PROFILE

UPM's Staff Profile

DR. MAZLIANA BINTI AHMAD KAMARUDIN

SENIOR LECTURER

FACULTY OF SCIENCE

mazliana_ak@upm.edu.my

PROFESSIONAL

UPM WEBSITE

PROFILE

mazliana_ak

PROFESSIONAL

NAME :

(Dr.) MAZLIANA BINTI AHMAD KAMARUDIN

POST :

SENIOR LECTURER

ENTITY :

FACULTY OF SCIENCE

FIELD OF SUPERVISION

MATERIALS SCIENCE / NANOSCIENCE / NANOTECHNOLOGY / PHYSICS

EDUCATION

PHD
LANCASTER UNIVERSITY, LANCASTER, UNITED KINGDOM
Graduated : 2010

BACELOR SAINS (KEPUJIAN)
UNIVERSITI PUTRA MALAYSIA, SERDANG, SELANGOR
Graduated : 2005

JOURNAL PUBLICATION

1. Hole migration and optically induced charge depletion in GaSb/GaAs wetting layers and quantum rings
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

2. Tuning the properties of exciton complexes in self-assembled GaSb/GaAs quantum rings
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

3. Blueshifts of the emission energy in type-II quantum dot and quantum ring nanostructures
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

4. Effect of an in-situ thermal annealing on the structural properties of self-assembled GaSb/GaAs quantum dots
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

5. Atomic-column scanning transmission electron microscopy analysis of misfit dislocations in GaSb/ GaAs quantum dots
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

6. temperature and power dependence of photoluminescence in PbS quantum dots nanoparticles
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

7. Quantum Confinement Effect and Photoenhancement of Photoluminescence of PbS and PbS/MnS Quantum Dots
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

8. Photoluminescence Investigation of Carrier Localization in Colloidal PbS and PbS/MnS Quantum Dots
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

9. Study of the Electron-Phonon Coupling in PbS/MnTe Quantum Dots Based on Temperature-Dependent Photoluminescence
Journal type: Citation-Indexed Journal - Science Citation Index (JCR)

10. Impact of carbon concentration on optical and zeta potential properties of carbon quantum dots
Journal type: Citation-Indexed - Scopus

EDUCATIONAL BACKGROUND

2010

Doctor of Philosophy (PhD) in Physics
Lancaster University, United Kingdom

2005

Bachelor of Science (Honours) in Physics
Universiti Putra Malaysia

TEACHING

2014

General Physics, Physics I, Solid State Physics and Classical Mechanics

AWARD AND ACHIEVEMENT

2018

Gold Medal, Putra InnoCreative Carnival in Teaching and Learning 2018

2012

Silver Medal, Exhibition on Invention, Research and Innovation Malaysia 2012.

RESEARCH AREA

Synthesis of II-VI nanoparticles by using thermal treatment method.

Nanostructure materials synthesis and characterisations

Optical studies of quantum dots

CURRENT RESEARCH

2019

Synthesis of PbS quantum dots with various shell material

PUBLICATION

2024

Impact of carbon concentration on optical and zeta potential properties of carbon quantum dots

2023

Solvent-Dependent Photoluminescence Emission and Colloidal Stability of Carbon Quantum dots from Watermelon Peels

2022

Study of the Electron-Phonon Coupling in PbS/MnTe Quantum Dots Based on Temperature-Dependent Photoluminescence

2020

Photoluminescence Investigation of Carrier Localization in Colloidal PbS and PbS/MnS Quantum Dots

2020

Quantum Confinement Effect and Photoenhancement of Photoluminescence of PbS and PbS/MnS Quantum Dots

2019

temperature and power dependence of photoluminescence in PbS quantum dots nanoparticles

2017

Effect of an in-situ thermal annealing on the structural properties of self-assembled GaSb/GaAs quantum dots

2016

Atomic-column scanning transmission electron microscopy analysis of misfit dislocations in GaSb/ GaAs quantum dots

2013

Hole migration and optically induced charge depletion in GaSb/GaAs wetting layers and quantum rings

2013

Blueshifts of the emission energy in type-II quantum dot and quantum ring nanostructures

2011

Tuning the properties of exciton complexes in self-assembled GaSb/GaAs quantum rings

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