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Application for faculty position_ Alam_CV-final_2021 (5).pdf
1. Muhammad Mahmud Alam
Lecturer, Department of Chemical and Material Engineering, Email: mmalam1@kau.edu.sa
Building 40 (Room Number 24E72) alam-mahmud@hotmail.com
King Abdul-Aziz University, Jeddah 21589 ORCID: 0000-0002-2636-5038
Kingdom of Saudi Arabia Researcher ID: AAT-5067-2020
Tel: 00966-12-6402000/72576 (Office)
Cell Ph.: 00966-567697830
Scopus ID: 57202939384
Education
08/2017-10/2021 Doctor of Philosophy in Chemical Engineering, Shahjalal University of Science and Technology
(SUST), Sylhet, Bangladesh
Thesis: Semi-conductive nanostructure-based sensor for bio-chemicals
08/2009-06/2011 Masters of Engineering in Chemical Process Engineering, Norwegian University of Science and
Technology (NTNU), Trondheim, Norway.
Thesis Title: Kinetics and deactivation in the methanol synthesis reaction
08/1996-06/2000 Bachelor of Engineering in Chemical Engineering and polymer Science, Shahjalal University of
Science and Technology (SUST), Sylhet, Bangladesh
B.Sc. Project Title: Development of Caffeine Extraction technology from tea & tea wastes
Teaching Experiences
03/2013- present Lecturer, Department of Chemical and Material Engineering, King Abdulaziz University, Jeddah, Saudi
Arabia
Teaching courses: ChE 334 (Separation Process), ChE 435(Unit Operation)
Instructor: Unit Operation(ChE 435) and Corrosion (ChE 311) Laboratory
Industrial Experiences
02/2012-02/ 2013 Factory Manager Operation, Petromax Refinery Limited(PRL), Khulna, Bangladesh
10/2006-07/2009 Senior Process Engineer, Tjeldbergodden methanol plant, Tjeldbergodden, Norway
05/2002-06/2006 Process Engineer, Abdul Monem Sugar Refinery Ltd (AMSRT), Narayangon, Bangladesh
Research Interests
My research interests are in the field of nanotechnology, semi-conductor materials, bio- & chemo-
electrochemical sensors, nanocomposites, conductive polymer, carbon nanotube, graphene oxides,
photo-catalysis and smart- & Bio-chips. The development of novel organic-metallic nanocomposites for
detection of trace toxic heavy metal ions in environmental water sources is another research interest. In
addition, Heterogeneous Catalysis especially on environmental heterogeneous catalysis looking at CO
and CO2 to valuable chemicals and on hydrogen involving reactions to supply energy to fuel cells such
as ammonia decomposition, water splitting, POM, DRM etc. want to build an excellent research lab in a
university and maintain my own research group with students, postdocs and support technicians.
2. Research Experience
08/2017-10/2021 PhD Researcher, Department of Chemical Engineering and Polymer Science, Shahjalal University of
Science and Technology, Bangladesh and Center of Excellence for Advanced Materials Research
(CEAMR), King Abdulaziz University, Saudi Arabia.
Development of electrochemical sensors for trace detection of toxic chemicals and heavy
metal ions in water system as well as human fluid.
Preparation of nanostructured materials (semi-conductive and transition metal-oxides/hybrids
nanocomposites)
Bio-chemical sensors development for analysis of human blood and urine samples
Waste water treatment by photo-degradation and absorption
08/2009-06/2011 MSc Graduate Researcher, Department of Chemical Engineering, Norwegian University of Science and
Technology, Norway.
Development of new catalyst for synthesis of Methanol and Dimethyl-ether in the experimental
pilot plant from syngas.
Catalyst preparation, testing, evaluation and analysis/characterization
Process/catalyst development of Petrochemical Process Industries and Oil refinery
Operation and maintain of high pressure and temperature reactors
Research Techniques (Electro-catalysis and heterogeneous catalysis)
Potentiostats/Galvanostats (Cyclic voltammetry, Differential pulse voltammetry and
Impedance Spectroscopy)
Electrometer (I-V method)
UV/visible spectroscopy
FTIR
High pressure heterogeneous catalytic reactor
Gas chromatography
List of Publications (H-index 25 and citations 1634 based on Scopus)
[1] M. M. Alam, A. M. Asiri, J. Uddin, M. M. Rahman, Development of 1,4-dioxane selective sensor probe based on ZnO/GO
nanocomposites by electrochemical approach, J. Mater. Sci: Mater. Electron. Xxxx (2022) xxxx-xxxx (accepted
manuscript).
