TAHRIRIYAT HAY'ATI

Pochta indeksi: 127788, Abu Dabi, Birlashgan Arab Amirliklari

E-mail: gahsan.qurashi@ku.ac.ae 

Tug‘ilgan sana: 16 aprel, 1978 yil

Tug‘ilgan joyi: Srinagar, Kashmir, Kupvara

Ta'lim 

Fevral 2008: Ph.D. dissertatsiya mavzusi: «ZnO nanostrukturalarining selektiv o‘sishi va ularning nanoqurilmalardagi qo‘llanilishi», Chonbuk universiteti, Chonju, Janubiy Koreya.
Iyul 2004: Kimyo bo‘yicha fan magistri, Pune universiteti, Pune, Hindiston.
Sentyabr 2001: Pedagogika bakalavri (fizika va biologiya o‘qituvchisi), Kashmir universiteti, Srinagar, Kashmir, Hindiston.
Aprel 2000: Fan bakalavri, Kashmir universiteti, Srinagar, Kashmir, Hindiston.

ISH TAJRIBASI

Fevral 2024 – hozirgacha: Direktor o‘rinbosari, Kataliz va ajratish markazi (CeCaS), Xalifa universiteti, Abu Dabi, BAA.
Iyul 2022 – Yanvar 2024: Ilg‘or materialshunoslik kimyosi markazi (AMCC) direktori, Xalifa universiteti, Abu Dabi, BAA.
Yanvar 2021 – 2023: PhD dasturi koordinatori, kimyo kafedrasi, Xalifa universiteti, Abu Dabi, BAA.
Avgust 2019 – hozirgacha: Dotsent, kimyo kafedrasi, Xalifa universiteti, Abu Dabi, BAA.
Fevral 2016 – Iyul 2019: Dotsent, Kimyo kafedrasi va Ilg‘or nanotexnologiyalar markazi (CENT), Qirol Fahd universiteti, Dahron, Saudiya Arabistoni.
Mart 2010 – Yanvar 2016: Assistent professor, kimyo kafedrasi, Ilg‘or nanotexnologiyalar markazi (CENT), Qirol Fahd universiteti, Dahron, Saudiya Arabistoni.
Mart 2008 – Mart 2010: Postdoktorant, Venchur biznes laboratoriyasi (VBL), Toyama universiteti, Toyama, Yaponiya.

MUKOFOTLAR VA TAN OLISHLAR

• Amerika keramika jamiyati, BAA bo'limi raisi (2023 yildan).
• Qirollik kimyo jamiyati a'zosi (FRSC) (2022 yildan).
• Mehmon o‘qituvchi, EPFL Sion, Shveytsariya, 2018.
• Mehmon o‘qituvchi, Kaliforniya Texnologiya Instituti (CALTECH), Pasadena, AQSh, 2024-2025.
• Amerika keramika jamiyati (ACerS) global elchisi.
• Mehmon o‘qituvchi, professor Amano laboratoriyasi (2014 yilgi Nobel mukofoti laureati, GaN asosidagi LED texnologiyasi), Nagoya universiteti, Yaponiya, 2017.
• Mehmon o‘qituvchi, Tokio universiteti, kimyo tizimlari bo‘limi, Tokio, Yaponiya, 2016.
• Brain Korea 21 doktorlik stipendiyasi, Chonbuk universiteti, Janubiy Koreya (2004-2007).

TAHRIRIYAT VA PROFESSIONAL TASHKILOTLAR A'ZOLIK RO‘YXATI

• Qirollik kimyo jamiyati (FRSC) a'zosi, 2022 yildan.
• Muhammad bin Roshid Prestij Ilmiy Akademiyasi (MBRAS) a'zosi, 2021 yildan.
• Nature Scientific Reports tahririyat a'zosi (Nature Publishing Group) IF 4.6 (2015 yildan hozirgacha).
• Ultrasonics Sonochemistry tahririyat a'zosi (top-2 % ichida).
• Tashqi muharrir Nature Engineering Communications.
• Materials Research Bulletin tahririyat a'zosi (Elsevier) IF 5.6 (2015 yildan).
• International Journal of Hydrogen Energy (Elsevier) IF 7.2 mavzuli muharriri (2017-2020), 314 ta maqolani eng yaxshi tahririyat amaliyotlari asosida ko‘rib chiqqan, 20 % dan ortiq qabul qilingan.

• Energy and Environmental Materials jurnalining kichik tahririyat a'zosi IF 15 (top-1 % Scopus ichida).
• Kitob muharriri: «Metall-xalkogenid nanostrukturalari va ularning qayta tiklanuvchi energiyada qo‘llanilishi», Wiley-Scrivener Press, AQSh, 2015.
• Amerika kimyo jamiyati (ACS) a'zosi, 2016 yildan.
• Yaponiya elektroximik jamiyati a'zosi (2009-2010).
• Amerika keramika jamiyati a'zosi, 2022 yildan hozirgacha.

ILMIY QIZIQISHLAR

Yangi materiallar va ularning rivojlanishiga yondashuvlar yaratish, ilg‘or tahlil usullari yordamida materiallar tarkibi va xususiyatlari o‘rtasidagi bog‘liqlikni o‘rganish, shuningdek ularning sun’iy fotosintezda, CO2ni qimmatbaho mahsulotlarga qayta ishlashda, energiya saqlash batareyalarida, yashil ammiak sintezida va boshqa elektro va fotoelektroximik reaksiyalarda qo‘llanilishi.

NASHRLAR

Kitob bo'limlari:

1. Suhaib Imtiyaz, Bilal Masood Pirzada, Qurashi A., “Synthesis Characterization and Properties of Perovskite Material” Photoelectrochemical Engineering for Solar Harvesting 2023, Elsevier.  
2. Qurashi, A., “An Overview of Metal Chalcogenide Nanostructures for Renewable Energy Applications, Metal Chalcogenide Nanostructures and their Applications in Renewable Energy Applications” by Qurashi A., Wiley-Scrivener Press, MA, USA, 2015. 
3. Alam, MW., and Qurashi, A., “Metal Chalcogenide Quantum Dots for Hybrid Solar Cell Applications, Metal Chalcogenide Nanostructures and their Applications in Renewable Energy Applications” by Qurashi A., Wiley-Scrivener Press MA, USA 2015. 
4. Merzhoughi, B., Qurashi A., Qamar, M., and Muraza, O., “Metal Carbide for Fuel Cell Applications” by Shao M., “Electrocatalysis in Fuel Cells: A Non and Low-Platinum Approach” Springer-Verlag, London, 2013.  
5. Qurashi A.,   Faiz M., and Tabet N., “Structural Analysis of Metal Oxide Nanostructures Published by Book Entitled Structural Analysis” Nova Science Publishers, Inc., New York, USA, 2010. 
6. Qurashi A., “Biomedical Applications of ZnO Nanostructures, Recent Developments in Bio-Nanocomposites for Biomedical Applications” Nova Science Publishers, Inc., New York, USA, 2010. 
7. Qurashi A., “Chitin and Chitosan Nanostructures and Their Biomedical Applications, Handbook of Bioplastics Engineering Applications” Wiley-Scrivener Press, MA, USA, 2010. 

Ko‘rib chiqilayotgan/yuborilgan maqolalar

1. Misbah Uddin M., Pirzada BM., Rasool F., Anjum D., Price G., Qurashi A.,* “Surficial Reconstruction through Ce-doping in Bimetallic Oxide SrCoOx Electrocatalysts for Improved Corrosion Resistance in Electrocatalytic Seawater Splitting” Under review in ACS Applied Energy Materials. 
2. Pirzada BM., Talib SH, Aminu, AM., Mohamed S., Marzooqi F, Qurashi A.,* “Porous Graphitic Carbon Nitride supported α-Fe2O3 Nanodots as Superior Electrocatalysts on Fe Foam Electrode for Nitrogen Reduction to Ammonia: A Combinative Experimental and Theoretical Study” Submitted to Carbon.  
3. Irfan A., Pirzada BM, Talib SH., Mohamed S., Qurashi A.,*  “Tailored Electrochemical Synthesis of Bimetallic Cobalt-Manganese Borate (CoMnBi) Thin Layer for Enhanced Clean Oxygen Generation Reaction: Experimental and Theoretical investigation” 
Submitted to Electrochimica Acta.  
4. Md. Yasir Bhat, Kaitlyn Prenger, Adeosun WA., Samad YA., Liao K., Michael N.,and Qurashi A., “Frontiers of MXenes-Based Hybrids for Energy Storage and Conversion Applications” Under review npj 2D Materials and Applications.

