technologies. Outside of work, he enjoys swimming, traveling, and organizing scientific events.

 

Publication Profile

Google Scholar

Education

Graduating with honors from various institutions, including Necmettin Erbakan University and Istanbul University, Mustafa’s academic journey reflects his dedication to excellence.

Achievements

Noteworthy accolades include winning the TÜBITAK 2241 Undergraduate Thesis Contest and publishing in esteemed scientific journals.

Work Experience

As an Advanced Research and Development Specialist at NERO Industries, Mustafa brings invaluable expertise. His previous roles, including lifeguarding at Massanutten Resort Water Park, showcase his adaptability and commitment.

Research Focus

Mustafa Büyükharman’s research primarily centers on the development of advanced bioelectrochemical devices, aiming to enhance electricity production from cyanobacteria. His work delves into leveraging π-conjugated conducting polymers and gold nanoparticle composite interfaces to optimize energy generation. Additionally, Mustafa explores the synthesis and characterization of materials like MoO2-MoO3 nanostructured thin films and single-layer graphene decorated with silver atoms, contributing to the advancement of various fields including nanotechnology and renewable energy. Through his innovative research endeavors, Mustafa exemplifies a commitment to sustainable technology and scientific innovation. 🌱

 

Publication Top Notes

📚 Construction of efficient bioelectrochemical devices: Improved electricity production from cyanobacteria (Leptolyngbia sp.) based on π‐conjugated conducting… by M Buyukharman et al. (2019) 🌱 Cited by 22

📚 Phase modulation of MoO2-MoO3 nanostructured thin films through W-Doping; utilizing UV photodetection and gas sensing applications by M Buyukharman et al. (2022) 🔬 Cited by 11

📚 Design of a Novel Green Algae‐Based Biological Photovoltaic Cell with High Photocurrent and a Photoelectrochemical Biosensing Approach Utilizing the BPV for Pesticide Analysis… by M Buyukharman et al. (2024) 🌿

📚 BIOPHOTOVOLTAICS: THEIR TECHNOLOGY AND APPLICATIONS by M BÜYÜKHARMAN et al. (2023) 🌞

📚 Gümüş (Ag) atomları ile dekore edilmiş tek tabaka grafenin sentez ve karakterizasyonu by M Büyükharman (2020) 💎

📚 Synthesis and characterization of single layer graphene decorated with silver (Ag) atoms by M Buyukharman (2020) 💡

📚 Construction of Efficient Bio-Electrochemical Devices; An Improved Electricity Production from Cyanobacterium (Leptolyngbia sp.) Based on π-Conjugated Conducting Polymers/Gold… by M Buyukharman et al. (2019) ⚡