Profile of Dr. Md. Anamul Haque

... Name Dr. Md. Anamul Haque
Designation Assistant Professor
Last Degree B.S (Hons), M.S (DU), PhD (Japan)
   

PhD

:

2011, Hokkaido University, Japan.

MS

:

2008, Department of Chemistry, University of Dhaka (First class 1st)

BSc

:

2006, Department of Chemistry, University of Dhaka (First class 3rd)

HSC

:

1999, Bhurungamari College, Kurigram (First division with star mark)

SSC

:

1997, Sonahat High School, Kurigram (First division with star mark)

2017-2017: Visiting Researcher, Laboratory of Soft & Wet Matter, Hokkaido University, Japan.

2015-2017: JSPS Research Fellow, Laboratory of Soft & Wet Matter, Hokkaido University, Japan.

2014-2015: Assistant House Tutor, Sir A. F. Rahman Hall, University of Dhaka, Bangladesh.

2013-2014: Lecturer, Department of Chemistry, University of Dhaka.

2013-2013: Lecturer, Department of Chemistry, Jagannath University, Dhaka.

2011-2013: Postdoctoral Research Fellow, Laboratory of Soft & Wet Matter, Hokkaido University, Japan.

2008-2011: Doctoral Research Fellow, Hokkaido University, Japan Govt. Scholarship (MEXT), Japan.

Google Scholar Citationshttps://scholar.google.com/citations?user=80c3avoAAAAJ&hl=en

ResearchGate Profile: https://www.researchgate.net/profile/Haque_Md_Anamul

2010~

  1. M.A. Haque, G. Kamita, T. Kurokawa, K. Tsujii, J.P. Gong. “Unidirectional Alignment of Lamellar Bilayer in Hydrogel: One-Dimensional Swelling, Anisotropic Modulus, and Stress/Strain Tunable Structural Color.” Advanced Materials 22, 5110-5114, 2010; IF: 20.

2011~

  1. M.A. Haque, M.M. Rahman, M.A.B.H. Susan. “Aqueous Electrochemistry of Anthraquinone and its Correlation with the Dissolved States of a Cationic Surfactant.” Journal of Solution Chemistry 40, 861-875, 2011; IF: 1.4.
  2. I. Mahmud, A.J.F. Samed, M.A. Haque, M.A.B.H. Susan. “Electrochemical behavior of anthraquinone in aqueous solution in presence of a non-ionic surfactant.” Journal of Saudi Chemical Society 15, 203-208, 2011.
  3. M.A. Haque, T. Kurokawa, G. Kamita, J.P. Gong. “Lamellar Bilayers as Reversible Sacrificial Bonds to Toughen Hydrogel, Hysteresis, Self-recovery, Fatigue Resistance, and Crack Blunting.” Macromolecules 44, 8916-8924, 2011; IF: 5.2.
  4. M.A. Haque, T. Kurokawa, G. Kamita, Y. Yue, J.P. Gong. “Rapid and Reversible Tuning of Structural Color of a Hydrogel over the Entire Visible Spectrum by Mechanical Stimulation.” Chemistry of Materials 23, 5200-5207, 2011; IF: 7.3.

2012~

  1. M.A. Haque, M.M. Rahman, M.A.B.H. Susan. “Electrochemical behavior of anthraquinone in reverse micelles and microemulsions of cetyl trimethyl ammonium bromide.” Journal of Solution Chemistry, 41, 447-457, 2012; IF: 1.4.
  2. M.A. Haque, T. Kurokawa, J.P. Gong. “Super Tough Double Network Hydrogels and Their Application as Biomaterials.” Polymer, 53, 1805, 2012; IF: 3.4.
  3. M.A. Haque, T. Kurokawa, J.P. Gong. “Anisotropic Hydrogel Based on Bilayers: Color, Strength, Toughness, Fatigue Resistance.” Soft Matter; 8, 8008, 2012; IF: 4.4.
  4. M.A. Haque, T. Kurokawa, J.P. Gong. Tough Bacterial Cellulose Hydrogels Based on Double-Network Technique, In Bacterial Cellulose: a sophisticated multifunctional material. Chap. 4, Taylor and Francis, 2012.