Xalifa universitetida nashr etilgan maqolalar

1. Akhtar Munir, Jamal Abdul Nasir, Tanveer ul Haq, Javed Iqbal, Irshad Hussain, Ahsanulhaq Qurashi “Benchmarking stable Electrocatalysts for green hydrogen production: A chemist perspective” Coordination Chemistry Reviews 521 (2024) 216112. Top 1 % 
2. Sajjad Hussain, Shamraiz Hussain Talib, Babar Ali, Sharmarke Mohamed, Ahsanulhaq Qurashi, Jun Li, Zhansheng Lu “Single-Atom Electrocatalysts Anchored on Phosphoniobic Acid (M1/PNb12O40) Cluster for Water Splitting (HER/OER) and Metal-Air Batteries (ORR)” ACS Materials Letters 6 (2024) 2311-2319. 
3. Musa S., Pirzada BM, Talib SH., Anjum D., Haija MA, Mohamed S, and Qurashi A.,* “Development of Copper-Nickel (Cu-Ni) Dual Atom Catalysts over Graphene Variants as Active Anodes for Clean Oxygen Generation: Integrative Experimental and Computational Validation” Nano Energy 125(2024), 109479. Top 1 % 
4. Rasool F., Pirzada BM., Alkhidir T., Talib SH., Anjum D., Mohamed S., Qurashi A.,* “In situ Growth of Interfacially Nano-engineered 2D-2D WS2/Ti3C2Tx MXene Nanocomposites for Enhanced Hydrogen Evolution Reaction: A Combined Experimental and Computational Approach” accepted in ACS Applied Materials Interfaces 16(2024), 14229-14242. 
5. Talib, SH., Beenish B; Khan, MK., Babar A., Sharmarke M., Qurashi A.,* Jun L “"Improving the Efficiency of Water Splitting and Oxygen Reduction via Single-Atom Anchoring on Graphyne Support” Energy and Environmental Materials   7 (2024) e12723. Top 1 %

6. Rasool F, Pirzada BM, Misbah Uddin M, Mohideen MIH, Yildiz, I., Elkadi M, Qurashi A.,* “Zn-doped MoS2/MXene 2D Interfacial Engineering for Improved Hydrogen Evolution Reaction” International Journal of Hydrogen Energy 59 (2024) 63-73. 
7. S Hussain, SH Talib, S Mohamed, R Zhao, A Qurashi, J Li, Z Lu “Computational screening of oxygen and sulfur decorated MXene supported transitions metal single-atom catalysts for hydrogen evolution reaction” International Journal of Hydrogen Energy 53(2024), 969-978. 
8. MA Shah, T Shahnaz, JH Masoodi, S Nazir, A Qurashi, GH Ahmed “Application of nanotechnology in the agricultural and food processing industries: A review” Sustainable Materials and Technologies  39, (2024), e00809. 
9. Deader F., Abbas Y., Qurashi A., Mahmoud A., Vincent Chan V., Rezeq M., “Electric Field Driven Self-Assembly of Gold Nanoparticle Monolayers on Silicon Substrates” Langmuir 39 (2023), 15766-15772. 
10. Hameed, A., Nasim, F., Nisar, N., Hassan A., Qurashi, A., Anjum, Dalaver A., Manzar S., Arif NA., “Heterostructure NiCo-Alloy nanosheets embedded Ceria nanorods: A highly efficient bifunctional electrocatalyst towards Oxygen evolution reaction (OER) and Oxygen reduction reaction (ORR)” Energy & Fuels 37, (2023) 17605–17615. 
11. Talib SH., Ali B., Mohamed S., Jiang XL., Ahmad K.,  Qurashi  A., *  Li J.,“Computational Screening of M1/PW12O40 Single-Atom Electrocatalysts for Water Splitting and Oxygen Reduction Reactions”,  Journal of Materials Chemistry A 11(2023) 16334-16348. (IF 11.9) 
12. Hussain S., Talib S., Shahzad SR., Mohamed S., Qurashi A., Lu Z., “Heterogeneous Co1/P1Mo12O40 Single-Atom Catalyst for CO Oxidation (TER) Mechanism”, Accepted in Molecular Catalysis (2023) (IF 5.0) 
13. Butt AM., Batool M., Jaoude AJ., Qurashi A., “Recent Advancement in Manganese-based Electrocatalyst for Green Hydrogen Production”, Journal of Electroanalytical Chemistry (2023) 117393 (IF 4.5) 
14. Ahmad A., Qurashi, A.,* Sheehan D., “Nano Packaging–Progress and Future Perspectives for Food Safety, And Sustainability” Food Packaging and Shelf Life 35 (2023) 100997 (IF 8.0) 
15. Bhat Y., Hashmi A., Khan M., Choi D., Qurashi  A*., Frontiers and Recent Developments on Supercapacitor's Materials, Design, and Applications: Transport and Power System Applications” Journal of Energy Storage 58 (2023) 106104 (IF 9.4) 
16. Naseer I., Khan I., Asghar A., Qurashi A., “A Sustainable Molybdenum Oxysulphide-Cobalt Phosphate Photocatalyst for Effectual Solar-Driven Water Splitting”, Journal of Advanced Research 36 (2022) 15-26 (IF 10.7)  
17.  Lalwani S., AlNahyan, M., Al Zaabi A., AlMarzooqi F., Qurashi A.,* “Advances in Interfacial Engineering and Their Role in Heterostructure Formation for HER Applications in Wider pH”, ACS Applied Energy Materials 5 (2022) 14571-14592 (IF 6.4) 
18.  Patoo TS., F Khanday F., Qurashi A*., “Prospectus of Advanced Nanomaterials for Antiviral Properties” Materials Advances 3 (2022), 2960-2970 
19. Shaya J., Corridon R., Al-Omari B., Aoudi A., Shunnar A., Mohideen H., Qurashi A., Benoît M., Burger A., “Design, Photophysical Properties, and Applications of Fluorene-Based Fluorophores In Two-Photon Fluorescence Bioimaging: A review”, Journal of Photochemistry and Photobiology C: Photochemistry Reviews 52 (2022) 100529. (IF13.6) 
20. Wazir B.,  Daud M.,  Safeer, S.,  AlMarzooqi F., Qurashi A*., “Review on 2D Molybdenum Diselenide (MoSe2) and Its Hybrids for Green Hydrogen (H2) Generation Applications”, ACS Omega 7  (2022) 16856-16865. ( IF 4.1)

