د.ماجد بن أحمد الشاعري
Dr.
Majed Ahmed. M. Al-Shaeri., MSc, PhD.
Associate Professor of Environmental
Toxicology
أستاذ السموم البيئية المشارك
Director of Environmental Protection
& Sustainability Laboratory (EPS).
Director of Toxicology Research
Group.
Head of the Electron Microscopy Unit.
Secretary of the Departmental Board – Biological Sciences
Department.
Faculty of Sciences.
King Abdulaziz University
Building 90A, Third floor, Room 36C57.
Saudi
Arabia P.O. Box 80203 Jeddah 21589.
Phone:
+966(0)126400000 (office) 64742 (lab) 52291.
Mobile:
+966(0) 556372123.
Fax:
+966(0)126400000 (64702).
E-mail: malshaere@kau.edu.sa
Current Research Interest
Dr.
Majed is an Associate Professor of Environmental Toxicology in the Department
of Biological Sciences at King Abdulaziz University. Dr. Al-Shaeri received an
MSc (2011) and PhD (2014) in (Toxicology & Nano-Ecotoxicology) from
Heriot-Watt University in Edinburgh, Scotland, United Kingdom. Dr. Al-Shaeri is
interested in environmental toxicology, nanobiotechnology, nanotoxicity, and the
synthesis and characterization of nanomaterial (NMs). Current research efforts are
focused on toxicology & eco-nanotoxicology. Recent research activity has
focused on (1) the eco/toxicity of nanomaterials, (2) the
safety of nanomaterials in medicine, (3) dietary exposure to metal nanoparticles
and other contaminants, (4) body systems nanotoxicology (immunotoxicity; gastro-intestinal
physiology and pathology; neurotoxicity) and (5) the impact of nanoparticles on
the genomics and proteomics of microorganisms (Bacteria and microalgae). Other research
efforts are focused on the different manufacturers of making NMs use a variety of
synthesis methods, employing different also catalytic metals and carbon sources
leading to raw CNTs of varying purities and length, two characteristics
important in determine the behaviour of CNTs and their potential health risk
following exposure. The Fundamental studies currently underway involve
nanomaterial interactions other substances, and their potential toxicity and
behaviour and how they may effect on biological systems, including in vitro
and in vivo studies, intracellular fate; uptake, translocation and
distribution. The understanding of NMs functionalization, synthesis, characterization,
behaviour and interaction with metals provides good evidence that may lead to
an understanding of their fate and effect on environment and human health. The
research premise will aid in novel nanobiotechnology and nanotoxicology model
development and thus enable safe implementation of nanomaterial products.
Funding
