Faculty Profile

Dr Mohammad Abul Hasnat

Professor

Contact Information

  • Office Address: Department of Chemistry, Shahjalal University of Science and Technology, Sylhet-3114, Bangladesh
  • Phone: +8801766497022
  • Email: mah-che@sust.edu, mahtazim@yahoo.com

Biography

Home address
Village: Golakandile (South)
PO: Bhulta, Rupganj, Narayanganj

Education

  • BSc (Chemistry), Dhaka University
  • MSc (Chemistry), Dhaka University
  • PhD (Electrocatalysis), Kumamoto University, Japan

Research Interests

  • Electrocatalysis, Electro-kinetics, Fuel cell, Surface Catalysis, Chemical sensor
  • ORCID ID: https://orcid.org/0000-0002-9441-3986
  • Researchgate: https://www.researchgate.net/profile/Dr_Mohammad_Abul_Hasnat
  • Google scholar: https://scholar.google.com/citations?user=LF2f0jQAAAAJ&hl=en
  • Scopus Author ID: 16202744200

Active Research Project

  • 1. Arsenic and Nitrate electrochemistry
  • 2. Amino Phenol oxidation
  • 3. Arsenic electrochemistry
  • 4. ORR, HER electrocatalysts

Previous Research Project

  • 1. Hydrogen peroxide decomposition
  • 2. Photocatalysis for environmental remediation
  • 3. Dye removal using various adsorbents
  • 4. Homogeneous Catalysis

External Affiliations

  • Kumamoto University, Japan (PhD)
  • Bath University, UK (visiting researcher)
  • Leiden institute of Chemistry, Netherlands (visiting researcher)
  • Visiting faculty, IROAST, Kumamoto University