[2] M. M. Rahman, M. M. Alam, A. M. Asiri, S. Y. M. Alfaifi, H. M. Marwani, Highly sensitive sensor probe development with
ZCCO nano-capsule composites for the selective detection of unsafe methanol chemical by electrochemical technique,
Applied Nanoscience, xxx (2022) xxxx (accepted manuscript).
3. [3] S. Rather, U. Saeed, A. A. Al-Zahrani, H. S. Bamufleh, H. A. Alhumade, A. A. Taimoor, O. M. Lemine, A. M. Ali, B. Al-
Zaitone, M. M. Alam, Doped Nanostructured Manganese Ferrites: Synthesis, Characterization, and Magnetic
Properties, Journal of Nanomaterials, (2021) 12.
[4] M. A. Subhan, P. C. Saha, M. M. Alam, A. M. Asiri, T. Raihan, J. Uddin, W. Ghaan, A. K. Azad, M. Al-Mamun, H. Nakata,
M. M. Rahman, NIR red luminescent doped Ag⋅(Y0.95Eu0.05)2O3 nanocomposite for 3-Chlorophenol sensor probe and
anti-MDR bacterial application, J. Environ. Chem. Eng. 9 (2021) 106881.
[5] M. M. Rahman, M. M.Alam, A. M. Asiri, S. Y. M. Alfaifi, H. M. Marwani, Studies of methanol detection with ternary wet-
chemically prepared ZCSO hexagonal nanodiscs with electrochemical approach, J. Ind. Eng. Chem. 9(6) (2021)
106881.
[6] M. M. Rahman, M. M. Alam, S. Y. M. Alfaifi, A. M. Asiri, M. M. Ali, Sensitive Detection of Thiourea Hazardous Toxin
with Sandwich-Type Nafion/CuO/ZnO Nanospikes/Glassy Carbon Composite Electrodes, Polymers, 13 (2021) 3998.
[7] M. A. Subhan, P. C. Saha, M. A. Hossain, A. M. Asiri, M. M. Alam, M. Al-Mamun, W. E. Ghann, J. Uddin, T.
Raihan, A. K. Azad, M. M. Rahman, Photocatalytic performance, anti-bacterial activities and 3-chlorophenol sensor
fabrication by MnAl2O4·ZnAl2O4 nanomaterials, Nanoscale Adv., 3(2021) 5872-5889.
[8] A. A. P. Khan, G. C. Bazan, B. G. Alhogbi, H. M. Marwani, A. Khan, M. M. Alam, A. M Asiri, M. M. Rahman,
Nanocomposite Based on CNT embedded in Water Soluble Conjugated Polyelectrolyte for the Electrochemical Sensing
Barium(II) ion, Int. J. Electrochem. Sci., 16 (2021).
[9] M. M. Alam, M. T. Uddin, M. M. Rahman, A. M. Asiri, M. A. Islam, A reliable electrochemical sensor developed based
on ZnO/SnO2nanoparticlesmodified glassy carbon electrode, Adv. Biochips, 2 (2021) 24-34.
[10] M. M. Rahman, M. M. Alam, A. M. Asiri, J. Uddin, Assessment of melamine in different water samples with ZnO-doped
Co3O4 nanoparticles fabricated glassy carbon electrode by differential pulse voltammetry, Chem. - Asian J. 16 (2021)
1820– 1831.
[11] M. M. Alam, A. M. Asiri, M. M. Rahman, Electrochemical detection of 2‐nitrophenol with BaO nanorods modified glassy
carbon electrode, Chem. - Asian J. 16 (2021) 1 – 12.
[12] A. Ul-Hamid, M. Ikram, A. Haider, J. Haider, M. M. Alam, A. Saeed, W. Nabgan, H. Dafalla, M. Ali, A. Bake, A. M. Asiri,
M. M. Rahman, In-situ phenylhydrazine chemical detection based on facile Zr-doped MoS2 nanocomposites (NCs) for
environmental safety, J. Taiwan Inst. Chem. Eng. 120 (2021) 267-277.
[13] S. Rather, A. A. Al-Zahrani, U. Saeed, O. M. Lemine, S. S. A. Al-Shahrani, A. M. Ali, M. M. Alam, Structural, Thermal,
Morphological and Magnetic Properties of Al3+-Doped Nanostructured Spinel Nickel Ferrites, Sci. Adv. Mater. 13 (2021)
1–9.
[14] A. M. El-Nahrawy, A. Elzwawy, M. M. Alam, B. A. Hemdan, A. M. Asiri, M. R. Karim, A. B. A. Hammad, M. M. Rahman,
Synthesis, structural analysis, electrochemical and antimicrobial activities of copper magnesium zirconosilicate
(Cu20Mg10Si40Zr(30-x)O:(x = 0,5,7,10) Ni2+) nanocrystals, Microchemical Journal, 163 (2021) 105881.