21. Shah A., Pirzada M., Price G.,Shibiru L., Qurashi A*., “Applications of Nanotechnology in Smart Textile Industry: A Critical Review”, Journal of Advanced Research 38 (2022) 55-75.  (IF 10.7) 
22. Kouser S., Prabhu A., Prashantha K., Nagaraja K., D’souza N., Navada M., Qurashi A., Manasa DJ., “Modified Halloysite Nanotubes with Chitosan Incorporated PVA/PVP Bionanocomposite Films: Thermal, Mechanical Properties and Biocompatibility for Tissue Engineering”, Colloids and Surfaces A: Physicochemical and Engineering Aspects 634(2022) 127941. (IF 5.2) 
23. Shafiq I., Shafique S., Akhter P., Abbas G., Qurashi A., Hussain M., “Efficient Catalyst Development for Deep Aerobic Photocatalytic Oxidative Desulfurization: Recent Advances, Confines and Outlooks”, Catalysis Reviews 21 (2021) 1-46 (IF 13.6)  
24. Gowhar A Naikoo, Hiba Salim, Israr U Hassan, Tasbiha Awan, Fareeha Arshad, Mona Z Pedram, Waqar Ahmed, Qurashi A*.; Recent Advances in Non-Enzymatic Glucose Sensors Based on Metal and Metal Oxide Nanostructures for Diabetes Management- A Review” Frontiers in Chemistry 9 (2021), 748957 
25. Khan F., Qurashi A*., “Micro-Indented-Mechanically-Engineered Ni-Fe-Mo-Cu Alloying Electrocatalyst for Oxygen Evolution Reaction: A Cost-Effective Approach for Green Hydrogen Production”, Electrochimica Acta 400 (2021) 139345. (IF 6.6) 
26. Pirzada M., Dar H., Shaikh N., Qurashi A., * “Reticular Chemistry inspired Supramolecule Design as a Tool to Achieve Efficient Photocatalysts For CO2 Reduction”, ACS Omega 6 (2021) 29291-29324 (IF 4.1) 
27. Higor R., Jéssica L., Natan S., Qurashi A., Nisar A., “Sonoelectrochemistry: Ultrasound assisted Organic Electrosynthesis”, ACS Sustainable Chem. Eng. 9 (2021) 9590–9603. (IF 8.4) 
28. Naseer I., Adeel A., Ibrahim K., Muhammad K., Qurashi A., “Molybdenum Impregnated G C3N4 Nanotubes as Potentially Active Photocatalyst for Renewable Energy Applications”, Scientific Reports 11 (2021) 1-12 (4.6)  
29. Bhat A., Shoaib A., Bhat K., Infas M., Liao K., Qurashi A⁎., “Prospects Challenges and Stability of 2D MXene for Clean Energy Storage and Conversion Applications”, npj 2D Materials and Applications 5 (2021) 61 (IF 10.5 ) (Top 1% cited in field Clarivate) 
30. Shah A., Khana S., Kumar V., Qurashi A., “Pyrolysis of Walnut Shell Residues in A Fixed Bed Reactor: Effects of Processes Parameters and Chemical and Functional Properties of Bio Oil”, Journal of Environmental Chemical Engineering 9 (2021) 105564. (IF 7.7)  
31. Naikoo A., * Mujahid M., Hassan U., Awan T., Arshad F., Salim H., Qurashi A., * “Bioinspired and Green Synthesis of Nanoparticles from Plant Extracts with Antiviral and Antimicrobial Properties: A Critical Review”, J. Saudi Chem. Soc. 25 (2021) 101304. (IF 5.6)  
32. Khan AZ., Khan I., Sufyan A., Anjum, D., Qurashi, A., * “Activation of Ni2V2O7 to Nonstoichiometric NiV3O8 for Solar-driven Photoelectrochemical Water Oxidation”, Journal of Environmental Chemical Engineering 9 (2021) 105526 (IF 7.7)  
33. Hassan S., Salim H., Naikoo A., Awan T., Dar A., Arshad F., Tabidi A., Das R., Ahmed W., Abdullah A., Qurashi A., “A Review on Recent Advances in Hierarchically Porous Metal and Metal Oxide Nanostructures as Electrode Materials for Supercapacitors”, J. Saudi Chem. Soc. 25 (2021) 101228. (IF 5.6)  
34. Lange A., Khan I., Dören R., Ashraf M., Qurashi A., Prädel L., Panthöfer M., Cossmer, A., Pfeifer J., Meermann B., Mondeshki M., Tahir N., Tremel W., “High-Speed Solid-State Fluorination of Nb2O5 Yields Nbo2f And Nb3O7F With Photocatalytic Activity for Oxygen Evolution from Water”, Dalton Trans., 50 (2021) 6528-6538 (IF 4.0)  

35. Khan, I., Jalilov, A., Fuji K., Qurashi, A., * “Quasi 1D Aligned Nanostructures for Solar Driven Water Splitting Applications: Challenges, Promises, and Perspective”, Solar RRL, 5 (2021) 2000741. (IF 7.9)  
36. Kashifa M., Jafaar E., Low W., Hoa D., Ahmad A., Abbas, A., Sahari, K., Ngaini, Z., Shafa, M., Qurashi A., “Organic Sensitization of Graphene Oxide and Reduced Graphene Oxide Thin Films for Photovoltaic Applications”, International Journal of Energy Research 45 (2021) 9657-9666. (IF 5.1) 
37.  Naikoo A., * Awan T., Hassan U., Salim H., Arshad F., Ahmed W., Asiri M., Qurashi A.,* “Nanomaterials Based Sensors for Respiratory Viral Detection: A Review”, IEEE Sensors Journal 21 (2021) 17643 – 17656. (IF 4.3) 
38. Lange A., Khan I., Opitz P, Ashraf M., Qurashi A., Prädel, L., Panthöfer M., Cossmer Pfeifer AJ, Simon F., Au M., Meermann B., Mondeshki M., Tahir N., and Tremel W., “High-Speed Fluorination of Ta2O5 by Spark Plasma Sintering Yields Ta3O7F and TaO2F with Photocatalytic Activity for Oxygen Evolution from Water”, Advanced Materials 33 (2021) 2007434 (IF 29.4)  
39. Maalej N., Qurashi A., Bennour I., Haddad R., Shaikh N., Ilyas M., Amara B., Maalej R., Gondal A., “Green Emitting Rare Earth Gd2O3:Tb3+ Nanoparticles for Rapid Imaging of Latent Fingerprint”, Methods and Applications in Fluorescence 9 (2021) 025002  (IF 3.2) (With KFUPM affiliation)  
40. Singh D., Chauhan MA., Quraishi MA., Quraishi A., “Recent Trends in Environmentally Benign Sweet Corrosion Inhibitors: A Critical Review”, Journal of Molecular Liquids 326 (2021) 115117 (IF 6.0) ) (Top 1% cited in field Clarivate) 
41. Khan A., Qurashi A., Badeghaish W., Noui-Mehidi MN., Aziz MA., “Frontiers and Challenges in Electrochemical Corrosion Monitoring; Surface and Downhole Applications”, Sensors 20 (2020) 6583 (IF 3.9)  
42. Mushtaq U., Bhat S.,  Parray A., Habib S., Wani H., Qurashi A., Siddiqui KS., Khanday FA., “A Simple Economic and Environmental-Friendly Method for Staining Protein Gels Using an Extract from Walnut-Husk”, Chemico-Biological Interactions 333, (2021)109310 (IF 5.1)  
43. Alghazal M., Qurashi A., * “Amorphous Nickel Sulfide Nanostructured Film Photocathode for Solar Hydrogen Production”, World Journal of Chemical Education, 8 (2020) 150-154. (Educational Journal) 
44. Ullah H., Yamani H., Qurashi A., Iqbal J., Safeen K., “Study of the Optical and Gas Sensing Properties of In2O3 Nanoparticles Synthesized by Rapid Sonochemical Method”, Journal of Materials Science: Materials in Electronics  31  (2020) 17474-17481. (IF 2.8)    
45. Munir A., Haq TU., Hussain I., Ullah I., Hussain SZ., Iqbal J., Qurashi A., Rehman A., Hussain I., “Controlled Assembly of Cu/Co‐oxide Beaded Nanoclusters on Thiolated Graphene Oxide Nanosheets for High Performance Oxygen Evolution Reaction”, Chemistry A European Journal 26 (2020) 11209-11219. (IF 4.3)  
46. Hardwick T., Qurashi A., Shirinfar B., Nisar A., “Interfacial Photoelectrochemical Catalysis: Solar‐Induced Green Synthesis of Organic Molecules” ChemSusChem 13 (2020) 1967-1973 (IF 8.4)  
47. Munir A., Haq U., Saleem M., Qurashi A., Hussain SZ, Sher F., Jilani A., Hussain I., “Controlled Engineering of Nickel Carbide Induced Enriched Carbon Nanotubes For Hydrogen And Oxygen Evolution Reactions in Wide pH Range”, Electrochimica Acta 341 (2020) 136022. (IF 6.6) 

48. Rehman S., Asiri M., Khan A., Jerrmy R, Ravinayagam V., Alsalem ZH., Reem R., and Qurashi A.,* “Anticandidal and In-vitro Anti-Proliferative Activity of Sonochemically synthesized Indium Tin Oxide Nanoparticles”, Scientific Reports 10 (2020) 3228. (IF 4.6)  
49. Munir A., Haq U., Hussain I., Qurashi A., Ullah U., Iqbal J., Hussain I., “Ultrasmall Co@Co(OH)2 Nanoclusters Embedded in N‐Enriched Mesoporous Carbon Network as Efficient Electrocatalysts for Durable Water Oxidation”,  ChemSusChem 12 (2019) 5117 5125 (IF 8.4) 

Qirol Fahd universitetida nashr etilgan maqolalar (KFUPM)