Journal Publications

  • 1. Mohebul Ahsan, Tarannuma Ferdous Manny, Md Mosaraf Hossain, Md. Rezwan Miah, Md. Abdul Aziz, Mohammad Abul Hasnat. Spontaneous immobilization of thiocyanate onto Au surface for the detection of uric acid in basic medium, Surface and Interfaces
  • 2. Mohammad Abul Hasnat, Mohammad Imran Hossain, Mohebul Ahsan, Md. Fahamidul Islam. Recent developments in the utilization of nanomaterials for sensing platforms, ACS Symposium Series
  • 3. Mohebul Ahsan, Anim Dutta, Mehdi Akermi, Mohammad Mahtab Alam, S. M. Nizam Uddin, Nazia Khatun, Mohammad Abul Hasnat. Sulfur adlayer on gold surface for attaining H2O2 reduction in alkaline medium: Catalysis, Kinetics, and Sensing activities, Journal of Electroanalytical Chemistry
  • 4. Mohebul Ahsan, Muhammad Zobayer Bin Mukhlish, Nazia Khatun, Mohammad Abul Hasnat. pH dependent electro-oxidation of arsenite on gold surface: Relative kinetics and sensitivity, Heliyon
  • 5. Munira Siddika, Md. Mahmudul Hasan, Tahmida A. Oyshi, Mohammad A. Hasnat. Electrocatalytic Reduction of O2 by ITO-IrOx: Implication for Dissolved Oxygen Sensor in the Alkaline Medium, Electrochem
  • 6. Basmah H Alshammari, Humayra Begum, Fatma A Ibrahim, Mohamed S Hamdy, Tahamida A Oyshi, Nazia Khatun, Mohammad A Hasnat. Electrocatalytic Hydrogen Evolution Reaction from Acetic Acid over Gold Immobilized Glassy Carbon Surface, Catalysts
  • 7. Mohammad Imran Hossain, Mohammad A Hasnat. Spontaneous Growth of Nanoparticles for Utilization in Sensing Platforms, Journal of Mineral and Material Science (JMMS)
  • 8. Mohebul Ahsan, Md Musfiqur Rahman, Amjad E Alsafrani, Md Abdul Aziz, Albandary Almahri, Hadi M Marwani, Mohammed M Rahman, Mohammad A Hasnat. Immobilization of poly (o-aminophenol) film on Pt surface: A robust sensor for detecting As (III) in an acidic medium, Surfaces and Interfaces
  • 9. Md Nurnobi Islam, Abrar Y Abir, Jahir Ahmed, M Faisal, Jari S Algethami, Farid A Harraz, Mohammad A Hasnat. Electrocatalytic oxygen reduction reaction at FeS2-CNT/GCE surface in alkaline medium, Journal of Electroanalytical Chemistry
  • 10. Prottasha Kairy, Md Nurnobi Islam, Mohebul Ahsan, Md A Rashed, Amjad E Alsafrani, Hadi M Marwani, Albandary Almahri, Mohammed M Rahman, Mohammad A Hasnat. Electrocatalytic reduction of Cr (VI) on gold based electrodes in acidic medium: A systematic approach of chromium detection, Electrochimica Acta
  • 11. Md Nurnobi Islam, Jahir Ahmed, Mohd Faisal, Jari S Algethami, Kentaro Aoki, Yuki Nagao, Farid A Harraz, Mohammad A Hasnat. Efficient Electrocatalytic Hydrogen Evolution Reaction on CuO Immobilized Stainless‐Steel Electrode Prepared by the SILAR Method, ChemistrySelect
  • 12. Mohammad Imran Hossain, Mohammad A Hasnat. Recent advancements in non-enzymatic electrochemical sensor development for the detection of organophosphorus pesticides in food and environment, Heliyon
  • 13. Tayyaba Najam, Naseem Ahmad Khan, Syed Shoaib Ahmad Shah, Khalil Ahmad, Muhammad Sufyan Javed, Suleman Suleman, Muhammad Sohail Bashir, Mohammad A. Hasnat, and Mohammed M. Rahman. “Metal‐Organic Frameworks Derived Electrocatalysts for Oxygen and Carbon Dioxide Reduction Reaction.” The Chemical Record
  • 14. Md Fahamidul Islam, Riad H. Rakib, Khalid A. Alamry, Mohammed M. Rahman, and Mohammad A. Hasnat. “Electrocatalytic oxidation of catechol using IrOx-ITO electrode in aqueous medium.” Journal of Electroanalytical Chemistry
  • 15. Md Fahamidul Islam, Md Tarikul Islam, Md Mahmudul Hasan, Mohammed M. Rahman, Yuki Nagao, and Mohammad A. Hasnat. “Facile fabrication of GCE/Nafion/Ni composite, a robust platform to detect hydrogen peroxide in basic medium via oxidation reaction.” Talanta
  • 16. Mohebul Ahsan, Md Mosaraf Hossain, Albandary Almahri, Mohammed Muzibur Rahman, Mohammad Abul Hasnat, Optimisation and stability of Rh particles on noble metal films immobilised on H+ conducting solid polymer electrolyte in attaining efficient nitrate removal. Chemistry–An Asian Journal
  • 17. M. Musarraf Hussain, A. M. Asiri, M. A. Hasnat, S. Ben Aoun, M. M. Rahman, Detection of Acetylcholine in an Enzyme-Free System Based on a GCE/V2O5 NRs/BPM Modified Sensor, ChemistrySelect
  • 18. Humayra Begum, Mohammed M. Rahman, Mohammad A. Hasnat, Development of Pt/Au-Co composite electrode as a highly durable and efficient electrocatalyst for methanol electro-oxidation in alkaline media. International Journal of Energy Research
  • 19. Prottasha Kairy, Md Mosaraf Hossain, M. Azizur R. Khan, Albandary Almahri, Mohammed M. Rahman, Mohammad A. Hasnat, Electrocatalytic oxidation of ascorbic acid in the basic medium over electrochemically functionalized glassy carbon surface, Surfaces and Interfaces
