Dr. Nyambane Ontita | Bioelectrochemistry | Editorial Board Member

Researcher | Central south university | China

Dr. Nyambane Ontita is a dedicated microbiologist whose research centers on environmental sustainability, microbial physiology, and the development of innovative bioelectrochemical solutions for resource recovery. His work focuses on advancing bioelectrochemical systems to enhance rare earth metal removal and bioelectricity generation while improving overall wastewater treatment efficiency. He integrates microbial ecology, molecular biology, and environmental biotechnology to explore how electroactive microorganisms respond to environmental stress and how biofilm behavior can be optimized for industrial applications. With strong expertise in advanced techniques such as XPS, XRD, FTIR, PCR, and SEM, he investigates microbial community dynamics and characterizes biofilms to uncover mechanisms that drive efficient metal recovery. His contributions include designing and optimizing bioelectrochemical reactors, evaluating substrate modifications for improved performance, and developing specialized protocols for cultivating electroactive microbial communities. He has produced impactful publications in areas such as anode substrate optimization, microbial responses to metal stress, and carbon-fixing microorganisms, contributing to sustainable and low-carbon technological development. His research output has gained increasing recognition, reflected in citation metrics that include 28 citations, an h-index of 3, and an i10-index of 1. He actively participates in scientific forums focused on carbon neutrality and metal resource utilization, engaging in discussions on low-emission strategies and sustainable industrial processes. Beyond his laboratory work, he has supported academic training in microbiology, molecular methods, and microbial ecology, fostering scientific growth among emerging researchers. Recognized for excellence in research and collaborative innovation, he continues to advance interdisciplinary approaches that unite microbiology, environmental engineering, and bioprocess technology to address global challenges in wastewater treatment, pollution mitigation, and circular resource recovery.