[15] M. M. Alam, A. M. Asiri, M. M. Rahman, Wet-chemically synthesis of SnO2-doped Ag2O nanostructured materials for
sensitive detection of choline by an alternative electrochemical approach, Microchemical Journal, 165 (2021) 106092.
4. [16] M. M. Alam, M. M. Rahman, A. M. Asiri, M. A. Fazal, A reliable electrochemical approach for detection of testosterone
with CuO-doped CeO2 nanocomposites-coated glassy carbon electrode, Journal of Materials Science: Materials in
Electronics, 32 (2021)5259–5273.
[17] M. A. Subhan, P. C. Saha, S. A. Sumon, M. M. Alam, A. M. Asiri, M. Al‐Mamun, M. M. Rahman, Development of a 4‐
Nitrophenylhydrazine Sensor Based on MgTi2O4⋅TiO2⋅Zn2TiO4 Nanomaterials, ChemistrySelect, 20(2021) 323-331.
[18] M. A. Subhan, T. P. Rifat, P. C. Saha, M. M. Alam, A. M. Asiri, T. Raihan, A. K. Azad, W. E. Ghann, J. Uddin,
M. M. Rahman, Photocatalytic, anti-bacterial performance and development of 2,4-diaminophenylhydrazine chemical
sensor probe based on ternary doped Ag·SrSnO3 nanorods, New J. Chem., 45 (2021) 1634-1650.
[19] M. M. Alam, A. M. Asiri, M. T. Uddin, M. M. Rahman, M. A. Islam, An alternative electrochemical approach for toluene
detection with ZnO/MgO/Cr2O3 nanofibers on a glassy carbon electrode for environmental monitoring, RSC Adv., 10
(2020) 44641-44653.
[20] M. M. Rahman, M. M. Alam, A. M. Asiri, F. A. D. M. Opo, An Electrochemical Approach for the Selective Detection of
Cancer Metabolic Creatine Biomarker with Porous Nano-Formulated CMNO Materials Decorated Glassy Carbon
Electrode, Sensors, 20 (2020) 7060.
[21] M. M. Rahman, M. M. Alam, A. M. Asiri, J. Uddin, Assessment of environmental unsafe pollutants using facile wet-
chemically prepared CeO2-ZrO2 nanocomposites by the electrochemical approach, New J. Chem., 44 (2020) 20285-
20293.
[22] M. M. Rahman, M. M. Alam, Abdullah M. Asiri, Firoz A. D. M. Opo, Fabrication of selective and sensitive chemical
sensor probe based on ternary nano-formulated CuO/MnO2/Gd2O3 spikes by hydrothermal approach, Sci. Rep., 10
(2020) 20248.
[23] M. M. Alam, Mohammed M. Rahman, M. T. Uddin, Abdullah M. Asiri, Jamal Uddin, M. A. Islam, Fabrication of enzyme-
less folic acid sensor probe based on facile ternary doped Fe2O3/NiO/Mn2O3 nanoparticles, Current Research in
Biotechnology, 2 (2020) 176-186.
[24] Mohammed M. Rahman, M. M. Alam, Abdullah M. Asiri, Jamal Uddin, Assessment of environmentally unsafe pollutants
using facile wet-chemically prepared CeO2–ZrO2 nanocomposites by the electrochemical approach, New J. Chem., 44
(2020) 20285-20293.
[25] M. M. Alam, Abdullah M. Asiri, Mohammed M. Rahman, M. A. Islam, Selective detection of ascorbic acid with wet-
chemically prepared CdO/SnO2/V2O5 micro-sheets by electrochemical approach, SN Appl. Sci. 2 (2020) 1953.
[26] M.M. Rahman, M.M. Alam, K.A. Alamry, A reliable alternative approach for ultra-sensitive detection of L-glutathione
with wet-chemically synthesized Co3O4-doped SnO2 nanoparticles decorated glassy carbon electrode, New J. Chem.,
44 (2020) 16020-16030.
[27] M.M. Rahman, M.M. Alam, A.M. Asiri, K.A. Alamry, M.A. Hasnat. Facile SrO nanorods: An efficient and alternative
detection approach for removal of selective 4-aminophenol for environmental safety, New J. Chem., 44 (2020) 15507-
15514.