  • 20. Md Shahadat Hussain Chowdhury, Mohebul Ahsan, Md Humayun Kabir, Syed Shamsul Alam, Mohammad Abul Hasnat, Decomposition of Hydrogen Peroxide using Chemical and Catalytic Methods: A Reactor-based Approach. Asian Journal of Chemistry
  • 21. Jahidul Hoq, Md. Fahamidul Islam, Md. Rezwan Miah, Mohammed M. Rahman, Albandary Almahri, Mohammad A. Hasnat, Development of [I(ads)|Au(pc)] electrode to attain electrocatalytic oxidation of paracetamol: An efficient platform for quantitative analysis, Journal of Environmental Chemical Engineering
  • 22. M. Musarraf Hussain, A. M. Asiri, M. A. Hasnat, S. Ben Aoun, M. M. Rahman, Detection of Acetylcholine in an Enzyme-Free System Based on a GCE/V2O5 NRs/BPM Modified Sensor, ChemistrySelect
  • 23. Abrar Yasir Abir, S. M. Nizam Uddin, Mahmudul Hasan, Md Abdul Aziz, Shaheen Shah, Jahir Ahmed, and Mohammad Abul Hasnat, Cu-electrodeposited gold electrode for the sensitive electrokinetic investigations of nitrate reduction and detection of the nitrate ion in acidic medium. Results in Chemistry
  • 24. Zannatul Mumtarin Moushumy, Mohammad Jobaer Hassan, Mohebul Ahsan, Md. Mahmudul Hasan, Md Nizam Uddin, Yuki Nagao, Mohammad A. Hasnat, Photocatalytic degradation of chlorazol yellow dye under sunlight irradiation using Ce, Bi, and N co-doped TiO2 photocatalyst in neutral medium, Environmental Science and Pollution Research
  • 25. Humayra Begum, Md Nurnobi Islam, Sami Ben Aoun, Jamil A. Safwan, Syed Shaheen Shah, Md Aziz, and Mohammad A. Hasnat, Electrocatalytic reduction of nitrate ions in neutral medium at coinage metal-modified platinum electrodes, Environmental Science and Pollution Research
  • 26. Mohammad Jobaer Hassan, Md. Fahamidul Islam, Nahida Akter, Md. Nizam Uddin, Abrar Yasir Abir, Sami Ben Aoun, Mohammad A. Hasnat*,Applicability of gypsum in selective removal of anionic dye molecules from aqueous medium , Applied Water Science 11 (2021)1-11.
  • 27. Mohammad A.Hasnat*, Munira Siddika, S.M. Nizam Uddin, Khalid A.Alamry, Mohammed M. Rahman, Fabrication of IrOx immobilized glassy carbon surface for attaining electrocatalytic ascorbic acid oxidation reactions, Electrochimica Acta (Impact factor 6.901)
  • 28. Fazle Shabik, Mahmudul Hasan, K.A.Alamry, Mohammed M. Rahmanad, Yuki Nagao, Mohammad A.Hasnat*, Electrocatalytic oxidation of ammonia in the neutral medium using Cu2O.CuO film immobilized on glassy carbon surface, Journal of Electroanalytical Chemistry (Impact factor: 4.46)
  • 29. Anim Dutta, Md. Mahmudul Hasan, Md. Rezwan Miah, Yuki Nagao, Mohammad A.Hasnat, Efficient sensing of hydrogen peroxide via electrocatalytic oxidation reactions using polycrystalline Au electrode modified with controlled thiol group immobilization, Electrochimica Acta ( IF: 6.901)
  • 30. Nahida Tanjila, Mohebul Ahsan, Sami Ben Aoun, IA Siddiquey, Syed Shamsul Alam, Mohammad Abul Hasnat, An Electrochemical Approach to As(V) Determination via an Interaction with Alizarin Red S in Aqueous Medium. Journal of Analytical Chemistry
  • 31. MD. Mahmudul Hasan, Riad Hussain Rakib, Mohammad A. Hasnat*, and Yuki Nagao, Electroless Deposition of Silver Dendrite Nanostructure onto Glassy Carbon Electrode and Its Electrocatalytic Activity for Ascorbic Acid Oxidation, ACS Appl. Energy Mater. 3(2020) 2907–2915.
  • 32. Z. Mumtarin, M. M. Rahman, H.M. Marwani, Mohammad A. Hasnat*,Electro-kinetics of conversion of NO3− into NO2−and sensing of nitrate ions via reduction reactions at copper immobilized platinum surface in the neutral medium. Electrochimica Acta 346 (2020) 135994
  • 33. Efdtekhar U. M. Aman, Md. Fahamidul Islam, Tahmid A. Chowdhury, Md. Saiful Alam, Md. Elias, Md. Nizam Uddin, Ahmed J. Samed & Mohammad A. Hasnat*,An electrochemical analysis of acute contamination of environmental water and restoring of water quality using taro carbon, Applied water Science 10 (2020) 148.
  • 34. Md. Tarikul Islam , Md. Mahmudul Hasan, Md. Fazle Shabik, Fahadul Islam , Yuki Nagao, Mohammad A. Hasnat*, Electroless deposition of gold nanoparticles on a glassy carbon surface to attain methylene blue degradation via oxygen reduction reactions, Electrochimica Acta 360 (2020)136966.
  • 35. Md. Saiful Alam, Mohammed M. Rahman, Hadi M. Marwani, Mohammad A. Hasnat*, Insights of temperature dependent catalysis and kinetics of electro-oxidation of nitrite ions on a glassy carbon electrode, Electrochimica Acta 362 (2020) 137102.
