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Mohammad Changej
Assistant Professor - Chemistry
College of Applied Sciences


Name: Mohammad Changej
Job Title: Assistant Professor - Chemistry
College: College of Applied Sciences
Email: mchangej@asu.edu.om
Phone: Ext. 1170


AWARDs and SCHOLERSHIPs:

  1. Brain Korea Fellowship, Ministry of Sci. & Tech. S. Korea (July 2006 to Feb 2013).
  2.  Brain Pool Fellowship, Ministry of Sci. & Tech. S. Korea (July 2004 to July2006).
  3.  Senior Research Fellowship, University Grant Commission, Government of India (February 1995 to February 1998).
  4.  Junior Research Fellowship, University Grant Commission, Government of India (February 1993 to February 1995).
  5.  State Merit Fellowship (July 1986- July 1988), Government of Bihar, India.
  6. Best Employee 2018, ASU, Oman
  7. Most cited researcher. 2019, ASU, Oman

REVIWER

  1. International Journal of Pharmaceutical Science
  2. Drug Development and Industrial Pharmacy
  3. Polymer International
  4. J. Materials Science
  5. Life Science
  6. Pharmaceutical Biology 
  7. Arabian Journal of Geosciences

ROFESSIONAL EXPERIENCE

    A. Visiting Professor, Centre for Biomaterials in Surgical Reconstruction and Regeneration

division of Surgery & Interventional Science University College London, UK, (20th June 2019 to 31st July 2019) for joint research collaboration between ASU and University College London

  1. Visiting Professor, Gwangju Institute for Science and Technology (GIST), South Korea, for Joint Research Project (ASU and GIST) (28th July 2017 to 26th August 2017).
  2. Visiting Professor, Department of Chemistry, University of Tennessee, Knoxville, USA (28th June 2015 to 28th July 2015), Joint collaborative Research still going on.
  3. 26th July 2004 to 20th September 2014, Professor (Contact), School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), S. Korea 500712
  4. November 1999 to 25th July 2004: Project associate to Senior Scientist, Centre for Biomedical Engineering, Indian Institute of Technology (IIT)/All India Institute of Medical Sciences (AIIMS),
  1. June 1998 to November 1999: Research Fellow, Hamdard University, New Delhi, India\
  2. National Eligibility Test (NET) conducted jointly by Council of Scientific and Industrial Research (CSIR)/ University Grant Commission (UGC) of India, passed with All India Rank (1992) for Junior Research Fellowship (JRF) and Lecturer ship in an area of Chemical Science
  3. Junior Research Fellow (UGC) and Teaching Assistance February 1993 – February 1995, Department of Chemistry, Hamdard University, New Delhi, India
  4. Senior Research Fellow (UGC) and Teaching Assistance February 1995– February 1998, Department of Chemistry, Hamdard University, New Delhi, India

INVITED LECTURE

  1. Microemulsion as a carrier for controlled drug release. Department of Material Production and Engineering, University of Naples, Fedrico II, Italy. 20th January, 2004
  2.  Advantage of Hydrogel for Controlled/target drug delivery systems. Department of Material Production and Engineering, University of Naples, Fedrico II, Italy. 21st January, 2004.

 

RESEARCH HIGHLIGHTS-cum-STATISTICS

•           Status in Research:

h- Factor: 17 and i-10 Factor: 25

   •       1. Changez et al, Advance Materials, 24 (2012) 3253-3257, selected for 2012 Number One Excellent Research Achievement of the Gwangju Institute of Science and Technology.

2.  Changez et al, Nanoscale, 5 (23), (2013) 11554-11560, Voted one of the Hot Articles of   the year on the Royal Chemical Society (UK) website.

•           Research Telecasted and Reported by TV News Channels and News Papers

DISCOVERY CHANNEL (India), CNN-IBN (India), and National News Paper-Times of India.

•           Highest Impact Factor                                                               25.8

•           Average impact factor of published research papers in International

                Journal:                                                                                      5.2+ (Web of science)

•           International/National Conference Papers                                70+

•           Total Citations:                                                                         1000+

 

List of Patents

Submitted

  1. A SMART NANO-HOLLOW BAG FOR WASTE MANAGEMENT ESPECIALLY FOR FUSED POLYNUCLEAR AROMATIC HYDROCARBON AND CONTROL OF ENVIRONMENTAL POLLUTION, US Application No.: 63/133,476

Published Patents

 

 

 

No.

Details (List name of patent, registration No., date of registration, name of country registered, etc.)

Main inventor

1

Homopolymer nanoparticles by self-emulsion polymerization reaction and preparation method thereof,  Korean patent 910-1546314),  Publication date: August 17, 2015,

Mohammad Changez and Jae-Suk Lee

2

Homopolymer nanoparticles by self-emulsion polymerization reaction and preparation method thereof, -- Changez et al, (a) USA patent 914/304,2650, Publication date: June 13, 2014.