50. Khan A., Khan I., Khan Y., Dafallah H., Qurashi A., * “Facile Synthesis of 1T-WS2/graphite Nanocomposite for Efficient Solar-driven Oxygen Evolution Reaction”, International Journal of Hydrogen Energy 45 (2020) 4045-24053 (IF 7.2)  
51. Yun S., Vlachopoulos N., Qurashi A., Ahmad S., Hagfeldt A., “Dye Sensitized Photoelectrolysis Cells”, Chem. Soc. Rev., 48 (2019) 3705-3722  (IF 46.2) (Top 1% cited in field Clarivate) 
52. Qamaruddin M., Khan I., Olagoke O., Ganiyu A., Qurashi A., * “Sulfur Doped Ceria-Titania (S-CeTiO4−X) Nanocomposites for Enhanced Solar-Driven Water Splitting”, Solar Energy 188 (2019) 890–89789. (IF 6.7)  
53. Rehman S., Asiri M., Khan A., Jeremy R, Khan H., Akhtar S., Jindan R., Khan M., Qurashi A., * “Biocompatible Tin Oxide Nanoparticles: Synthesis, Antibacterial, Anticandidal and Cytotoxic Activities”, Chemistry Select 4 (2019) 4013-4017. (IF 2.1)  
54. Abdalla A., Khan I.,   Sohail M., Qurashi A., * “Au/Ga2O3/ZnO Heterostructure Nanorods Arrays for Effective Photoelectrochemical Water Splitting”, Solar Energy 181 (2019) 333–338. (IF 6.7)  
55. Shemsi M., Khanday A., Qurashi A., Khalil A., Guerriero G., and Siddiqui S.,“Directed Chemically-Modified Magnetic Enzymes: Fabrication, Improvements, Biotechnological Applications and Future Prospects”, Biotechnology Advances  37 (2019) 357– 381. (IF 16)  
56. Khan I., Baig N., Qurashi A., * “Graphitic Carbon Nitride Impregnated Niobium oxide (gC3N4/Nb2O5) Type (II) Heterojunctions and its Synergetic Solar-driven Hydrogen Generation”, ACS Applied Energy Materials 2 (2019) 607–615. (IF 6.02)  
57. Abdalla A.,   Khan I., Sohail M., Qurashi A., * “Au/Ga2O3/ZnO Heterostructure Nanorods Arrays for Effective Photoelectrochemical Water Splitting”, Solar Energy 20 (2019) 333-338 (I.F. 6.7)  
58. Munir A., Haq U., Qurashi A., Rehman H., Hamid A., and Hussain I., “Ultrasmall Ni/NiO Nanoclusters on Thiol Functionalized and Exfoliated Graphene Oxide Nanosheets for Durable Oxygen Evolution Reaction”, ACS Applied Energy Materials 2 (2018) 607-615. (IF 6.02)  
59. Munir A., Joya S., Haq U., Babar U., Hussain Z., Qurashi A., Ullah N., and Hussain I., “Metal Nanoclusters: New Paradigm in Catalysis for Water Splitting, Solar and Chemical Energy Conversion”, ChemSusChem 12 (2019) 1–33. (IF 8.4)  
60. Dmitri S., Tahir N., Khan I., Qurashi A., Lu H., Weidner T., and Tremel W., “Solvothermal Synthesis of Molybdenum-Tungsten-Oxides and Their Application for Photo-electrochemical Hydrogen Evolution Reaction”, ACS Sustainable Chem. Engg. 6 (2018) 11235–11245. (IF 8.4)  

61. Khan I., Qurashi A., * “Sonochemical-Assisted In situ Electrochemical Synthesis of Ag/α Fe2O3/TiO2 Nanoarrays to Harness Energy from Photoelectrochemical Water Splitting”, ACS Sustainable Chem. Eng. 6 (2018) 12641–12649.  (IF 8.4)  
62. Naik M., Lee S., Qurashi A.,“Chemically Grafted Aminated Carbon Nanotubes And L Lysine In Ultra-Modified Conditions For Carbon Dioxide Storage”, ACS Omega 3 2018 10442-10448. (IF 4.1)  
63. Khan I., Khalil A., Khanday F., Shemsi M., Qurashi A., * Siddiqui S., “Synthesis, Characterization and Applications of Magnetic Iron Oxide Nanostructures”, Arabian Journal for Science and Engineering 43 (2018) 43-61 (IF 2.9)  
64. Nisar U., * Mansha M., Khan I., Qurashi A., * “Nanomaterial-Based Optical Chemical Sensors for the Detection of Heavy Metals in Water: Recent Advances and Challenges”, Trends in Analytical Chemistry 100 (2018) 155-166 (IF 13.1)  
65. Khan I., Qurashi A., * Golibjon B., Naseer I., Katsushi F., Zain Y., “Single-step Strategy for the Fabrication of GaON/ZnO Nanoarchitectured Photoanode their Experimental and Computational Photoelectrochemical Water Splitting”, Nano Energy 44 (2018) 23-33 (IF 17.6)  
66. Mohammed A., Qurashi A., * & Nazeeruddin M K., * “Frontiers, Opportunities, and Challenges in Perovskite Solar Cells: A Critical Review”, Journal of Photochemistry and Photobiology c-photochemistry Reviews 35 (2018) 1-24.  (IF 13.6) (Top 1% cited in field Clarivate) 
67. Tanvir H., Al-Kuhaili, F., Durrani, A., Qurashi A., Qayyum A., “Enhancement in the Solar Light Harvesting Ability of Tungsten Oxide Thin Films by Annealing in Vacuum and Hydrogen”, International Journal of Hydrogen Energy 42 (2017) 28755-28765. (IF 7.2)  
68. Khan I., Qurashi A., * “Shape Controlled Synthesis of Copper Vanadate Platelet Nanostructures, Their Optical Band Edges, and Solar-Driven Water Splitting Properties”, Scientific Reports 7 (2017) 14370. (IF 4.6)  
69. Berdiyorov R., Qurashi A., Eshonqulov G., El-Mellouhi F., “Effect of Surface Symmetry on the Dissociative Adsorption of Water on Gallium Oxynitride”, J. Phys. Chem. C, 121 (2017) 20751-20755 (IF 3.7)  
70. Abdulmajeed H., Al-Kuhaili F., Durrani A., Faiz M., Hamid A.,   Qurashi A.,   Ibrahim K., “Tunable Visible Light Absorption of MoO3-Cdte Composite Thin Films”, Thin Solid Films 636 (2017) 137–143 (IF 2.1)  
71. Khan I., Shahid A., Muhammad M., Qurashi A., * “Sonochemical Assisted Hydrothermal Synthesis of Pseudo-Flower Shaped Bismuth Vanadate (BiVO4) and Their Solar-Driven Water Splitting Application”, Ultrasonics Sonochemistry 36 (2017) 386–392 (IF 8.4)   
72. Mansha M., Ibrahim K., Ullah N., Qurashi A., “Synthesis, Characterization and Visible Light-Driven Photoelectrochemical Hydrogen Evolution Reaction of Carbazole-   Containing Conjugated Polymers”, International Journal of Hydrogen Energy 42 (2017) 10952-10961 (IF 7.2)  
73. Mansha M., Khan I., Qurashi A., Manzar S, Ullah N., “Visible-Light Driven Photocatalytic Oxygen Evolution Reaction from New Poly (Phenylene Cyanovinylenes”, Dyes and Pigments, 143 (2017) 95-102 (IF 4.5)  
74. Nilamadanthai A., Imran G., Qurashi A., Arumugam P., Shanmugam M., “Confinement of Mn3+ Redox Sites in Mn-KIT-6 and its Catalytic Activity for Styrene Epoxidation”, Journal of Mesoporous and Microporous Materials 247 (2017) 190-197 (IF 5.2) 