  • 36. Md. Fazle Shabik , Humayra Begum , Mohammed M. Rahman ,Hadi M. Marwani, Mohammad A. Hasnat*, Heterogeneous Kinetics of Thiourea Electro‐Catalytic Oxidation Reactions on Palladium Surface in Aqueous Medium, Chem. An Asian J. 15(2020) 4327-4338.
  • 37. Mohammed M. Rahman, M. M. Alam, Abdullah M. Asiri, K. A. Alamry and M. A. Hasnat, Facile SrO nanorods: an efficient and alternate detection approach for the selective removal of 4-aminophenol towards environmental safety, New Journal Chemistry 44(2020)15507-15514.
  • 38. Mohammed M. Rahman, Tahir Ali Sheikh, Abdullah M. Asiri, K. A. Alamry and M. A. Hasnat, Fabrication of an ultra-sensitive para-nitrophenol sensor based on facile Zn-doped Er 2 O 3 nanocomposites via an electrochemical approach, Anal. Methods, 12 (2020)3470-3483.
  • 39. Mohammed M.Rahman, Mohammad Musarraf Hussain, Abdullah M.Asiri, K.A.Alamri, M.A.Hasnat, An enzyme free detection of L-Glutamic acid using deposited CuO. GdO nanospikes on a flat glassy carbon electrode, Surfaces and Interfaces 20 (2020) 100617.
  • 40. Mohammad A. Hasnat, N. Tanjila, Md. Musfiqur Rahaman, Mohammed. M.Rahman, Electrochemical Methods for the Detection of Toxic As(III) and As(V) from Natural Water, Combined Application of Physico-Chemical & Microbiological Processes for Industrial Effluent Treatment Plant pp 315-337 (Book Chapter)
  • 41. J Ahmed, RH Rakib, MM Rahman, IA Siddiquey, SSM Islam, AM Asiri, Mohammad A. Hasnat*, Electrocatalytic Oxidation of 4‐Aminophenol Molecules at an FeS2/Carbon Nanotube Immobilized Glassy Carbon Electrode Surface in an Aqueous Medium, ChemPlusChem, 84 (2019) 175–182.
  • 42. Md. Saiful Alam, M.F.Shabik, Mohammed M.Rahman, Maneldel Valle, Mohammad A. Hasnat*, Enhanced electrocatalytic effects of Pd particles immobilized on GC surface on the nitrite oxidation reactions , Journal of Electroanalytical Chemistry 839(2019)1-8,
  • 43. Mohammad A. Hasnat*, Z. Mumtarin, M.M. Rahman, Electrocatalytic reduction of hydroxylamine on copper immobilized platinum surface: Heterogeneous kinetics and sensing performance, Electrochimica Acta, 318 (2019) 486-495.
  • 44. Riad H. Rakib, Mohammad A. Hasnat, Md. Nizam Uddin, M M Alam, Abdullah M. Asiri,Mohammed M. Rahman, and Iqbal Ahmed Siddiquey , Fabrication of a 3,4-Diaminotoluene Sensor Based on a TiO2-Al2O3 Nanocomposite Synthesized by a Fast and Facile Microwave Irradiation Method, Chemistry Select 4(2019)12592–12600.
  • 45. Jahir Ahmed, Mohammed M. Rahman, Iqbal A. Siddiquey, Abdullah M. Asiri and Mohammad A. Hasnat*, Efficient hydroquinone sensor based on zinc, strontium and nickel based ternary metal oxide (TMO) composites by differential pulse voltammetry, Sensors and Actuators B: Chemical 256 (2018) 383-392.
  • 46. Md. Mahbubul Alam, Md. A. Rashed, Md. Musfiqur Rahman, Mohammed M. Rahman, Yuki Nagao and Mohammad A. Hasnat*, Electrochemical oxidation of As(III) on Pd immobilized Pt surface: kinetics and sensing performance, RSC Adv. 8(2018)8071-8079.
  • 47. Mohammad A. Hasnat* , Mohammad M. Hasan, Nahida Tanjila, Md Mahbubul Alam, Md Musfiqur Rahman,pH dependent kinetic insights of electrocatalytic arsenite oxidation reactions at Pt surface, Electrochimica Acta 225 (2017)105–113.
  • 48. E. Zangrando, M.S. Begum, M.C. Sheikh, R. Miyatake, M.M. Hossain, M.M. Alam, M.A. Hasnat*, M.A. Halim, S. Ahmed, M.N. Rahman, A. Ghos, Synthesis, characterization, density functional study and antimicrobial evaluation of a series of bischelated complexes with a dithiocarbazate Schiff base ligand, Arabian Journal of Chemistry 10 (2017) 172-184.
  • 49. Jahir Ahmed, Mohammed M. Rahman, Iqbal A. Siddiquey, Abdullah M. Asiri, Mohammad A. Hasnat*, Efficient Bisphenol-A detection based on the ternary metal oxide (TMO) composite by electrochemical approaches, Electrochimica Acta, 246(2017) 597-605.
  • 50. Hashi Akhter, Jannatul Murshed, Md. A. Rashed, Yoshifumi Oshima, Yuki Nagao, Mohammed M. Rahman, Abdullah M. Asiri, M.A. Hasnat, Md. Nizam Uddin, Iqbal Ahmed Siddiquey,Fabrication of hydrazine sensor based on silica-coated Fe2O3 magnetic nanoparticles prepared by a rapid microwave irradiation method,Journal of Alloys and Compounds 698 (2017) 921-929.
  • 51. Nahida Akter, Md. Asjad Hossain, M. Jobaer Hassan, M.K. Amin, M. Elias, Mohammed M. Rahman, Abdullah M. Asiri, Iqbal A. Siddiquey, M. A. Hasnat*, Amine modified tannin gel for adsorptive removal of Brilliant Green dye, Journal of Environmental Chemical Engineering 4 (2016) 1231–1241.
  • 52. N.Rabin, A. Rony, M.A. Hasnat, I.A. Siddiquey, Surface Modification of the ZnO Nanoparticles with γ-Aminopropyltriethoxysilane and Study of Their Photocatalytic Activity, Optical Properties and Antibacterial Activities