[28] M.M. Alam, M.Z.B. Mukhlish, A. Tazrin, N.A. Jui, A.M. Asiri, M.M. Rahman, M.A. Islam, M.T. Uddin, A novel highly
selective electrochemical chlorobenzene sensor based on ternary oxide RuO2/ZnO/TiO2 nanocomposites, RSC Adv.,
10 (2020) 32532–32547.
5. [29] M.A. Subhan, P.C. Saha, M.A. Hossain, M.M. Alam, A.M. Asiri, M.M. Rahman, M. Al-Mamun, T.P. Rifat, T. Raihane, A.
K. Azad, Photocatalysis, photoinduced enhanced antibacterial functions and development of a selective m-tolyl
hydrazine sensor based on mixed AgNiMn2O4 nanomaterials, RSC Adv., 10 (2020) 30603–30619.
[30] M.M. Rahman, M.M. Alam, A.M. Asiri, Detection of thiourea with ternary Ag2O/TiO2/ZrO2 nanoparticles by
electrochemical approach, J. Mater. Sci: Mater. Electron., 31(2020) 15422–15433.
[31] M.M. Alam, H.B. Balkhoyor, A.M. Asiri, M.R. Karim, M.T.S. Chani, M.M. Rahman, Fabrication of ascorbic sensor acid
with Co3O4.Fe2O3 nanosphere materials by electrochemical technique, Surf. Interfaces, 20 (2020) 100607.
[32] A.A.P. Khan, G.C. Bazan, B.G. Alhogbi, H.M. Marwani, A. Khan, M.M. Alam, M.M. Rahman, A.M. Asiri, Nanocomposite
cross-linked conjugated polyelectrolyte /MWCNT/ poly(pyrrole) for enhanced Mg2+ ion sensing and environmental
remediation in real samples, J. Mater. Res. Technol. 9 (2020) 9667–9674.
[33] M.M. Alam, M.M. Rahman, M.T. Uddin, A.M. Asiri, Inamuddin, M.T.S. Chani, M.A. Islam, Development of l-glutamic
acid biosensor with ternary ZnO/NiO/Al2O3 nanoparticles, J. Lumin., 227 (2020) 117528.
[34] B.M. Abu-Zied, M.M. Alam, A.M. Asiri, J.r Ahmed, M.M. Rahman, Efficient hydroquinone sensor development based on
Co3O4 nanoparticle, Microchem. J., 157 (2020) 104972.
[35] M.M. Alam, M.T. Uddin, A.M. Asiri, M.M. Rahman, M.A. Islam, Detection of L-tyrosine by electrochemical method based
on binary mixed CdO/SnO2 nanoparticles, Measurement, 163 (2020) 107990.
[36] M.M. Alam, A.M. Asiri, M.M. Rahman, M.A. Islam, Fabrication of sensitive D-fructose sensor based on facile ternary
mixed ZnO/CdO/SnO2 nanocomposites by electrochemical approach, Surf. Interfaces, 19 (2020) 100540.
[37] D.F. Katowah, S. Alqarni, G.I. Mohammed, S.Z. Al-Sheheri, M.M. Alam, S.H. Ismail, A.M. Asiri, M.A. Hussein, M.M.
Rahman, Selective Hg2+ sensor performance based various carbon‐nanofillers into CuO‐PMMA nanocomposites,
Polym. Adv. Technol. (2020) 1–17.
[38] M.M. Alam, M.T. Uddin, A.M. Asiri, M.R. Awual, M.A. Fazal, M.M. Rahman, M.A. Islam, Fabrication of selective l-
glutamic acid sensor in electrochemical technique from wet-chemically prepared RuO2 doped ZnO nanoparticles, Mater.
Chem. Phys., 251 (2020) 123029.
[39] D.F Katowah, M.A. Hussein, M.M. Alam, S.H. Ismail, O.I. Osman, T.R. Sobahi, A.M. Asiri, J. Ahmed, M.M. Rahman,
Designed network of ternary core-shell PPCOT/NiFe2O4/C-SWCNTs nanocomposites, A Selective Fe3+ ionic sensor, J.
Alloys Compd., 834 (2020) 155020.
[40] M.M. Alam, M.T. Uddin, A.M. Asiri, M.M. Rahman, M.A. Islam, Development of reproducible thiourea sensor with binary
SnO2/V2O5 nanomaterials by electrochemical method, Arabian J. Chem., 13 (2020) 5406-5416.
[41] M.A. Hussein, M.M. Alam, K.I. Aly, A. Khan, H. Džudžević-Čančar, A.M Asiri, M.M. Rahman, Hybrid poly (ether-
arylidene-ether-sulphone) s derivatives for divalent cobalt ion detection, SN Applied Sciences, 2 (2020) 774.