75. Naseer I.,   Khan I., Yamani H., Qurashi A., * “A Facile One-Step Strategy for In-Situ Fabrication of WO3-BiVO4 Nanoarrays for Solar-Driven Photoelectrochemical Water Splitting Applications”, Solar Energy 144 (2017) 604–611 (IF 6.7)  
76. Khan I., Abdalla A., Manzar S., Qurashi A., * “Sonochemical Assisted Synthesis of RGO/ZnO Nanowire Arrays for Photoelectrochemical Water Splitting”, Ultrasonics Sonochemistry 37 (2017) 669–675  (IF 8.4)  
77. Hendi, Y., Al-Kuhaili, F., Durrani, A., Faiz, M., Ul-Hamid, A., Qurashi A.,   Ibrahim. K., “Modulation of the Band Gap of Tungsten Oxide Thin Films Through Mixing with Cadmium Telluride Towards Photovoltaic Applications”, Materials Research Bulletin 87 (2017) 148 154 (IF 5.4)  
78. Ibrahim K., Akram A., Qurashi A., * “Synthesis of Hierarchical WO3 and Bi2O3/WO3 Nanocomposite for Solar-Driven Water Splitting Applications”, International Journal of Hydrogen Energy 42 (2017) 3431- 3439  (IF 7.2)  
79. Bhat S., Qurashi A., * Khanday FA., “ZnO Nanostructures Based Biosensors for Cancer and Infectious Disease Applications: Perspectives, Prospects and Promises”, Trends in Analytical Chemistry 86 (2017) 1-13 (IF 13.1)  
80. Dar A., Nam H., Abdo H., Almajid A., Dong K., Qurashi A., Kim B., “Self-Assembled Co3O4 Nanoplatelets into Micro-spheres via a Simple Solvothermal Route: Structural and Electrochemical Properties”, Journal of Alloys and Compounds 695 (2017) 329-336 (IF 6.2)  
81. Ullah H., Khan I., Yamani H., Qurashi A., * “Sonochemical-Driven Ultrafast Facile Synthesis of SnO2 Nanoparticles: Growth Mechanism Structural Electrical and Hydrogen Gas Sensing Properties”, Ultrasonics Sonochemistry 34 (2017) 484-490 (IF 8.4)  
82. Abdalla A.,   Iqbal N.,   Khan I., and Qurashi A*., “Facile Synthesis of Tungsten Oxide - Bismuth Vanadate Nanoflakes as Photoanode Material for Solar Water Splitting”, International Journal of Hydrogen Energy 42 (2016) 3423-3430 (IF 7.2)   
83. Rather JA., Al Harthi AJ., Khudaish AA., Qurashi A.,   Munam A., Kannan P., “An Electrochemical Sensor Based on Fullerene Nanorods For the Detection of Paraben, An Endocrine Disruptor”, Analytical Methods 8 (2016) 5690-5700. (IF 3.1)   
84. Rather A., Khudaish A., Munam A., Qurashi A., Kannan P., “Electrochemically Reduced Fullerene–Graphene Oxide Interface for Swift Detection of Parkinsons Disease Biomarkers”, Sensors and Actuators B: Chemical 237 (2016) 672-684.  (IF 8.4)  
85. Faiz M., Qurashi A., * Tabet, N., “Rapid Microwave Assisted Synthesis of Zn1− X InXO Heterostructured Nanotetrapods and Their Hydrogen Sensing Properties”, Vacuum 130 (2016) 159-164  (IF 4.00)  
86. Naseer I., Khan I., Yamani H., Qurashi A., * “Sonochemical Assisted Solvothermal Synthesis of Gallium Oxynitride Nanosheets and their Solar-Driven Photoelectrochemical Water Splitting Applications”, Scientific Reports 6 (2016) 32319 (IF 4.6)  
87. Ansari M., Hassan S., Qurashi A., * Khanday A., “Microfluidic-integrated DNA Nanobiosensors”, Biosensors and Bioelectronics 85 (2016) 247-260 (IF 12.54)   
88. Mansha M.,   Qurashi A., * Ullah N., Bakare O., Khan I., Yamani H., “Synthesis of In2O3/Graphene Heterostructure and their Hydrogen Gas Sensing Properties”, Ceramics International 42 (2016) 11490–11495 (IF 5.2)  
89. Qurashi A., * Subrahmanyam KS., Kumar P., “Nanofiller Graphene–ZnO hybrid Nanoarchitecture: Optical, Electrical and Optoelectronic Investigation”, J. Mater. Chem. C 3 (2015) 11959-11964 (IF 6.4) 

90. Nabil M., Qurashi A., Assadi A., Maalej R., Nasiruzzaman S., Ilyas M., Gondal, A., “Synthesis of Gd2O3: Eu Nanoplatelets for MRI and Fluorescence Imaging”, Nanoscale Res. Lett. 10 (2015) 215 (IF 5.4)  
91. Qurashi A., * Zhang Z., Asif M., Yamazaki T., “Template-less Surfactant-free Hydrothermal Synthesis NiO Nanoflowers and their Photoelectrochemical Hydrogen Production”, International Journal of Hydrogen Energy 40 (2015) 15801-15805 (IF 7.2)  
92. Qurashi A., *   Rather A., Yamazaki T., Sohail M., Wael D, Merzougui B., Saeed A., “Swift Electrochemical Detection of Paraben an Endocrine Disruptor by In2O3 Nanobricks”, Sensors and Actuators B 221 (2015) 167–171 (IF.8.4)  
93. Avasare V., Zhang Z., Avasare D., Khan I., Qurashi A., * “Room-Temperature Synthesis of TiO2 Nanospheres and Their Solar Driven Photoelectrochemical Hydrogen Production”, Int. J. Energy Res. 39 (2015) 1714–1719 (IF 5.1)  
94. Asiah, N., Mamat, H., Khusaimi Z., Abdullah, S., Rusop M., Qurashi A., * “Templateless Surfactant-free Seed-mediated Synthesis of Mesoporous TiO2 Nanowires”, Microelectronic Engineering 136 (2015) 31–35 (IF 2.52)  
95. Qurashi A., * Alhaffar M., Yamani H., “Hierarchical ZnO/Zeolite Nanostructures: Synthesis, Growth Mechanism and Hydrogen Detection”, RSC Advances 5 (2015) 2257 -22577 (IF 3.36)  
96. Qurashi, A.,* “Facile Catalyst-free Straightforward Thermal Evaporation of Ultra-long Antimony Oxide Microwires: Synthesis and Characterization”, Superlattices and Microsturctures 81 (2015) 161–166. (IF 2.65)  
97. Asiah N., Mamat H., Khusaimi Z., Abdullah S., Rusop M., Qurashi A.,*  “Surfactant-free Seed-mediated Large-scale Synthesis of Mesoporous TiO2 Nanowires”, Ceramic International 41 (2015) 4260–4266 (IF 4.52)  
98. Hafeez U., Yamani H., Iqbal J., Qurashi A., * Hakeem A., “Rapid Sonochemical Synthesis of In2O3 Nanoparticles their Doping Optical, Electrical and Hydrogen Gas Sensing Properties”, Journal of Alloys and Compounds 616 (2014) 76–80. (IF 5.31) 
99. Humayun Q., Kashif M., Hashim U., Qurashi A., “Selective Growth of ZnO Nanorods on Microgap Electrodes and their Applications in UV Sensors”, Nanoscale Research Letters 9 (2014) 1-5 (IF 4.70)  
100.Qurashi, A*., “Structural and Optical Properties of Ultrathin ZnO Nanoneedles Grown on GaN Substrate by Hybrid Approach”, Journal of Physics and Chemistry of Solids 74 (2013) 166-169 (IF 3.99)  
101.Qurashi A., * Rather A., Wael D., Merzougui B., Tabet N., Faiz M., “Rapid Microwave Synthesis of High Aspect-ratio ZnO Nanotetrapods for Swift Bisphenol A Detection”, Analyst 138 (2013) 4764-4768 (IF 4.61). 
102.Maghraby M., Qurashi A., * Yamazaki, T., “Synthesis of SnO2 Nanowires their Structural and H2 gas Sensing Properties”, Ceramics International 39 (2013) 8475-8480 (IF 4.52) 
103.Mir, WA., Khatoon U., Qurashi A., “Synthesis and Characterization of Cu-SnO2 Nanoparticles Deposited on Glass Using Ultrasonic Spray Pyrolysis and their H2S Sensing Properties”, Current Nanoscience 8 (2012) 919-924 (IF 1.84)  
104.Barakat M., Hamza A., Deyab S., Qurashi A., Kim Y.H., “Titanium-based Polymeric Electrospun Nanofiber Mats as a Novel Organic Semiconductor”, Materials Science and Engineering: B 177 (2012) 34-42 (IF 4.05)  
105.Qurashi A., Kim J., Hahn B., “Etch-free Selective Area Growth of Well-Aligned ZnO Nanorod Arrays by Economical Polymer Mask for Large-area Solar Cell Applications”, Solar Energy Materials and Solar Cells 98 (2012) 476-481 (IF 7.26) 