  • 53. M.S. Begum, E. Zangrando, M.B.H. Howlader, M.C. Sheikh, R. Miyatake, M.M. Hossain, M.M. Alam, M.A. Hasnat, Synthesis, characterization, photoluminescence and electrochemical studies of NiII, CuII, ZnII, CdII and PdII complexes of the bidentate S-hexyl-β-N-(2-thienyl)methylenedithiocarbazate ligand, Ployhedron 2016(105)56-61.
  • 54. Mohammed M. Rahman, Jahir Ahmed, Abdullah M. Asiri, Iqbal A. Siddiquey, Mohammad A. Hasnat*, Development of 4 methoxyphenol chemical sensor based on NiS2-CNT nanocomposites, Journal of the Taiwan Institute of Chemical Engineers 64(216)157-165.
  • 55. P.P. Koay, Md. Saiful Alamb, M.M. Alamb, Mohammad Etesami, Mohammad A. Hasnat*, N. Mohamed, Electrochemical reduction of nitrate at a poly crystalline SnCu modified platinum surface by using an H+ conducting solid polymer in a sandwich type membrane reactor, Journal of Environmental Chemical Engineering, 4(2016)4494–4502.
  • 56. Nahida Tanjila, Asif Rayhan, Md. Saiful Alam, Iqbal A. Siddiquey and Mohammad A. Hasnat*, Electrochemical and spectroscopic insights of interactions between alizarin red S and arsenite ions, RSC Adv., 6(2016)93162-93168.
  • 57. Mohammed M. Rahman, Jahir Ahmed, Abdullah M. Asiri, Iqbal A. Siddiquey and Mohammad A. Hasnat*, Development of highly-sensitive hydrazine sensor based on facile CoS2–CNT nanocomposites, RSC Adv., 6(2016)90470-90479.
  • 58. Mohammed M. Rahman, Bahaa M. Abu-Zied, Mohammad M. Hasan, Abdullah M. Asiri and Mohammad A Hasnat* ,Fabrication of selective 4-amino phenol sensor based on H-ZSM-5 zeolites deposited silver electrodes, , RSC Advances 6(2016)48435-48444.
  • 59. M.A. Hasnat*, Jamil Safwan, Md. Abu Rashed, Zidnia Rahman, Mohammed M. Rahman, Yuki Nagao and Abdullah M. Asiri, Inverse effects of supporting electrolytes on the electrocatalytic nitrate reduction activities in a Pt|Nafion|Pt-Cu type reactor assembly, RSC Adv. 5(2015)9912-9919.
  • 60. M. A. Hasnat *, M. A. Islam, S. Ben Aoun ,J. A. Safwan, M. M. Rahman, A. M. Asiri, Composite noble metal films/H+ conducting solid polymer electrolyte assemblies: Optimization of nitrate reduction activities in the asymmetric sandwich type reactor, ChemPlusChem 2015 (80) 1634–1641.
  • 61. M. A. Hasnat ,* Mohammed M. Rahman , I.A. Siddiquey , S.M. Borhanuddin, M. Saiful Alam, M. H. Rahman and Abdullah M. Asiri, Aggregated Pt–Pd nanoparticles on Nafion membrane for impulsive decomposition of hydrogen peroxide, RSC Advances,2015,5, 46295–46300.
  • 62. M. A. Hasnat*, Sami Ben Aoun, Mohammed M. Rahman, Abdullah M. Asiri, Norita Mohamed, Lean Cu-immobilized Pt and Pd films/–H+ conducting membrane assemblies: Relative electrocatalytic nitrate reduction activities, Journal of Industrial and Engineering Chemistry 28( 2015)131-137.
  • 63. M. A. Hasnat*, Muhammad Amirul Islam and M. A. Rashed, Influence of electrode assembly on catalytic activation and deactivation of a Pt film immobilized H+ conducting solid electrolyte in electrocatalytic reduction reactions, RSC Adv.5(2015)9912-9919.
  • 64. M.M. Alam, M.A. Hasnat*, M.Nizam Uddin, A. Ryhan, N.Ahmed, S. Amertharaj, Nitrate detection activity of Cu particles deposited on pencil graphite by fast scan cyclic voltammetry, J. Anal. Chem 70(2015)60-66.
  • 65. M.A. Hasnat*, Jamil A. Safwan, M. Shariful Islam, Zidnia Rahman, Mohammad Razaul Karim, Talha J. Pirzada, Ahmed Jalal Samed, Mohammed M. Rahman, Electrochemical decolorization of Methylene blue at Pt electrode in KCl solution for environmental remediation, Journal of Industrial and Engineering Chemistry 21(2015)787–791.
  • 66. M.A. Hasnat*, S. Ben Aoun , S. M. Nizam Uddin ,M. Mahbubul Alam, P. P. Koay, S. Amertharaj , M.A. Rashed, Mohammed M. Rahman , N. Mohamed, Copper-immobilized platinum electrocatalyst for the effective reduction of nitrate in a low conductive medium: Mechanism, adsorption thermodynamics and stability, Applied Catalysis A 478 ( 2014) 259–266.
  • 67. Ahmed Jalal Samed , M.A. Hasnat , Masato Machida , A composite photocatalyst for methylene blue degradation under visible light irradiation, Asian Journal of Chemistry 26 (2014)
  • 68. S. Amertharaj, MA Hasnat*, N Mohamed, Electroreduction of nitrate ions at a platinum-copper electrode in an alkaline medium: Influence of sodium inositol phytate, Electrochimica Acta 136 (2014)557-564.
  • 69. M.A. Hasnat*, M.A. Rashed, S. Ben Aoun, S. M. Nizam Uddin, M. Saiful Alam, S. Amertharaj, R. K. Majumder, N. Mohamed, Dissimilar catalytic trails of nitrate reduction on Cu-modified Pt surface immobilized on H+ conducting solid polymer, Journal of Molecular Catalysis A: Chemical 383–384 (2014) 243–248.