[42] M.M. Alam, A.M. Asiri, M.M. Rahman, M.A. Islam, Fabrication of dopamine sensor based on ternary AlMn0.645Cr1.76O7.47
nanoparticles, Mater. Chem. Phys., 244 (2020) 122740.
[43] D.F. Katowah, Q.A. Alsulami, M.M. Alam, S.H. Ismail, A.M. Asiri, G.G. Mohamed, M.M. Rahman, M.A. Hussein, The
Performance of Various SWCNT Loading into CuO–PMMA Nanocomposites Towards the Detection of Mn2+ Ions, J.
Inorg. Organomet. Polym. Mater. (2020).
6. [44] M.M. Alam, A.M. Asiri, M.M. Rahman, Fabrication of phenylhydrazine sensor with V2O5 doped ZnO nanocomposites,
Mater. Chem. Phys., 243 (2020) 122658.
[45] M.M. Rahman, M.R. Karim, M.M. Alam, M.B. Zaman, N. Alharthi, H. Alharbi, A.M. Asiri, Facile and efficient 3-
chlorophenol sensor development based on photolumenescent core-shell CdSe/ZnS quantum dots, Sci. Rep., 10 (2020)
557.
[46] A.B.A. Hammad, A. Elzwawy, A.M. Mansour, M.M. Alam, A.M. Asiri, M.R. Karim, M.M. Rahman, A.M. El-Nahrawy,
Detection of 3, 4-diaminotoluene based on Sr 0.3 Pb0.7 TiO3/CoFe 2O4 core/shell nanocomposite via an electrochemical
approach, New J. Chem., 44 (2020) 7941-7953.
[47] M.R Karim, M.M. Alam, M.O. Aijaz, A.M. Asiri, F.S. Al-Mubaddel, M.M. Rahman, The fabrication of a chemical sensor
with PANI-TiO2 nanocomposites, RSC Adv., 10 (2020) 12224-12233.
[48] M.A. Subhan, T.P. Rifat, P.C. Saha, M.M. Alam, A.M. Asiri, M.M. Rahman, S. Akter, T. Raihan, A.K. Azad, J. Uddin,
Enhanced visible light-mediated photocatalysis, antibacterial functions and fabrication of a 3-chlorophenol sensor based
on ternary Ag2O·SrO·CaO, RSC Adv., 10 (2020) 11274–11291.
[49] M.M. Rahman, M.M. Alam, A.M. Asiri, J. Uddin, 3-Methoxyphenol chemical sensor fabrication with Ag2O/CB
nanocomposites, New J. Chem., 44 (2020) 2001-2010.
[50] M.T. Uddin, M.M. Alam, A.M. Asiri, M.M. Rahman, T. Toupance, M.A. Islam, Electrochemical detection of 2-nitrophenol
using a heterostructure ZnO/RuO2 nanoparticle modified glassy carbon electrode, RSC Adv. 10 (2020) 122-132.
[51] E.F.A. Zeid, A.M. Nassar, M.A. Hussein, M.M. Alam, A.M. Asiri, H.H. Hegazy, M.M. Rahman, Mixed oxides CuO-NiO
fabricated for selective detection of 2-Aminophenol by electrochemical approach, J. Mater. Res. Technol., 9 (2020)
1457-1467.
[52] D.F. Katowah, M.A. Hussein, M.M. Rahman, Q.A. Alsulami, M.M. Alam, A.M. Asiri, Fabrication of hybrid PVA-
PVC/SnZnOx/SWCNTs nanocomposites as Sn2+ ionic probe for environmental safety, Polym.-Plast. Technol. Mater.,
59 (2019) 642-657.
[53] A.A.P. Khan, A. Khan, A.M. Asiri, M.M. Alam, M.M. Rahman, M. Shaban, Surfactant-assisted graphene
oxide/methylaniline nanocomposites for lead ionic sensor development for the environmental remediation in real sample
matrices, Int. J. Environ. Sci. Technol., 16 (2019) 8461–8470.
[54] R.H. Rakib, M.A. Hasnat, M.N. Uddin, M.M. Alam, A.M. Asiri, M.M. Rahman, I.A. Siddiquey, Fabrication of a 3,4‐
Diaminotoluene Sensor Based on a TiO2‐Al2O3 Nanocomposite Synthesized by a Fast and Facile Microwave Irradiation
Method, ChemistrySelect, 4 (2019) 12592-12600.
[55] D.F. Katowah, M.M. Rahman, M.A. Hussein, T.R. Sobahi, M.A. Gabal, M.M. Alam, A.M. Asiri, Ternary nanocomposite
based poly (pyrrole-co-O-toluidine), cobalt ferrite and decorated chitosan as a selective Co2+ cationic sensor,
Composites, Part B, 175 (2019) 107175.