106.Qurashi A., Kim H., Hahn B., “Direct Fabrication of ZnO Nanorods Array On- chip System in Solution and Their Electrical Properties”, Electrochemistry Communications 18 (2012) 88 91 (IF 4.72)  
107.Qurashi A., * Faiz M., Tabet N., Alam M., “Low Temperature Synthesis of Hexagonal ZnO Nanorods and Their Hydrogen Sensing Properties”, Superlattices and Microstructures 50 (2011) 173-180 (IF 2.65)  
108.Qurashi A., Kim H., Hahn, B., “Density-Controlled Selective Growth of Well- Aligned ZnO nanorod Arrays by Hybrid Approach”, Superlattices and Microstructures 48 (2010) 162-169 (IF 2.65)  
109.AbuDakka, M., Qurashi A., * Hari P.,   Alam M., “Formamide Driven Synthesis of Well aligned ZnO Nanorodarrays on Glass Substrate”, Materials Science in Semiconductor Processing 13 (2010) 115–118 (IF 3.92)  
110.Qurashi A., * Zhang Z., Alam W., “Synthesis and Properties of ά-Fe2O3 Nanoellipsoids”, Solid State Sciences 12 (2010) 1516-1519 (IF 3.05)  
111.Qurashi A., * Hussain F., Faiz M., Tabet N., Alam W., “Well Aligned and Hexagonal ZnO Nanorods and Their Dye Sensitized Solar Cell Applications”, Journal of Alloys and Compounds 503 (2010) L40-L43 (IF 5.31)  
112.Qurashi A., * Irfan F., Alam W., “In2O3 Nanostructures and their Chemical and Biosensor Applications”, Arabian Journal for Science and Engineering 35 (2010) 125-145 (IF 2.33)  
113.Qurashi A., * Maghraby E.,   Yamazaki T., Kikuta T., “Catalyst Supported Growth of In2O3 Nanostructures and Their Hydrogen Gas Sensing”, Sensors and Actuators B.  147 (2010) 48 54 (IF 7.46)  
114.Qurashi A.,    Hahn B., “Seedless Pattern Growth of Quasi- Aligned ZnO Nanorod Arrays on Glass Cover Slip for Biosensor Applications”, Nanoscale Res. Lett.  5 (2010) 669–674 (IF 4.70)  
115.Irfan F., Qurashi A., Alam W., “Metal oxide Nanostructures and Nanocomposites for Selective Catalytic Reduction of NOx: A Review”, Arabian Journal for Science and Engineering 35 (2010) 79-92 (IF 2.33)  
116.Qurashi A., Kim H., Lee S., Hahn, B., “Electrical and Gas Sensing Properties of ZnO Nanorod Arrays Directly Grown on a Four-probe Electrode System”, Electrochemistry Communications 12 (2010) 475–478 (IF 4.72)  
117.Reddy K., Devika M., Qurashi A., Gunasekhar R., “Growth of Orthorhombic SnS Nanobox Structures on Seeded Substrates”, Crystal Growth & Design 10 (2010) 4769–4772 (IF 4.07)  
118.Maghraby E., Qurashi A., Yamazaki T., “Synthesis of In2O3 Nanostructures: From Pyramidal Monuments, Nanotowers to Nanopencils”, J. Nanosci. Nanotechnol. 10 (2010) 4950-4954 (IF1.13) 
119.Qurashi A., *    Kim H., Hahn B., “Immobilization of Angiotensin II and Bovine Serum Albumin on Strip-patterned ZnO Nanorod Arrays”, J. Nanosci. Nanotechnol. 10 (2010) 4159 4165 (IF 1.13)  
120.Qurashi A., *   Maghraby E., Yamazaki T., Shen Y., Kikuta T., “A Generic Approach for Controlled Synthesis of In2O3 Nanostructures for Gas Sensing Applications”, Journal of Alloys and Compounds 481 (2009) L35-L39 (IF 5.31)  
121.Dar A., Qurashi A.,   Kim S., Kim B., Shin S., “Versatile Synthesis of Rectangular Shaped Nanobat-like CuO Nanostructures by Hydrothermal Method; Structural Properties and Growth Mechanism”, Applied Surface Science  255 (2009) 6279–6284 (IF 6.70) 

122.Qurashi A., * Maghraby E., Yamazaki T., Kikuta T.,“Catalyst-Free Shape Controlled Synthesis of In2O3 Pyramids and Octahedron: Structural Properties and Growth Mechanism”, Journal of Alloys and Compounds 480 (2009)  L9-L12 (IF 5.31)   
123.Reddy K., Qurashi A.,    Kim H., Woo H., Suh K., and Hahn B., “Effect of Annealing on the Physical Properties of ZnO Nanorods Grown by Solution Method”, Physica E.  41 (2009) 368-372 (IF 3.38)  
124.Shah A., Qurashi A., * “Novel Surfactant-free Synthesis of MgO Nanoflakes”, Journal of Alloys and Compounds 482 (2009) 548-551 (IF 5.31)  
125.Qurashi A., * Fiaz M., Tabet N., Yamazaki T., Ultra-fast “Microwave Synthesis of ZnO Nanowires and their Dynamic Response to Hydrogen Gas”, Nanoscale Research Letters 4 (2009) 948-954 (IF 4.70)  
126. Qurashi, A*., Maghraby E.,Yamazaki, T., Kikuta T.,“Fabrication and Gas Sensing Properties of In2O3 Nanopushpins”,  Appl. Phys Lett. 95 (2009) 153109-153111 (IF 3.71)  
127.Qurashi A.,   Kim SH., Kim JH., Hahn YB., “A Template-less Surfactant-free Seedless Aqueous Route to Single Crystalline ZnO Nanowires Synthesis”, Journal of Physics and Chemistry of Solids 70 (2009) 627-631 (IF 3.99) 
128.Reddy K., Qurashi A., Kim H., Hahn B., “Well-aligned ZnO Nanorods for Device Applications:  Synthesis and Characterization of ZnO Nanorods and n-ZnO/p-Si Heterojunction Diodes”, Europhysics Lett., 81 (2008) 38001-38006 (IF 1.94)  
129.Reddy K., Devika M., Reddy S., Qurashi A.,   Sumana R., Gopal R., Gunasekhar K.R., Ganesan V., Hahn YB., “Synthesis and Characterization of Nanocrystalline SnS Films Grown by Thermal Evaporation Technique”, Journal of Electrochemical Society 155 (2008) H130  H135 (IF 4.31)  
130.Reddy K., Qurashi A.,   Hahn B., “Fabrication of Zinc Oxide Nanorod Based Heterojunction Devices Using Simple and Economic Chemical Solution Method”, App. Phys. Lett.  93 (2008) 083124-083126 (IF 3.71)  
131.Reddy, K., Qurashi A.,   Kim H., Hahn B., “High-quality p-n Junction Diodes with Well aligned ZnO Nanorod structures”, Appl. Phys. lett. 92 (2008) 043127-043129 (IF 3.71)  
132.Qurashi A., Kim H., Reddy K., Hahn B., “Rose-like Microspheres and Hexagonal Microdisks of ZnO by a Surfactant-Free Solution Method”, Journal Indus. and Engg. Chem. 14 (2008) 578-583 (IF 6.06) 
133.Qurashi A.,   Kim H., Kim H., Hahn B., “Structural Properties and Growth Mechanism of Flower-Like ZnO Nanostructures Obtained by Simple Solution Method”, Materials Research Bulletin 43 (2008) 3483-3489 (IF 4.61)  
134.Reddy K., Qurashi A.,   Kim H., Hahn B., “Selection of Non-Alloyed Ohmic Contacts for Zno Nanostructure Based Devices”, Nanotechnology 18 (2007) 445710-445715 (IF 3.87)   
135.Qurashi A.,   Kim H., Hahn B., “Controlled Selective Growth of ZnO   Nanorod Arrays and their Field Emission Properties”, Nanotechnology 18 (2007) 485307-485312 (IF 3.87)   
136.Qurashi A., Umar A., and Hahn, B., “Growth of Aligned ZnO Nanorods and Nanopencils on ZnO/Si in Aqueous Solution: Growth Mechanism and Structural and Optical Properties”, Nanotechnology. 18 (2007) 115603-115609 (IF 3.87)