  • 70. M. A. Hasnat, Andrew J. Gross, Sara E. C. Dale, Edward O. Barnes, Richard G. Compton and Frank Marken, A dual-plate ITO–ITO generator–collector microtrench sensor: surface activation, spatial separation and suppression of irreversible oxygen and ascorbate interference, Analyst139 (2014) 569-575.
  • 71. M. Maria Rahman, N. Sultana, Mohammad Razaul Karim , N. Ahmad, I. A. Siddiquey, N.M. Bahadur, M.A. Hasnat*, Optimization, Kinetic and thermodynamic studies for removal of Brilliant Red (X-3B) using Tannin gel, Journal of Environmental Chemical Engineering 2 (2014) 76-83.
  • 72. Soh Wen Min, M.A. Hasnat, Afidah Abd Rahim, Norita Mohamed, Optimization of the batch reactor for the removal of cobalt ions from chloride media, Chemosphere 90 (2013) 674–682.
  • 73. N.M. Hanis, F. Karonian, M. Ehtadsami, M. A. Hasnat, W. Soh, N. Mohamed, Impulsive removal of Pb(II) at 3-D reticulated vitreous carbon cathode, Chemical Engineering Journal 203 (2012) 123-129.
  • 74. M. Saiful Alam, M.A. Hasnat*,, M.A. Rashed, Md. Rezwan Miah, Saiful S.M. Islam , Electrocatalytic formation of NO2− at a poly crystalline Ag surface in neutral medium, ElectrochimicaActa 76 (2012) 102– 105.
  • 75. T. W. Xin, M.A. Hasnat, N.M. Hanis, N. Mohamed, Influence of flow rates on the electrogenerative Co2+ recovery at a reticulated vitreous carbon cathode, Chemical Engineering Journal 189–190 (2012) 182–187.
  • 76. F.S. Karonian, M. Ehtasami, M.A. Hasnat, N. Mohamed, Spontaneous Au Electrodeposition on 3-D porous graphite for electrocatalytic applications, Catalysis Communications 23 (2012) 14-17.
  • 77. M.A. Hasnat*, N. Ahamad, S.M. Nizam Uddin, N. Mahamed, Silver modified platinum surface/H+ conducting Nafion membrane for cathodic reduction of nitrate ions, Applied Surface Science 258 (2012) 3309-3314.
  • 78. M.A. Hasnat*, M. Saiful Alam, M.H. Mahbub-ul Karim, M.A. Rashed, M. Machida, Divergent catalytic behaviors of Pt and Pd films in the cathode of a sandwiched type membrane reactor, Applied Catalysis B 107 (2011) 294– 301.
  • 79. M.M. Rahman,, R. Saha,, B. Ahmed, M.M. Rahman, M.A. Uddin, M.A. Yusuf, M.A. Hasnat*, Light induced kinetic studies of oxidative degradation of malachite green, Asian J. Chem. 23 (3) (2011) 945-949.
  • 80. M.A. Islam, I.A. Siddiquey, M.A.R. Khan, M.M. Alam, S.S.M. Islam, M.A. Hasnat*,Adsorption and UV-Visible Light Induced Degradation of Methylene Blue over ZnO Nano-Particles, International Journal of Chemical Reactor Engineering Note S8, Volume 9, June 2011.
  • 81. M.A. Hasnat*,, M.Maria Rahman, S.M. Borhanuddin , Aesha Siddiqua, N.M. Bahadur, M.R. Karim, Efficient hydrogen peroxide decomposition on bimetallic Pt-Pd surfaces, Catalysis Communications 12 (2010) 286-291.
  • 82. M. Maria Rahaman, M. Amirul Islam, M. Afsar Uddin, M. Yousuf, M.A. Hasnat*, Influence of Irradiation on Fenton Degradation of Brilliant Red X–3B, Int. J. Chem. React. Eng. Article 144.
  • 83. Duca, B. van der Klugt, M.A. Hasnat, M.Machida, M.T.M. Koper, Electrocatalytic reduction of nitrite on a rhodium electrode, Journal of Catalysis 275 (2010) 61-69.
  • 84. M.A. Hasnat*, M.A. Rashed, M. Saiful Alam, M.Maria Rahman, S. Hossain, Electrocatalytic reduction of NO2-: Platinum Modified Glassy Carbon Electrode, Catalysis Communications 11 (2010) 1085-1089.
  • 85. M.A. Hasnat*, M. Amirul Islam, S.M. Borhanuddin, M.R. Ullah Chowdhury, M. Machida , Influence of Rh on electrocatalytic reduction of NO3- and NO2- over Pt and Pd films, Journal of Molecular Catalysis A: Chemical 317 (2010) 61–67.
  • 86. M.A. Hasnat, M.R. Karim, M. Machida , Electrocatalytic ammonia synthesis: Role of cathode materials and reactor configuration, Catalysis Communications10 (2009) 1975–1979.
  • 87. M.A. Hasnat, R. Agui, H. Hinokuma, T. Yamaguchi, M. Machida, Different reaction routes in electrocatalytic reduction of nitrate and nitrite ionsin water using H+ conducting solid electrolytes, Catalysis Communications 10 (2009) 1132–1135.
  • 88. M.A. Hasnat, R. Agui, H. Hinokuma, T. Yamaguchi, M. Machida , Electrocatalytic reduction of nitrate using Cu–Pd and Cu–Ptcathodes/H+–conducting solid polymer electrolyte membrane assemblies, Bull. Chem. Soc. Jpn. 81 (2008) 1675–1680.
  • 89. M.M. Rahman, M.A. Hasnat, I.A. Siddiquey, S.M. Islam, Degradation of procion red MX–5B by heterogeneous and homogeneous catalytic processes, International journal of scientific research 17 (2008) 69–74.
  • 90. Ratan K. Majumder, M.A. Hasnat, Shahadat Hossain, Keita Ikeue, Masato Machida, An exploration of nitrate concentrations in groundwater aquifers of central–west region of Bangladesh, Journal of Hazardous Materials 159 (2008) 536–543.
