Prof. Dr. Idris Al-Momani was ranked among the top 2% of the most influential and cited researchers in their scientific research worldwide, according to the researchers database prepared by Stanford University and the international publishing house Elsevier (ELSEVIRE)

Assembly Chemistry Olympiad was organized with the participation of a number of Jordanian and Arab universities, where she participated two students Rania Ghanem, and acyl oryzae of the Department of Chemistry at the Yarmouk Olympics, which came in the form of general test different branches of chemistry, and won the student Ghanem on second place in the Arab world, it was honored by President of Assiut University and Secretary General of the Association of Colleges of Science members of the Association of Arab universities.

He said Dr. leave this win is a scientific achievement of the University of Yarmouk, which reflects the level of scientific excellence of the College of Science and the extent of their interest Btlaptha and develop their talents and abilities enabling them to join the labor market.

This invention is based upon the discovery of a new mechanism for atmospheric nitrogen fixation to nitrate by thermal treatment of titanium dioxide (TiO2) in the presence of air and in the absence of light (photocatalytic reactions are not involved). 
Nitrogen fixation is a process by which nitrogen (N2) in the atmosphere is converted into ammonia (NH3) or nitrate (NO3). Although the atmosphere is 78% nitrogen, it is nutritionally unavailable as it is relatively inert. Nitrogen must be fixed through a natural or man-made process. In addition to biosynthesis nucleotides for DNA and RNA and amino acids for proteins, nitrogen is important for agriculture and the production of fertilizer.
Biological nitrogen fixation makes up about 65% of the world’s annual nitrogen fixation, and industrially produced nitrogen fertilizers, primarily produced by the Haber-Bosch process, accounts for 25% of the total annual nitrogen fixation. The Haber-Bosch process has a relatively high operational cost, operates at relatively high temperatures and pressures, and depends on non-renewable and depleting sources of energy.
Nitrate form by this newly discovered method has been analyzed for isotopic composition (δ18O and δ15N) was found to have a signature that is distinguishable from photo- and bio-fixed nitrate. 
This promising process has an important implication for commercially produced fertilizers, particularly as it is relatively inexpensive, and environmentally friendly method, with recyclable titanium dioxide that can be reused many times to produce large quantities of fertilizer. In addition, this process is non-toxic making it safer to use than the catalysts typically used for the Haber-Bosch process (The Haber-Bosch process is presently the only available, non-biological technology that has been used commercially).
This novel process for non-biological fixation of nitrogen to form nitrate, operates in lower temperatures, between 50ºC and 200ºC, making it more efficient than traditional methods.
In addition to its commercial implication for producing fertilizers, this mechanism can partly explain the presence of high levels of naturally occurring nitrate found in arid subsoil. TiO2, a common soil constituent and a semi-conducting material, can produce nitrate by sunlight heating, where nitrate was observed at 50ºC, a temperature that is available under sunlight irradiation in the dry areas. It is noteworthy to mention that large pools of nitrate have been found in remote arid lands in different parts around of the world, including those discovered relatively recently in the NE Badia of Jordan).
We plan to utilize the nanotechnology to make thin films (nano-films) of TiO2 to further reduce TiO2 used in this process and increase nitrate yields for commercial use (fertilizer). This process has the potentials to replace the conventional techniques currently used in production of fertilizers, particularly as this method is relatively inexpensive, safer, environmental friendly with recyclable TiO2.