Konferensiyalar ro'yxati / Konferensiyalarda ishtirok

 • Mohamed Misbah and Qurashi A. et al. “Can Rare Earth Metal Ion Doping Prevent Corrosion In Seawater Electrolysis” best paper award in First AMCC New and Advanced Materials Symposium in Khalifa University November 23 2023.  
• Qurashi A “Hazardous Materials & Frontiers in Nanosensors for Trace Detection of Hazardous Materials” NCEMA National Event in Khalifa University Invited Talk 
• Qurashi A., “Electro and photoactive Materials for Clean Energy Applications” Invited Talk Materials Challenges in Alternative and Renewable Energy (MCARE 2023) August21-24, Seattle, USA.   
• Qurashi A., “Advanced Functional Nanomaterials for Clean Energy Applications” Invited Talk 15th International Green Energy Conference (IGEC-XV), July 10-13 2023, Glasgow, Scotland.  
• Qurashi A., “Development of Photo and Electro-active Materials for Clean Energy Applications” Invited Talk Sharjah International Conference on Physics of Advanced Materials (SICPAM), April 25-27, Sharjah, UAE.  
• Qurashi A.,  “Advanced Functional Materials for Clean and Sustainable Energy Applications” Invited Talk  in SIPS Yazami Symposium, Nov. 27-Dec 01, Phuket Thailand. 
• Qurashi A., “Advanced Functional Materials for Clean Energy and Sensing Applications” Invited Talk MEMS 2022, Nov. 21-23, NYUAD, Abu Dhabi, UAE.   
• Qurashi A., Rational Synthesis of Advanced Functional Nanomaterials for Renewable Energy Applications” Invited Talk, MCARE-2022 August 21-24 Busan South South Korea 
• Qurashi A., “Advanced Materials for Green Hydrogen Technology” Invited Talk International Conference on Nano Materials (INT) 2022 August 12- 14 Virtual MK University India. 
• Qurashi A., “Rational Design of Catalytic Materials for Clean Energy Generation and Storage Applications” Invited Talk ACS Qatar Chapter 9-11 May 2022  
• Qurashi A., “Green Hydrogen Technology Materials Prospective, and Regional Importance” Invited Talk, Hydrogen Utilization and Green Energy (HUGE), CeCAS, Khalifa University, May 31, 2021, Abu Dhabi UAE. 
• Qurashi A., “Development of Functional Materials for Water Splitting” Plenary Speaker in Advances in Chemical and Material Science 2019 (ICCM-2019) Mangalore University, October17-19, 2019, Mangalore, Karnataka, India.   
• Qurashi A., “Hybrid Metal Oxide Nanoarrays and their Synthesis, Characterization and Applications in Hydrogen Energy” invited talk in 5th International Conference on Nanotechnology, Nanomaterials & Thin Films for Energy Applications, NANOENERGY 2018, 18-20 July 2018, University of Aveiro, Aveiro, Portual.  
• Iqbal N., Khan, I., Yamani Z.H., Qurashi A., * “Sonochemical Assisted Solvothermal Synthesis of Gallium Oxynitride Nanosheets and their Solar-Driven Photoelectrochemical Water-Splitting Applications” paper presentation in MRS Fall 2016, Boston Nov. 26- Dec 02 2016, Boston, United States of America. 
•  Qurashi A., “Fabrication of Well-aligned Hetero-nanostructured arrays Nanocomposites and their Graphene Nanoarchitectures” paper presentation in NANOSMAT June 6-7, 2015, Manchester, United Kingdom. 

• Khan I., and Qurashi A., paper presentation in Artificial Photosynthesis KAUST February-13, 2016, Thuwal, Saudi Arabia.  
• Qurashi A., * “Metal oxide Sensor for Petroleum Industry Applications,” Conference proceedings in 14th International Meeting on Chemical Sensors – Proceedings of IMCS 6 541 – 542, 2012, Nuremberg, Germany. 
• Qurashi. A., Yamazaki, T., “Versatile Synthesis and Nanopatterning of In2O3 Nanostructures for Hydrogen Sensors Applications”, Conference proceedings IMCS 6, 1637-1639, 2012, Nuremberg, Germany. 
• Qurashi A., “Fabrication of In2O3 nanostructures for Hydrogen Sensors” paper presentation in Chemindex October 18-20, 2010, Bahrain.  
•  Qurashi A., Mir TA., Shinhora, H., Faiz, M., and Tabet, N., “Amperometric Detection of Hydrogen Peroxide by ZnO Tripod Nanostructures” paper presentation in IMCS-13, July11 14, 2010, Perth, Australia. 
• Faiz M., Qurashi A., Tabet, N., “Synthesis of Pure and In-doped ZnO Nanowires and their Dynamic Response to Hydrogen Gas” paper presentation in ICNAM May 4-7, 2009, Bahrain University, Bahrain. 
• Qurashi A., Yamazaki T., Kikuta T., “Synthesis Characterization and Gas Sensing Properties of TiO2 Nanostructures” conference proceedings in Chemical Sensor Symposium,48, 94-96, 2009, Tokyo, Japan. 
• Tabet N., Faiz M., Gaashani RA., Qurashi A., “Synthesis and Gas Sensing Properties of Zinc Oxide Nanostructures Obtained by a Novel Microwave Based Technique,” paper presentation in ICMAT July 3, 2009, Singapore.   
• Hahn B., Reddy K. Qurashi A., Kim H., “Temperature-Dependent Behavior of n-ZnO Nanorods/p-Si Diodes and Their Transport Mechanism” paper presentation in ISSLED April 27-2 May 2008, Phoenix, Arizona USA. 
• Qurashi, A., Maghraby M, Yamazaki T., Shin Y., Kikuta T., “A Generic Approach for Controlled Synthesis of In2O3 Nanostructures for Gas Sensing applications” paper presentation in VASSCAA-4, October 28-30, 2008, Matsue, Japan. 
• Qurashi A., Kim, H., Kim H., Hahn B., “Large-Scale Pattern-Controlled Growth of ZnO Nanopillars: Structural and Optical Properties” paper presentation in EMRS Spring May 29-4 June, 2008, Strausburg, France. 
• Qurashi A., Kim H., Kim H., Hahn B., “Structural and Field Emission Properties of Selectively-Grown ZnO Nanorod Arrays by Solution Method” paper presentation in MRS Fall, Boston, 27 Nov-Dec 3, 2007, Boston USA. 
• Reddy K., Qurashi A., Kim H., Kim H., Park K., Kim H., and Hahn B., “Contact Properties of ZnO Nanorods for Optoelectronic Device Applications” paper presentation in International Conference on Nanoscience and Nanotechnology November 8-9, 2007, Gwangju South Korea. 
•  Reddy K., Qurashi A., Kim H., Kim H., Park K, Kim H, and Hahn B, “Studies on the Performance of n-ZnO Nanorods-based Heterojunction Diodes” paper presentation in International Conference on Nanoscience and Nanotechnology, November 8-9, 2007, Gwangju, South Korea.

• Kim S., Qurashi A., Yang Y., Cha K., Suh K. Hahn B., and Lee S., “Characteristics of Oxygen Plasma Treated ZnO Nanowire Thin Films by Solution Method” paper presentation in International Conference on Nanoscience and Nanotechnology, November 8-9, 2007, Gwangju, South Korea. 
• Qurashi A., Kim H., Kim H., Kim H., and Hahn B.,“Density Controlled Selective Growth of Aligned ZnO Nanorod Arrays in Solution” paper presentation  in International Conference on Nanoscience and Nanotechnology November 8-9, 2007,  Gwangju, South Korea. 
• Reddy K., Qurashi A., Kim H., and Hahn B., “Electrical and optical properties of ZnO nanorods grown by solution method” paper presentation in KIChE, Fall, October 26-27, 2007, Daejan, South Korea. 
• Qurashi A., Kim H., Kim and Hahn B., “Selective Area Growth of 1D ZnO Nanostructures via Expedient Solution Method for Field Emission Device Applications” paper presentation in KIChE, Fall, October 26-27, 2007, Daejan, South Korea. 
• Qurashi A., Kim, H., Kim, H., Kim H., and Hahn B., “Position and Density Controlled Growth of 1D ZnO Nanorods for Novel Nanodevice Applications,” paper presentation in KIChE, Fall, October 26-27, Daejan, 2007, Daejan, South Korea. 
• Reddy K., Qurashi A., Kim H., and Hahn B., “Ohmic contacts for ZnO-based nanostructure devices,” paper presentation in 5th International Nanotech Symposium & Exhibition August 29 - 31,2007, Seoul, South Korea. 
• Qurashi A., Kim H., Park K., Reddy K., and Hahn B., “Guided selective growth of aligned ZnO nanorod arrays by facile solution method”, paper presentation   in 5th International Nanotech Symposium & Exhibition August 29-31, 2007, Seoul, South Korea. 
• Qurashi A., Reddy K., Kim H., Kim H., and Hahn B., “Zno Nanostructures For Photovoltaic Applications: Studies On Electrical And Optical Properties Of Uniformly Growth Zno Nanorods”, paper presentation in 5th International Nanotech Symposium & Exhibition August 29 - 31, 2007, Seoul, South Korea. 
• Qurashi A., Kim H., Park K., Kim H., Hahn B., “Novel Solution Method for Large-scale Selective-area Growth of Well-aligned ZnO Nanorods,” paper presentation in   ICMAT, July 2-7, 2007, Singapore. 
• Qurashi A., Kim H., Park K., Kim H., and Hahn B., “A Facile Solution Route for Large-Scale Selective Area Growth of Well-Aligned ZnO Nanorods on ZnO/Si substrate: Structural Optical and Field Emission Properties,” paper presentation in ICMAT, July 2-7, 2007, Singapore. 
• Qurashi A., Kim H., Kim H., and Hahn B., “Large-Scale Selective Growth of ZnO Nanorod Arrays and their Optical and Field Emission Properties’ paper presentation in EMRS, May 29 4 June 2007, Strasbourg, France. 
• Qurashi A., Kim H., Kim H., Park K., and Hahn B., Novel and Facile Solution Route for Selective Area Growth of Well Aligned ZnO Nanorods: Structural and Optical Properties” paper presentation in the 3rd Asia Pacific workshop on widegap semiconductors, March 11-14, 2007, Jeonju South Korea. 
• Qurashi A., Hahn B., “Optical and Field Emission Properties of ZnO Nanorods Selectively Grown Over Large-Scale Area” paper presentation in the 3rd Asia Pacific workshop on widegap semiconductors, March 11-14, 2007, Jeonju, South Korea.