2013~

  1. M.A. Haque, J.P. Gong. Multi-functional Hydrogel with Bilayer-based Lamellar Structure. Reactive and Functional Polymer, 73, 929-935, 2013; IF: 2.7.
  2. M.A. Haque, T. Kurokawa, J.P. Gong. Lamellar–micelle transition in a hydrogel induced by polyethylene glycol grafting. Soft Matter, 9, 5223-30, 2013; IF: 3.9.
  3. Y. F. Yue, M.A. Haque, T. Kurokawa, T. Nakajima, J.P. Gong. Lamellar Hydrogels with High Toughness and Ternary Tunable Photonic Stop-Band, Advanced Materials 25, 3106-3110, 2013; IF: 14.8.
  4. A.B. Ihsan, T. L. Sun, S. Kuroda,  M.A. Haque, T. Kurokawa, T. Nakajima, J.P. Gong, "A Phase Diagram of Neutral Polyampholyte-From Solution to Tough Hydrogel". J. Mater. Chem. B, 2013, 1, 4555-4562; IF: 6.1.
  5. T. L. Sun, T. Kurokawa, S. Kuroda,  A.B. Ihsan, T. Akasaki, K. Sato, M.A. Haque,  T. Nakajima, J.P. Gong, “Physical Hydrogels Composed of Polyampholytes Demonstrate High Toughness and Viscoelasticity,” Nature Materials, 12, 932–937, 2013; IF: 35.7.
  6. K. Sato, M.A. Haque, T. Kurokawa, G. Kamita, Y. Yue, J.P. Gong. “Hydrogel with Unidirectional Alignment of Lamellar Bilayer: Its Structural Color and Mechanical Response” Journal of Japan Society of Color Materials, 86, 290, 2013.  
  7. T. Kurokawa, M. A. Haque, J. P. Gong, “Optical and Mechanical Properties of a Hydrogel Based on Lamellar Bilayers”, Japanese Journal of Polymer Science and Technology, 70: 309, 2013.

2014~

  1. S. Ahmed, T. Nakajima, T. Kurokawa, M. A. Haque, J. P. Gong,Brittle-Ductile Transition of Double Network Hydrogels: Mechanical Balance of Two Networks as the Key Factor Polymer, 55: 914, 2014, IF: 3.4.
  2.  Y. Yue, T. Kurokawa, M. A. Haque, T. Nonoyama, T. Nakajima, I. Kajiwara, J. P. Gong, “Mechano-actuated Ultrafast Full-Colour Switching in Layered Photonic Hydrogels” Nature Communication, 5: 4659, 2014. IF: 12.1

2015~

  1. T. Nakajima, C. Durand, X. F. Li, M. A. Haque, T. Kurokawa, J.P. Gong, “Quasi-unidirectional shrinkage of gels with well-oriented lipid bilayers upon uniaxial stretching” Soft Matter, 11: 237, 2015, IF: 4.1
  2. X. Li, T. Kurokawa, S. Kuroda, R. Takahashi, M. A. Haque, Y. Yue, T. Nakajima, J.P. Gong, “Polymer Adsorbed Bilayer Membranes Form Self-Healing Hydrogels with Tunable Superstructure” Macromolecules, 48: 2277, 2015. IF: 5.8
  3. R. Biswas, M. C. Das, S. Islam, M. A. Haque, A. A. Shaikh, “Voltammetric study of the interaction of Cu(II) with proton pump inhibitor at different pH” Bangladesh J. Sci. Ind. Res. 50: 219-226, 2015.
  4. M. C. Das, R. Biswas, H. Akter, M. A. Haque and A. A. Shaikh, “Electrochemical Study of the Interaction of Ni(II) Ion with Proton Pump Inhibitors” Bangladesh J. Sci. Res. 28(1): 85-89, 2015.

 

2016~

  1. M. C. Das, R. Biswas, H. Akter, M. A. Haque, P. K. Bakshi, A. A. Shaikh, “Cyclic Voltammetric Study of the Interaction of Biologically Important Metal Ion with Proton Pump Inhibitors” Dhaka Univ. J. Sci. 64(1): 25-30, 2016.
  2. R. Biswas, M. C. Das, S. Islam, M. A. Haque, A. A. Shaikh,
  3. Y. F. Yue, X. Li, T. Kurokawa, M. A. Haque, J. P. Gong, Decoupling dual-stimuli responses in patterned lamellar hydrogels as photonic sensors, J. Mater. Chem. B, 4: 4104, 2016. IF: 4.8

 