[56] M.M. Rahman, M.M. Alam, K.A. Alamry, Sensitive and selective m-tolyl hydrazine chemical sensor development based
on CdO nanomaterial decorated multi-walled carbon nanotubes, J. Ind. Eng. Chem., 77 (2019) 309-316.
[57] D.F. Katowah, M.A. Hussein, M.M. Alam, M.A. Gabal, T.R. Sobahi, A.M. Asiri, J. Uddin, M.M. Rahman, Selective
Fabrication of an Electrochemical Sensor for Pb2+ Based on Poly (pyrrole‐co‐o–toluidine)/CoFe2O4 Nanocomposites,
ChemistrySelect, 4 (2019) 10609-10619.
7. [58] N.A. Alenazi, M.M. Alam, M.A. Hussein, K.A. Alamry, A.M. Asiri, M.M. Rahman, Functionalized polyethersulfone as
PES-NH2-metal oxide nanofilers for the detection of Y3+, Polym. Bull., 76 (2019) 4485–4506.
[59] M.A. Hussein, M.M. Alam, A.M. Asiri, Z.M. Al-amshany, K.S. Hajeeassa, M.M. Rahman, Ultrasonic-assisted fabrication
of polyvinyl chloride/mixed graphene-carbon nanotube nanocomposites as a selective Ag+ ionic sensor, J. Compos.
Mater. 53 (2019) 2271-2284.
[60] F.M. Aqlan, M.M. Alam, A.M. Asiri, M.E.M. Zayed, D.A. Al-Eryani, F.A.M. Al-Zahrani, R.M. El-Shishtawy, J. Uddin, M.M.
Rahman, Fabrication of selective and sensitive Pb2+ detection by 2,2′-(−(1,2-
phenylenebis(azaneylylidene))bis(methaneylylidene))diphenol by electrochemical approach for environmental
remediation, J. Mol. Liq., 281 (2019) 401–406.
[61] A.A.P. Khan, A. Khan, M.M. Alam, A.M. Asiri, J. Uddin, M.M. Rahman, SDBS-functionalized MWCNT/poly (o-toluidine)
nanowires modified glassy carbon electrode as a selective sensing platform for Ce3+ in real samples, J. Mol. Liq., 279
(2019) 392-399.
[62] M.A. Hussein, M.M. Alam, H.K. Albeladi, R.M. El‐Shishtawy, A.M. Asiri, M.M. Rahman, Nanocomposite Containing
Cross‐linked Poly(Methyl‐Methacrylate)/Multiwall Carbon Nanotubeas a Selective Y3+ Sensor Probe, Compos. Polym.,
40 (2019) E1673-E1684.
[63] B.M Abu-Zied, M.M. Alam, A.M. Asiri, W. Schwieger, M.M. Rahman, Fabrication of 1, 2-dichlorobenzene sensor based
on mesoporous MCM-41 material, Colloids Surf., A, 562 (2019) 161–169.
[64] M.R Karim, M.M. Alam, M.O. Aijaz, A.M. Asiri, M.A. Dar, M.M. Rahman, Fabrication of 1, 4-dioxane sensor based on
microwave assisted PAni-SiO2 nanocomposites, Talanta, 193 (2019) 64–69.
[65] M.M. Rahman, M.M. Alam, A.M. Asiri, Potential application of mixed metal oxide nanoparticle-embedded glassy carbon
electrode as a selective 1, 4-dioxane chemical sensor probe by an electrochemical approach, RSC Adv., 9 (2019)
42050–42061.
[66] M.M. Rahman, M.M. Alam, A.M. Asiri, Detection of toxic choline based on Mn2O3/NiO nanomaterials by an
electrochemical method, RSC Adv., 9 (2019) 35146-35157.
[67] D.F. Katowah, M.A. Hussein, M.M. Alam, T.R. Sobahi, M.A. Gabal, A.M. Asiri, M.M. Rahman, Poly (pyrrole-co-o-
toluidine) wrapped CoFe2O4/R(GO–OXSWCNTs) ternary composite material for Ga3+ sensing ability, RSC Adv., 9
(2019) 33052-33070.
[68] F.M Aqlan, M.M. Alam, A.S. Al-Bogami, T.S. Saleh, A.M. Asiri, J. Uddin, M.M. Rahman, Synthesis of novel pyrazole
incorporating a coumarin moiety (PC) for selective and sensitive Co2+ detection, New J. Chem., 43 (2019) 12331-12339.