• Qurashi A., Reddy K., Kim H., Kim H., Park S., and Hahn B., “Novel and Facile Solution Route for Large-Scale Selective Area Growth of Well-Aligned ZnO Nanorods on ZnO/Si Substrate: Structural Optical and Field Emission Properties” paper presentation in KIChE, Spring, April 18-19, 2007, Ulsan, South Korea. 
• Kim S., Qurashi A., Park D., Yang Y., Youn J., Hahn B., Lee J. “Electrical Characteristics of Vertically Aligned ZnO nanocolumn Grown by Solution Method” paper presentation in KPS, Spring, April 18-19, 2007, Kangwon-Do, South Korea. 
• Qurashi A., Reddy K., Kim H., Kim H., Park S., and Hahn B., “Novel and Facile Solution Route for Large-Scale Selective Area Growth of Well-Aligned ZnO Nanorods on ZnO/Si Substrate: Structural Optical and Field Emissio nProperties”. paper presentation in   KIChE, Spring, April 18-19, 2007, Ulsan South Korea. 
• Qurashi A., Umar A., Kim H., Im H., and Hahn B., “A Solution Method for Large-Scale Selective Growth of Aligned Zno Nanorods”, paper presentation in Materials Research Society (MRS) Fall Nov. 27-Dec. 1, 2006, Boston MA, USA. 
• Qurashi A., Umar A., Kim H., Kim H., Park K., and Hahn B., “A Surfactant-free Synthesis of ZnO Microspheres Composed of Curved Nanosheets and Hexagonal Microdisks by Low Temperature Solution Chemistry”, paper presentation in 7th Korea-Japan Symposium on Materials, October 19-21, 2006, Gyeongu, South Korea. 
• Qurashi A., Kim H., Umar A., Kim H., Park K., Hahn B., “A General Low Temperature Route for Large-scale Fabrication of High-aligned ZnO Nanorods, and Selective Growth of ZnO Nanorods with High Optical Properties,” paper presentation in 7th Korea-Japan Symposium on Materials, October 19-21, 2006, Gyeongu, South Korea. 
• Qurashi A., Park K., Umar A., Kim SH., Kim H. and Hahn B., “A template-less Surfactant free and Seedless Aqueous Route to Single Crystal ZnO Nanowires Synthesis: structural and optical properties”, paper presentation in 7th Korea-Japan Symposium on Materials, October 19-21, 2006, Gyeongu, South Korea. 
• Qurashi A., Umar A., Kim H, Kim H., Park S., Cheng J., and Hahn B, “Effect of Substrate on the Growth of ZnO Nanorods by Low Temperature Solution Method,” paper presentation in KIChE Fall Meeting, October 27-28 2006, Seoul, South Korea. 
• Qurashi A., Kim H., Umar A., Kim H., Park, S., Cheng J., Hahn B., “A General Low Temperature Route for Large-scale Fabrication of High-Aligned ZnO Nanorods,” paper presentation in KIChE Fall Meeting, October 27-28, 2006, Seoul, South Korea. 
• Qurashi A., Umar A., Kim H., Kim S., Park J., Hahn B “Interpenetrative Growth of ZnO Nanopushpin-like Nanorods and Acicular Growth of Nanorods by Low Temperature Solution Method on Copper Foil and Silicon Substrate,” paper presentation in KIChE Fall Meeting, October 27-28, 2006, Seoul, South Korea. 
• Qurashi A., Umar A., Kim H., Kim H., Park S., ChengLJ., and Hahn B., “Effect of Substrate on the Growth of ZnO Nanorods by Low Temperature Solution Method,” paper presentation in KIChE Fall Meeting, October 27-28, 2006, Seoul, South Korea. 
• Qurashi A., Kim H., Ra W., and Hahn B., “Template-less Surfactant-free and Seedless Aqueous Route to the Synthesis of Single Crystal ZnO Nanowires,” paper presentation in KIChE Spring Meeting, April 20-21, 2006, Daegu, South Korea. 

• Qurashi A., Kim H., Ra W., and Hahn B., “Template-less Surfactant-free and Seedless Aqueous Route to the Synthesis of Single Crystal ZnO Nanowires,” paper presentation in KIChE Spring Meeting, April 20-21, 2006, Daegu, South Korea. 
• Qurashi A., Kim H., Ra W., and Hahn B., “Shape-Controlled Synthesis of Flower-like ZnO Nanostructures via Simple Solution Chemistry,” paper presentation in KIChE Spring Meeting, April 20-21, 2006, Daegu, South Korea. 
• Qurashi A., Kim H., Ra W., and Hahn B.,“Shape-Controlled Synthesis of Flower-like ZnO Nanostructures via Simple Solution Chemistry,” paper presentation in KIChE Spring Meeting, April 20-21, 2006,  Daegu, South Korea. 
• Qurashi A., Umar A., Lim Y., Hahn B., “Formation of ZnO Microspheres made up of Nano petals and ZnO Hexagonal Microdisks at Low Temperature on Different Substrates,” paper presentation in the KIChE Fall Meeting, October 21-22, 2005, Incheon, South Korea. 

Xalqaro va mintaqaviy konferensiyalar tashkiliy qo'mitasi

• Xalqaro konferensiya tashkilotchisi, Metallar va muhandislik materiallari bo'yicha xalqaro konferensiya (https://www.engii.org/ws/Home.aspx?ID=620) 2015 yil 19-21 iyul, Shanxay, Xitoy 
• Kimyo va materialshunoslik sohasidagi yutuqlar 2019 (ICCM-2019), Mangalore universiteti, 2019 yil 17-19 oktyabr, Mangalore, Karnataka, Hindiston. 
• Nano materiallar bo'yicha xalqaro konferensiya (INT), 2022 yil 12-14 avgust, virtual. 
• Muqobil va qayta tiklanuvchi energiya bo'yicha materiallar muammolari (MCARE 2022), 2022 yil 21-24 avgust, Pusan, Janubiy Koreya 
• Ilm-fan va texnologiyalar orqali barqarorlik (SIPS) 2022, 2022 yil 27 noyabr - 1 dekabr, Puket, Tailand. 
• Nanotuzilma materiallari va polimerlar bo'yicha xalqaro konferensiya (ICNP 2023), 2023 yil 12-14 may, gibrid. 
• Grafen va ikki o'lchamli materiallar bo'yicha xalqaro sammit, 2023 yil 24-26 aprel, Valensiya, Ispaniya. Rol: qo'mita 
• Sharja ilg'or materiallar fizikasi bo'yicha xalqaro konferensiya (SICPAM), 2023 yil 26-29 aprel. Faqat sessiyalarni rais sifatida boshqargan. 
• 15-Xalqaro yashil energiya konferensiyasi (IGEC-XV), 2023 yil 10-13 iyul. Faqat sessiyalarni rais sifatida boshqargan. 
• Muqobil va qayta tiklanuvchi energiya bo'yicha materiallar muammolari (MCARE 2023), 2023 yil 21-24 avgust, Sietl, AQSh. 
• Ilm-fan va texnologiyalar orqali barqarorlik (SIPS) 2023, 2023 yil 27 noyabr - 1 dekabr, Panama. 
• Polimerlar, kompozitlar, nanokompozitlar va biokompozitlar bo'yicha xalqaro konferensiya 2023, 11-13 dekabr, Olmaota, Qozog'iston. 
• Amerika kimyo jamiyati (ACS) tomonidan Yaqin Sharq va Afrika (MEA) mintaqaviy konferensiyasi: Kelajakdagi barqaror jamiyatlar uchun kimyo, 2024 yil fevral.