2017~

  1. K. Mito, M. A. Haque, T. Nakajima, M. Uchiumi, T. Kurokawa, T. Nonoyama, J. P. Gong, “Supramolecular hydrogels with multi-cylindrical lamellar bilayers: Swelling-induced contraction and anisotropic molecular diffusion” Polymers,  In press. IF: 3.8
  2. M. Ilyas, M. A. Haque, Y. Yue, T. Kurokawa, T. Nakajima, T. Nonoyama, J. P. Gong. Water-Triggered Ductile−Brittle Transition of Anisotropic Lamellar Hydrogels and Effect of Confinement on Polymer Dynamics. Macromolecules 2017, 50, 8169−8177.
  3. M. A. Haque, K. Mito, T. Kurokawa, T. Nakajima, T. Nonoyama, M. Ilyas, J. P. Gong. Tough and Variable-Band-Gap Photonic Hydrogel Displaying Programmable Angle-Dependent Colors. ACS Omega 2018, 3, 55−62

 

Proceedings/Abstracts Published in Scientific Meetings and Presentations

  1. M. A. Haque, G. Kamita, T. Kurokawa, K. Tsujii, and J. P. Gong. “Enhancement of Mechanical Property of Hydrogel by Incorporating Lipid-like Lamellar Structure” 21th Polymer Gels Annual Meeting, The Society of Polymer Science, Japan, 2010.
  2. M. A. Haque, G. Kamita, T. Kurokawa, K. Tsujii, and J. P. Gong. “Polyethylene Glycol Grafting on Unidirectionally Aligned Lamellar Bilayer in Hydrogel” SPSJ 59th Symposium on Macromolecules, The Society of Polymer Science, Japan. Vol. 59, No. 2 (2010).
  3. M. A. Haque, T. Kurokawa, G. Kamita, and J. P. Gong. “Large and Reversible Tuning of Structural Color of a Mechanically Strong Hydrogel Applying Double Network Principle” SPSJ 60th Annual Meeting, The Society of Polymer Science, Japan. Vol. 60, No. 1 (2011).
  4. M. A. Haque, T. Kurokawa, G. Kamita, and J. P. Gong. “Tough Hydrogel with Self-Recovery: More Function than the Structure Color of Lamellar Bilayer” SPSJ 60th Annual Meeting, The Society of Polymer Science, Japan. Vol. 60, No. 1 (2011).
  5. M. A. Haque, T. Kurokawa, G. Kamita, and J. P. Gong. “Polyethylene Glycol Grafting on Unidirectionally Aligned Lamellar Bilayer in Hydrogel” SPSJ 60th Annual Meeting, The Society of Polymer Science, Japan. Vol. 60, No. 1 (2011)
  6. M. A. Haque, G. Kamita, T. Kurokawa, and J. P. Gong. “Multifunctional Anisotropic Hydrogel Based on Uni-axial Lamellar Bilayer Structure.” SPSJ 60th Symposium on Macromolecules, The Society of Polymer Science, Japan. Vol. 60, No. 2 (2011).
  7. M. A. Haque, U. Maki, Y. Yue, T. Kurokawa, and J. P. Gong. “One-dimensional Swelling of an Anisotropic Hydrogel by Controlled Diffusion of Water” SPSJ 60th Symposium on Macromolecules, The Society of Polymer Science, Polymer Preprints, Japan. Vol. 60, No. 2 (2011).
  8. S. Ahmed, T. Nakajima, M. A. Haque, T. Kurokawa, and J. P. Gong. Fracture Mechanism of Tough Double Network Gels: Effect of Network Ratio on Brittle-Ductile Transition. SPSJ 60th Symposium on Macromolecules, The Society of Polymer Science, Polymer Preprints, Japan. Vol. 60, No. 2 (2011).
  9. A. B. Ihsan, T. L. Sun, M. A. Haque, S. Kuroda, T. Kurokawa, J. P. Gong. Dynamic structure change of novel viscoelastic ion-complex gel based on physical interaction. SPSJ 60th Symposium on Macromolecules, The Society of Polymer Science, Polymer Preprints, Japan. Vol. 60, No. 2 (2011).
  10. A. B. Ihsan, M. A. Haque, J. P. Gong, et al. Novel hydrogel with ion complex structure: high strength, toughness, relaxation, self-recovery and self-healing. SPSJ 60th Symposium on Macromolecules, The Society of Polymer Science, Polymer Preprints, Japan. Vol. 60, No. 2 (2011).
  11. M. A. Haque, T. Kurokawa, T. Nakajima, Y. Yue, and J. P. Gong. “Fracture Behavior of an Anisotropic Hydrogel Containing Nano-Scale Bilayer with Macro-scale Ordering” SPSJ 61th Annual Meeting, The Society of Polymer Science, Japan. Vol. 61, No. 1 (2012).
  12. M. A. Haque, J. P. Gong, et al. “Controlled and Selective Swelling of an Anisotropic Hydrogel by Restricted Diffusion of Water” SPSJ 61th Annual Meeting, The Society of Polymer Science, Japan. Vol. 61, No. 1 (2012).
  13. Y. Yue, M. A. Haque, et al. pH-Sensitive Hydrogel as Photonic Sensor based on Lamellar Bilayer Structure. SPSJ 61th Annual Meeting, The Society of Polymer Science, Japan. Vol. 61, No. 1 (2012).