[69] M.A. Subhan, S.S. Jhuma, P.C. Saha, M.M. Alam, A.M. Asiri, M. Al-Mamun, S.A. Attia, T.H. Emon, A.K. Azad, M.M.
Rahman, Efficient selective 4-aminophenol sensing and antibacterial activity of ternary Ag2O3·SnO2·Cr2O3
nanoparticles. New J. Chem., 43 (2019) 10352-10365.
[70] M.M. Alam, A.M. Asiri, M.T. Uddin, M.A. Islam, M.R. Awual, M.M. Rahman, Detection of uric acid based on doped
ZnO/Ag2O/Co3O4 nanoparticle loaded glassy carbon electrode, New J. Chem., 43 (2019) 8651-8659.
[71] M.M. Alam, A.M. Asiri, M.T. Uddin, M.A. Islam, M.R. Awual, M.M Rahman, One-step wet-chemical synthesis of ternary
ZnO/CuO/Co3O4 nanoparticles for sensitive and selective melamine sensor development, New J. Chem., 43 (2019)
4849-4858.
8. [72] M.M. Rahman, M.M. Alam, A.M. Asiri, Development of an efficient phenolic sensor based on facile Ag2O/Sb2O3
nanoparticles for environmental safety, Nanoscale Adv., 1 (2019) 696-705.
[73] R.M. El-Shishtawy, H.A. Al-Ghamdi, M.M. Alam, Z.M. Al-amshany, A.M. Asiri, M.M. Rahman, Development of Cd2+
sensor based on BZNA/Nafion/Glassy carbon electrode by electrochemical approach, Chem. Eng. J., 352 (2018) 225–
231.
[74] M.M. Rahman, M.M. Alam, M.M. Hussain, A.M. Asiri, M.E.M. Zayed, Hydrothermally prepared Ag2O/CuO nanomaterial
for an efficient chemical sensor development for environmental remediation, Environmental Nanotechnology,
Monitoring & Management, 10 (2018) 1-9.
[75] M.M. Rahman, N.A. Alenazi, M.A. Hussein, M.M. Alam, K.A. Alamry, A.M. Asiri, Nanocomposites‐based nitrated
polyethersulfone and doped ZnYNiO for selective As3+ sensor application, Adv. Polym. Technol. 37 (2018) 3689–3700.
[76] M.A Hussein, M.M. Alam, N.A. Alenazi, K.A. Alamry, A.M. Asiri, M.M. Rahman, Nanocomposite based functionalized
Polyethersulfone and conjugated ternary ZnYCdO nanomaterials for the fabrication of selective Cd2+ sensor probe, J.
Polym. Res., 25 (2018) 262.
[77] M.M. Alam, A.M. Asiri, M.T. Uddin, M.A. Islam, M.M. Rahman, In‐situ Glycine Sensor Development Based
ZnO/Al2O3/Cr2O3 Nanoparticles, ChemistrySelect, 3 (2018) 11460-11468.
[78] A.A.P. Khan, A. Khan, M.A. Alam, M. Oves, A.M. Asiri, M.M. Rahman, Chemical sensing platform for the Zn+2 ions
based on poly(o-anisidine-co-methyl anthranilate) copolymer composites and their environmental remediation in real
samples, Environ. Sci. Pollut. Res., 25 (2018) 27899–27911.
[79] M.M. Rahman, M.M. Alam, A.M. Asiri, Carbon black co-adsorbed ZnO nanocomposites for selective benzaldehyde
sensor development by electrochemical approach for environmental safety, Journal of Industrial and Engineering
Chemistry, 65 (2018) 300–308.
[80] M.M. Rahman, A. Wahid, M.M. Alam, A.M. Asiri, Efficient 4-Nitrophenol sensor development based on facile Ag@Nd2O3
nanoparticles, Mater. Today Commun. 16 (2018) 307-313.
[81] M.M. Rahman, M.M. Alam, A.M. Asiri, Sensitive 1,2-dichlorobenzene chemi-sensor development based on
solvothermally prepared FeO/CdO nanocubes for environmental safety, J. Ind. Eng. Chem., 62 (2018) 392-400.
[82] M.M Rahman, N.A. Alenazi, M.A. Hussein, M.M. Alam, K.A. Alamry, A.M. Asiri, Hybride ZnCdCrO embedded aminated
polyethersulfone nanocomposites for the development of Hg2+ ionic sensor, Mater. Res. Express, 5 (2018) 6.
[83] M.A. Subhan, P.C. Saha, M.M. Alam, A.M. Asiri, M. Al-Mamun, M.M. Rahman, Development of Bis-Phenol A sensor
based on Fe2MoO4· Fe3O4·ZnO nanoparticles for sustainable environment, J. Environ. Chem. Eng., 6 (2018) 1396-
1403.