  • 91. MM Rahman, MA Hasnat, K Sawada, Degradation of Commercial Textile Dye By Fenton's Reagent Under Xenon Beam Irradiation in Aqueous Medium, Journal of Scientific Research 1(1)108-110.
  • 92. M.A. Hasnat*,M.M. Uddin, A.J.F. Samed, S.S. Alam, S. Hossain, Adsorption and photocatalytic decolorization of a synthetic dye erythrosine on anatase TiO2 and ZnO surfaces, Journal of Hazardous Materials 147 (2007) 471–477.
  • 93. M.M. Uddin, M.A. Hasnat*,, A.J.F. Samed, R.K. Majumdar, Influence of TiO2 and ZnO photocatalysts on adsorption and degradation behaviour of Erythrosine, Dyes and Pigments 75 (2007) 207–212.
  • 94. Masato Machida, Kiwako Sato, Isao Ishibashi, M. A. Hasnat, Keita Ikeue, Electrocatalytic nitrate hydrogenation over an H+–conducting solid polymer electrolyte membrane–modified cathode assembly, ChemCommun. (2006) 732–734.
  • 95. M.A. Hasnat*,, I.A. Siddiquey, Nuruddin A., Comparative photocatalytic studies of degradation of a cationic and an anionic dye, Dyes and Pigments 66 (2005) 185–188.
  • 96. M.A. Hasnat,, Saiful S.M.Islam and A.J.F. Samed, Degradation of Methylene Blue by Fenton’s Process, J. Bangladesh Chem. Soc.Vol. 17(2004) 38–41.
  • 97. M.A. Hasnat*,, I.A. Siddiquey and Saiful S.M. Islam., Photodegradation of malachite green in the aqueous medium, J. Indian Chem, Sect A. 42/8 (2003) 1865–1867.
  • 98. AJ Mahmood, M.A. Jabbar, M.A. Hasnat, and S. Akter, Influence of light on the degradation of a dye in homogeneous and heterogeneous media, J. Bangladesh Chem. Soc. 16 (2003) 57–70.
  • 99. A.J Mahmood, M.Islam, M.A. Hasnat and A.N. Chowdhury, Dye Sensitized Photo–Chemical Cells–I. Indium–Tin oxide/ Methelene Blue Electrode System, Dhaka Univ. J. Sci. 51 (2003) 1–7.
  • 100. AJ Mahmood, M.A. Jabbar, M.A. Hasnat and M.Islam, Studies on Degradation of Malachite Green (oxalate) in Aqueous Medium. I. Fenton and Photo– Fenton Process, J. Bangladesh Chem. Soc. 15 (2002) 30–38.
  • 101. Cu-electrodeposited gold electrode for the sensitive electrokinetic investigations of nitrate reduction and detection of the nitrate ion in acidic medium
  • 102. Decomposition of Hydrogen Peroxide using Chemical and Catalytic Methods: A Reactor-based Approach
  • 103. IrOx–Pt electrode for the electro-oxidation of ethanol in alkaline-type direct ethanol fuel cells: an excellent CO-tolerant catalyst
  • 104. Validation of the efficiency of arsenic mitigation strategies in southwestern region of Bangladesh and development of a cost-effective adsorbent to mitigate arsenic levels
  • 105. Kinetics of Electrocatalytic Oxidation of Gallic Acid by Activated Glassy Carbon Electrode in Acidic Medium
  • 106. Sulfur adlayer on gold surface for attaining H2O2 reduction in alkaline medium: Catalysis, kinetics, and sensing activities
  • 107. Electroless Deposition of Gold on a Glassy Carbon Electrode (GCE) Surface for Selective Detection of Hydrogen Peroxide
  • 108. Kinetics of Electrocatalytic Oxygen Reduction Reaction over an Activated Glassy Carbon Electrode in an Alkaline Medium
  • 109. Electrocatalytic investigation of H2O2 reduction and sensing performance using sulfide modified Au/Pt electrode in alkaline medium
  • 110. Electrochemical Reduction of CO2 by the SnS| PTFE| Pt Surface in an Aqueous Imidazole Medium: Catalysis and Kinetics
  • 111. Nanoarchitectonics for optimization of a Ti/Au-IrOx electrode for enhanced catalytic performance pertinent to hydrogen evolution reaction
  • 112. Recent Advancements in Ascribing Several Platinum Free Electrocatalysts Pertinent to Hydrogen Evolution from Water Reduction
  • 113. Ce‐Doped TiO2 Fabricated Glassy Carbon Electrode for Efficient Hydrogen Evolution Reaction in Acidic Medium
  • 114. Influence of Different Dissolved Gases on Electrocatalytic Nitrate Sensing Performance at Cu‐Modified Au Electrode
  • 115. Electrokinetics of Nitrite to Ammonia Conversion in the Neutral Medium Over A Platinum Surface
  • 116. Exploring Through-Space Charge Transfer-Mediated Optoelectrochemical Properties of Dual-State Luminescent Aliphatic Polymers and Optoelectronic Responses toward Metal Ions
  • 117. Synthesis of Intrinsically‐Fluorescent Aliphatic Tautomeric Polymers for Proton‐Conductivity, Dual‐State Emission, and Sensing/Oxidation‐Reduction of Metal Ions
  • 118. Activation of stannic oxide by the incorporation of ruthenium oxide nanoparticles for efficient hydrogen evolution reaction
  • 119. Optimization of the synergistic effects in polycrystalline Pt–Au electrodes in developing an effective arsenic sensor via oxidation reactions