  14. Y. Yue, M. A. Haque, T. Kurokawa, and J. P. Gong. Temperature and Stress Induced Color Tunable Photonic Hydrogel Containing Periodically Ordered Lamellar Bilayer Structure. SPSJ 61th Annual Meeting, The Society of Polymer Science, Japan. Vol. 61, No. 1 (2012).
  15. M. A. Haque, J. P. Gong, et al. “Study of Photonic Hydrogel with Photonic Crystal Structure” Hokkaido University and Mahidol University Joint Symposium, Sapporo, Japan, May 12-13, 2009.
  16. M. A. Haque, G. Kamita, T. Kurokawa, K. Tsujii, and J. P. Gong. “Multifunctional Hydrogel Containing Periodically Ordered Lamellar Bilayer Structure” Sapporo, Japan, August 27-28, 2010.
  17. M. A. Haque, J. P. Gong, et al. “Unidirectional Alignment of Lamellar Bilayer in Hydrogel: One-Dimensional Swelling, Anisotropic Modulus, and Stress/Strain Tunable Structural Color” International Fusion-Bioscience Symposium, Hokkaido University, Sapporo, Japan, March 4, 2011.
  18. Y. Yue, M. A. Haque, J. P. Gong, et al. “pH Sensitive Photonic Hydrogel Containing Periodical Lamellar Bilayers” International Fusion-Bioscience Symposium, Hokkaido University, Sapporo, Japan, March 2, 2012.
  19. Y. Yue, M. A. Haque, T. Kurokawa, and J. P. Gong. “A Thermally Adjustable Multicolor Photonic Hydrogel based on Lamellar Bilayer Structure” CSJ Hokkaido Branch Winter Meeting.
  20. M. A. Haque, T. Kurokawa, T. Nakajima, Y. Yue, J. P. Gong. Fracture Behavior of an Anisotropic Hydrogel Containing Nano-Scale Bilayer with Macro-scale Ordering. SPSJ 61st Symposium on Macromolecules, The Society of Polymer Science, Japan. Vol. 61, No. 2 (2012).
  21. M. A. Haque, T. Kurokawa, T. Nakajima, Y. Yue, S. Ahmed, J. P. Gong. Effect of Water Content on the Mechanical Properties of an Anisotropic Hydrogel Containing Macro-sacle Bilayer. SPSJ 61st Symposium on Macromolecules, The Society of Polymer Science, Japan. Vol. 61, No. 2 (2012).
  22. A. B. Ihsan, T. L. Sun, T. Kurokawa, S. Kuroda, M. A. Haque, T. Nakajima J. P. Gong. Self-healing behavior of tough hydrogel created by dynamic and reversible ionic bond. SPSJ 61st Symposium on Macromolecules, The Society of Polymer Science, Japan. Vol. 61, No. 2 (2012).
  23. A. B. Ihsan, M. A. Haque, J. P. Gong, et al. Ionic bonds as reversible sacrificial bonds to create tough hydrogel with self-healing property. SPSJ 61st Symposium on Macromolecules, The Society of Polymer Science, Japan. Vol. 61, No. 2 (2012).
  24. M. A. Haque, T. Kurokawa, J. P. Gong. Lamellar Bilayers as Reversible Sacrificial Bonds to Toughen Hydrogel. 第一回ソフトマター研究会、キャンパスプラザ京都(京都府京都市)、2011年8月3日.
  25. M. A. Haque, J. P. Gong, et al. Fracture Behavior of an Anisotropic Hydrogel Containing Nano-Scale Bilayer with Macro-scale Ordering. 9th International Gel Symposium 2012, Tsukuba, Japan.
  26. GI-CoRE Soft Matter Kick off Symposium, Amphiphilic Monomer to Fabricate High Functional Hydrogel, Hokkaido University, Sapporo, June 13, 2016.
  27. CSJ Division of Colloid and Surface Chemistry Fall Meeting, Amphiphilic Surfactant Monomer to Fabricate High Functional Hydrogel, Hokkaido University of Education Asahikawa, Hokkaido, September 22-24, 2016.  
  28. 11th International Polymer Conference (IPC-2016), Amphiphilic Monomer to Fabricate High Functional Hydrogel, Fukuoka, December 13-16, 2016.
  29. 66th SPSJ Annual Meeting, Lamellar Hydrogel to Fabricate Nacre-like Strong Material, Chiba, May 29-31, 2017.
  30. Gordon Research Conference on Polymer, Fabrication of Nacre-like Strong and Tough Composite from both Organic Components, Mount Holyoke College, USA, June 11-16, 2017. 
  31. Hokkaido University-ImPACT Joint Symposium, Fabrication of Nacre-like Strong and Tough Composite from both Organic Components, Hokkaido University, August 7-8, 2017. 
  • Self-assembly Structure in Polymer Gels, Stimuli-sensitive Photonic Gels, and Mechanics of Soft Materials and Gels, Liquid Crystalline Gels, Ionic Liquid in Polymer Gels
  • Removal of Textile Dyes by Hydrogel as recyclable absorber
  • Electrochemistry of Sol-gel transition
  • Composite based on Leather Wastes

