Mohammad Ashraf Gondal

Distinguished Professor, Senior Research Fellow K.A.CARE Coordinator Laser Research Group Member Editorial Boards, AJSE, J. Sensors & Instrum, Int J.Spectroscopy, Int. J.Photoenergy, J.Eng, j. Env.& E. Sci, J.App. Sci, Eng & Tech

Biography

​Dr. Gondal received his B.Sc, M.Sc. from Punjab University Lahore, M. Phil from Quaid-e-Azam University Islamabad, and Ph.D. from Institute of Applied Physics, University of Bonn, Germany. Dr. Gondal is a Distinguished Professor at Physics Department, Coordinator of Laser Research Group at King Fahd University of Petroleum and Minerals (KFUPM) and a Senior Research Fellow of K.A.CARE.  His  research interests are in the areas of energy harvesting (third generation solar cells) and energy storage (super capacitors),  photonics, quantum optics, nanotechnology, materials science, applied/chemical physics, wetting & non wetting surfaces for oil water separation & self cleaning, environment, design and fabrication of lasers, laser remote sensing, pollution monitoring, development of laser based analytical techniques (LIDAR, PAS, LIBS, LEI), synthesis of nano structured metal oxides & oxy-halides using pulsed laser ablation in liquids as well wet chemical methods and their novel applications in corrosion inhibition, petrochemicals, photo-catalysis for production of high value hydrocarbons (CO­­­2 utilization) & hydrogen production by water splitting, removal of organic pollutants as well water disinfection of bacteria. In addition to cutting edge applied research, he is working on laser induced atomic and molecular spectroscopy as fundamental research for understanding of atoms and molecules. Dr. Gondal has published over 500 research papers in international journals & conferences, many book chapters, 30 US patents, H-index 47, is a member of various international journal's editorial boards and winner of many national and international awards. 

All sessions by Mohammad Ashraf Gondal

Fabrication of Cost Effective and Efficient Dye Sensitized and Single Crystals Perovskite Solar Cells
11:20 AM

The first generation solar cells based on silicon widely used for photovoltaic power generation are costly to produce and their efficiency decreases rapidly at higher temperatures. The second generation thin films based solar cells using cadmium telluride (CdTe) and copper indium gallium di-selenide (CIGS) materials lack high efficiency and are toxic and not environmentally friendly. To overcome these issues, third generation solar cells are being developed which are called dye sensitized solar cells (DSSC) and perovskite solar cells (PSC). However, due to poor long-term stability, narrow spectral absorption range, charge carrier transportation and collection losses and poor charge transfer mechanism for regeneration of dye molecules, the development of DSSCs over the last two decades is almost stagnant. Here the main challenge is how to improve the performance of DSSCs. We applied various methods, by using new electrode materials with nano-structures, different dye compositions with promising nanocomposites and metal quantum dots as well cost effective hole transporting materials. In addition different nanostructured materials were investigated for photo-anodes and counter-electrodes, including metal oxides and highly mesoporous carbon (HMC) to achieve better efficiency of DSSCs by focusing on materials which absorbs over a broad band of solar spectrum (visible and near infrared) and are less expensive and stable.
On the perovskite side, our focus is to prepare perovskite bulk and thin single crystals which are grown using Inverse thermal crystallization method. Three types of single crystals were grown including pure 3D using methylammonium lead iodide (MAPbI3), (2D/3D using butylammonium mixing with methylammonium lead iodide (BAI: MAPbI3), and 2D/3D with propylammonium mixing with methylammonium lead iodide (PAI: MAPbI3). The single crystals were characterized using advanced analytical technique such as optical microscope for optical images, scanning electron microscope (SEM) for electron images, X-ray diffraction (XRD) and spectrofluorometry. Finally Single crystals perovskite solar cells were fabricated which exhibited higher efficiency as compared to the poly crystalline based solar cells. In addition to the development of third generation solar cells, our group is also working on thermoelectric materials for energy harvesting based on Seebeck effect & refrigeration based on Peltier effect and on energy storage devices likes super-capacitors. The authors are thankful to KFUPM for supporting this work under project # RG 162002 and K.A. CARE under project # KACARE182-RFP-02

Mohammad Ashraf Gondal

Distinguished Professor, Senior Research Fellow K.A.CARE Coordinator Laser Research Group Member Editorial Boards, AJSE, J. Sensors & Instrum, Int J.Spectroscopy, Int. J.Photoenergy, J.Eng, j. Env.& E. Sci, J.App. Sci, Eng & Tech

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