Teaching

  • Electrochemistry
  • Chemical Kinetics
  • Thermodynamics
  • Spectroscopy

Awards & Recognition

  • TWAS (Atta-urRahman) Prize in Chemistry 2013, Buenos Aires, Argentina, October 01, 2013. (http://twas.ictp.it/news-in-home-page/news/chemist-wins-prize-for-water-purifying-tech/?searchterm=hasnat)
  • Analytical Chemistry Trust fellow, May-July 2013, Bath University, UK
  • TWAS-USM fellowship, Malaysia, July 2011-June 2012.
  • Bangladesh Academy of Sciences Gold Medal Award in Physical Sciences (Junior group), 2011. (http://www.bas.org.bd/awards/gold-medal-award.html)
  • UGC Award, University Grants Commission of Bangladesh , 2010.
  • Young Scientist Award, 14th International Catalytic Congress, Seoul, Korea (July13-18, 2008).
  • Monbukagakshu Scholarship, MEXT, Japan, 2006.
  • Vice Chancellor Award 2016
  • Associate fellow, Bangladesh Academy of Sciences
  • Life member, Bangladesh Chemical Society
  • UNESCO training on Environmental Chemistry, IIT-Madras, India 2001
  • United group research award: 2013 (1 paper), 2014 (4 papers)

Graduate Supervision

  • 1. MPhil (Current Students: 2)
  • 2. PhD(Current Students: 3)
  • 3. MSc (24 )

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