[84] M.M Rahman, M.M. Alam, A.M. Asiri, 2-Nitrophenol sensor-based wet-chemically prepared binary doped Co3O4/Al2O3
nanosheets by an electrochemical approach, RSC Adv., 8 (2018) 960-97.
[85] M.M. Rahman, M.M. Alam, A.M. Asiri, M.A. Islam, 3,4-Diaminotoluene sensor development based on hydrothermally
prepared MnCoxOy nanoparticles, Talanta, 176 (2018) 17-25.
[86] M.M. Alam, A.M. Asiri, M.T. Uddin, M.A. Islam, M.M. Rahman, Wet-chemically prepared low-dimensional
ZnO/Al2O3/Cr2O3 nanoparticles for xanthine sensor development using an electrochemical method, RSC Adv., 8 (2018)
12562-12572.
9. [87] M.M. Rahman, M.M. Alam, A.M. Asiri, Selective hydrazine sensor fabrication with facile low-dimensional Fe2O3/CeO2
nanocubes, New J. Chem., 42 (2018) 10263-10270.
[88] M.M. Rahman, M.M. Alam, A.M. Asiri, M.A. Islam, Fabrication of selective chemical sensor with ternary
ZnO/SnO2/Yb2O3 nanoparticles, Talanta, 170 (2017) 215-223.
[89] M.M. Rahman, M.M. Alam, A.M. Asiri, M.A. Islam, Ethanol sensor development based on ternary-doped metal oxides
(CdO/ZnO/Yb2O3) nanosheets for environmental safety, RSC Adv., 7 (2017) 22627-22639.
[90] M.M. Rahman, M.M. Alam, A.M. Asiri, M.R. Awual, Fabrication of 4-aminophenol sensor based on hydrothermally
prepared ZnO/Yb2O3 nanosheets, New J. Chem., 41 (2017) 9159-9169.
[91] M.M. Rahman, M.M. Alam, A.M. Asiri, Fabrication of an acetone sensor based on facile ternary MnO2/Gd2O3/SnO2
nanosheets for environmental safety, New J. Chem., 41 (2017) 9938-9946.
Book Chapters
[1] M. M. Rahman, M. M. Alam, A. M. Asiri, M. T. S. Chani, J. Uddin, M.H. Kabir, M.A. Hasnat, “ Assessment of Toxic
Phenolic Chemical with Nanocomposite Materials”, Book: “Advances in Nanotechnology” Editor: Zacharie Bartul and
Jerome Trenor, Volume: 25. Chapter # 3th, Page: 123-151(28 pages), Publisher: Nova Science Publishers. ISBN: 978-
1-68507-288-9
[2] M. M. Rahman, M. M. Alam, A. M. Asiri, J. Uddin, “Electrochemical Assessment of Formaldehyde with Doped Nanorod
Materials”, In book” A Comprehensive Guide to Formaldehyde” Edition: Natasja A. Bach, Chapter # 3, Publisher: Nova
Science and Technology, year: 2021, pages: 87-108, ISBN: 978-1-53619-465-4.
[3] M.M. Rahman, M.M. Alam, “Mixed Metal Oxides ZnO/Al2O3/Cr2O3 Nanoparticles for the Xanthine Sensor
Development”, In book “Advances in Chemistry Research” Edition: James C. Taylor, Chapter # 4, Publisher: Nova
Science publishers, Year: 2020, ISBN: 978-1-53617-449-6.
[4] M.M. Rahman, M.M. Alam,"Melamine Sensor Development Based on Mixed Metal Oxide Nanoparticles” In book "An
Introduction to Melamine" Edition: Ashley Harris; Chapter # 4; Publisher: Nova Science publishers; Year: 2020. Pages:
115-139 (25 pages); ISBN: 978-1-53617-136-5.
Research profiles on online
Google Scholar Profile
https://scholar.google.com/citations?user=uwguB_AAAAAJ
Research Gate Profile
https://www.researchgate.net/profile/Mm_Alam5/research
References
[1] Prof. Md. Akhtar Islam, PhD,
Shahjalal University of Science and Technology, Sylhet, Bangladesh
E-mail: mislam@sust.edu
10. [2] Prof. M. Muzibur Rahman, PhD,
King Abdulaziz University, Jeddah 21589, Saudi Arabia
Email: mmrahman@kau.edu.sa
[3] Prof. Jamal Uddin, PhD,
Coppin State University, Baltimore, Maryland, United States
Email: juddin@coppin.edu