CURRENT POSITION

Assistant Professor (2014-Present)

Department of Chemistry, University of Dhaka

Dhaka-1000, Bangladesh

PAST EXPERIENCES

2015-2017: JSPS Research Fellow, Laboratory of Soft & Wet Matter, Hokkaido University, Japan.

2014-2015: Assistant House Tutor, Sir A. F. Rahman Hall, University of Dhaka, Bangladesh.

2013-2014: Lecturer, Department of Chemistry, University of Dhaka.

2011-2013: Postdoctoral Research Fellow, Laboratory of Soft & Wet Matter, Hokkaido University, Japan.

2008-2011: Doctoral Research Fellow, Hokkaido University, Japan Govt. Scholarship (MEXT), Japan.

 

EDUCATIONAL QUALIFICATIONS

PhD

:

2011, Hokkaido University, Japan.

MS

:

2008, Department of Chemistry, University of Dhaka (First class 1st)

BSc

:

2006, Department of Chemistry, University of Dhaka (First class 3rd)

HSC

:

1999, Bhurungamari College, Kurigram (First division with star mark)

SSC

:

1997, Sonahat High School, Kurigram (First division with star mark)

 

PUBLICATIONS

  • Total Publications: 27
  • Original Articles: 22
  • Reviews: 3; Highlights: 1; Book Chapter: 1
  • Abstracts/proceedings  Published in Scientific Meeting: 30
  • Number of Attended Scientific Conference: 40

 

SELECTED PUBLICATIONS

  1. M.A. Haque, G. Kamita, T. Kurokawa, K. Tsujii, J.P. Gong. “Unidirectional Alignment of Lamellar Bilayer in Hydrogel: One-Dimensional Swelling, Anisotropic Modulus, and Stress/Strain Tunable Structural Color.” Advanced Materials 22, 5110-5114, 2010.
  2. M.A. Haque, T. Kurokawa, G. Kamita, J.P. Gong. “Lamellar Bilayers as Reversible Sacrificial Bonds to Toughen Hydrogel, Hysteresis, Self-recovery, Fatigue Resistance, and Crack Blunting.” Macromolecules 44, 8916-8924, 2011.
  3. M.A. Haque, T. Kurokawa, G. Kamita, Y. Yue, J.P. Gong. “Rapid and Reversible Tuning of Structural Color of a Hydrogel over the Entire Visible Spectrum by Mechanical Stimulation.” Chemistry of Materials 23, 5200-5207, 2011.
  4. M.A. Haque, T. Kurokawa, J.P. Gong. “Super Tough Double Network Hydrogels and Their Application as Biomaterials.” Polymer, 53, 1805, 2012.
  5. M.A. Haque, T. Kurokawa, J.P. Gong. “Anisotropic Hydrogel Based on Bilayers: Color, Strength, Toughness, Fatigue Resistance.” Soft Matter; 8, 8008, 2012.
  6. M.A. Haque, T. Kurokawa, J.P. Gong. Lamellar–micelle transition in a hydrogel induced by polyethylene glycol grafting. Soft Matter, 9, 5223-30, 2013.
  7. Y. F. Yue, M.A. Haque, T. Kurokawa, T. Nakajima, J.P. Gong. Lamellar Hydrogels with High Toughness and Ternary Tunable Photonic Stop-Band, Advanced Materials 25, 3106-3110, 2013.
  8. A.B. Ihsan, T. L. Sun, S. Kuroda,  M.A. Haque, T. Kurokawa, T. Nakajima, J.P. Gong, "A Phase Diagram of Neutral Polyampholyte-From Solution to Tough Hydrogel". J. Mater. Chem. B, 2013, 1, 4555-4562.
  9. T. L. Sun, T. Kurokawa, S. Kuroda,  A.B. Ihsan, T. Akasaki, K. Sato, M.A. Haque,  T. Nakajima, J.P. Gong, “Physical Hydrogels Composed of Polyampholytes Demonstrate High Toughness and Viscoelasticity,” Nature Materials, 12, 932–937, 2013.
  10. S. Ahmed, T. Nakajima, T. Kurokawa, M. A. Haque, J. P. Gong, “Brittle-Ductile Transition of Double Network Hydrogels: Mechanical Balance of Two Networks as the Key Factor” Polymer, 55: 914, 2014.
  11.  Y. Yue, T. Kurokawa, M. A. Haque, T. Nonoyama, T. Nakajima, I. Kajiwara, J. P. Gong, “Mechano-actuated Ultrafast Full-Colour Switching in Layered Photonic Hydrogels” Nature Communication, 5: 4659, 2014.
  12. T. Nakajima, C. Durand, X. F. Li, M. A. Haque, T. Kurokawa, J.P. Gong, “Quasi-unidirectional shrinkage of gels with well-oriented lipid bilayers upon uniaxial stretching” Soft Matter, 11: 237, 2015.
  13. X. Li, T. Kurokawa, S. Kuroda, R. Takahashi, M. A. Haque, Y. Yue, T. Nakajima, J.P. Gong, “Polymer Adsorbed Bilayer Membranes Form Self-Healing Hydrogels with Tunable Superstructure” Macromolecules, 48: 2277, 2015.
  14. Y. F. Yue, X. Li, T. Kurokawa, M. A. Haque, J. P. Gong, Decoupling dual-stimuli responses in patterned lamellar hydrogels as photonic sensors, J. Mater. Chem. B, 4: 4104, 2016.
  15. K. Mito, M. A. Haque, T. Nakajima, M. Uchiumi, T. Kurokawa, T. Nonoyama, J. P. Gong, “Supramolecular hydrogels with multi-cylindrical lamellar bilayers: Swelling-induced contraction and anisotropic molecular diffusion” Polymers 128, 373, 2017.
  16. M. Ilyas, M. A. Haque, Y. Yue, T. Kurokawa, T. Nakajima, T. Nonoyama, J. P. Gong. Water-Triggered Ductile−Brittle Transition of Anisotropic Lamellar Hydrogels and Effect of Confinement on Polymer Dynamics. Macromolecules 2017, 50, 8169−8177.
  17. M. A. Haque, K. Mito, T. Kurokawa, T. Nakajima, T. Nonoyama, M. Ilyas, J. P. Gong. Tough and Variable-Band-Gap Photonic Hydrogel Displaying Programmable Angle-Dependent Colors. ACS Omega 2018, 3, 55−62.

PERSONAL PROFILE

  • Permanent Address:  

Vill: Bharatercharra, Post: Bangla Sonahat

Thana: Bhurungamari, District: Kurigram  

  • Fathers name:

Md. Abdur Rahman Mollah

  • Mothers Name:

Begum Nurjahan

  • E-mail:

anamul@du.ac.bd

  • Phone:

01718-578880

  • Date of birth:

27 February 1982

  • Nationality:

Bangladeshi

  • Marital Status:

Married

 

 

 

 

 

 

 

 

 

 

 

 

 


 

SCHOLARSHIPS AND AWARDS

  • Junior High School Scholarship in the Talent Pool of the 1st Grade 1994-1996
  • Dhaka University Scholarship for Brilliant Results in Bachelor of Science 1st year Final in 2002
  • Dhaka University Scholarship for Brilliant Results in Bachelor of Science Final in 2006
  • Japan Government Scholarship (MEXT), Japan. October 2008-September 2011
  • Postdoctoral Fellowship, Hokkaido University, Japan. December 2011 to July 2013
  • Deans Award, Faculty of Science, University of Dhaka, 2014. 
  • Japan Society for the Promotion of Sciences (JSPS) postdoctoral fellowship. October 2015 to October 2017.

 

INTERESTS

  • Traveling
  • Sports

COUNTRY VISITED

  • Japan
  • USA
  • China
  • India