(b)  Patent No.: US 10, 093, 752 B2 ( 45 ) Date of Patent : Oct . 9 , 2018

Mohammad Changez and Jae-Suk Lee

3

Supramolecular structure having sub-nano scale ordering, Application number US14095332, US20140142250A1 Date of publication:  22-05- 2014

Mohammad Changez and Jae-Suk Lee

4

US Patent Application US2011/0124820A1 - SUPRAMOLECULAR STRUCTURE OF HAVING SUB-NANO SCALE ORDERING, Mohammad Changej, Haeng-Deog Koh, Shashadhar Samal, Nam-Goo Kang, Won-Jeong Shin, Young-Jae Kim, Jae-Suk Lee. Published on 26th May 2011. And world wise patent number WO 2009/139513 PCT Patent number: 2009/139513 7

 

Mohammad Changez and Jae-Suk Lee

5

Block copolymer as template for organic semiconductors.  Jae-Suk Lee, Mohammad Changez, Joon -Keun Min. 2008-0107938, S.  Korea

Mohammad Changez and Jae-Suk Lee

6

  Supramolecular Structure of having Sub-Nano Scale Ordering. PCT/KR2008/002718

Mohammad Changez and Jae-Suk Lee

  

 

7

  Pattern to Sub-nano Scale Ordering in Supramolecular Structure by Chemical Crosslinking between hosts and guests. Mohammad Changez et al 

Korea Patent No. 10-2007-0023529 (2007.03.09).

Mohammad Changez and Jae-Suk Lee

    

8

  A Novel Hydrogel, V.Koul, V. Choudhary, A.K. Dinda, and Mohammad Changez, B. Krishna (Foundation for innovation technology and transfer, FITT, Indian Institute of Technology , Delhi (IITD), Patent Application No: 1067/DEL/2002; patent granted.

V-Koul

  

 

9

A process for preparation of hydrogel. V. Koul, V. Choudhary, A.K. Dinda, M. Changez and B. Krishna (FITT, IITD, patent Application no: 1068/DEL/2002, patent granted, submitted for US Patent). (http://www.techno-preneur.net/technology/New-technologies/Medicine/gel.htm)

V. Koul

10

A Composition for use as a Carrier in Transdermal Drug Delivery of Nitro glycerine. Dr. M. Varshney and Dr. Mohammad Changez, Patent Application Number: (http://india.bigpatents.org/view/44467/4caa9d0916b) Application 820/DEL/2003 published 2006-12-29, filed 2003-06-19. Granted Application, Patent Number : 233620

M. Varshney

  

Published Papers

No

Details (title, authors, name of the journals, vol., and pages)

Type of paper

FA/CA

 

Impact Factor

Times Cited

1

Solution-State Long-Range Molecular Ordering in Poly(3-hexylthiophene)

Mohammad Changez, Mohammad Faiyaz Anwar, Rayya Al Balushi, and Jae-Suk Lee, Langmuir 2020, 36, 37, 11028–11033

Article

FA and CA

3.557

 

2

Highly ordered supramolecular structure built from poly (4-(4-vinylphenylpyridine)) and 1, 1-ferrocenedicarboxylic acid via hydrogen bonding, Zuwang Wen, Wonbin Kim, Seung Jo Yoo, Chang-Geun Chae, Ho-Bin Seo, In-Gyu Bak, Mohammad Changez, Jae-Suk Lee, Polymer Chemistry,11, 2666-2673, 2020

 

 

4.76

 

3

Growth of close-packed crystalline polypyrrole on graphene oxide via in situ polymerization of two-monomer-connected precursors, Wonbin Kim, Hong-Joon Lee, Zubair Ahmad, Seung Jo Yoo, Youn-Joong Kim, Santosh Kumar, Mohammad Changez, Jung-Soo Lee, Jae-Suk Lee, Nanoscale, 11, (33), 15641-1564, 2019

Full paper

 

6.97

1

4

Supramolecular architecture of molecular-level-ordered 1,1’-ferrocenedicarboxylic acid with poly(4-vinylpyridine) for bulk magnetic coupling" Lee, Hong-Joon ; Shin, Won-Jeong ; Sung, Nakheon ; Kim, Won-bin; Cho, Beong Ki; Changez, Mohammad; Lee, Jae-Suk, ACS Appl. Polym. Mater. 2019, 1, 3, 397-404 ( with cover page)

Full paper

CA

First vol. of journal

2

5

In Vivo Anti-Cancer Potential of Pyrogallol in Murine Model of Colon Cancer Seemaisamy Revathi1, Faruck Lukmanul Hakkim2,3*, Neelamegam Ramesh Kumar4, Hamid A Bakshi5,6, Alagar Yadav Sangilimuthu7, Murtaza M Tambuwala5, Mohammad Changez8,  Mohamed M Nasef6, Muthukalingan Krishnan4, Nagarajan Kayalvizhi1, Asian Pacific Journal of Cancer Prevention, Vol 20, 2645-2651, 2019.

Article

 

 

 

6

 

Sub-nano Scale Molecular Self-assembly for Nanotechnology Applications

M Changez, N Tashtoush, HJ Lee, N Kang, JS Lee,

International Journal of Trend in Research and Development (IJTRD) (Proceedings of International Conference on Arts, Science & Technology, Dubai, 20-22 December 2017), 2018, 85-87

 

paper

FA/CA

3.89

Online

 

7

In Situ Formation of Molecular-scale Ordered Polyaniline Film by Zinc Coordination, Hong-Joon Lee, Sang-Ook Hur, Min-Kyoon Ahn, Mohammad Changez, and Jae-Suk Lee, ,  Nanoscale, 2017,9, 6545-6550.

communication

 

6.97

11

8

2-Isopropenyl-2-oxazoline: Well-Defined Homopolymers and Block Copolymers via Living Anionic Polymerization, Hongbo Feng, Mohammad Changez, Kunlun Hong, Jimmy W. Mays, and Nam-Goo Kang. Macromolecules, 2017, 50 (1),  54–62.

Article

 

5.55

6

9

Estimation of Energy levels of Self-assembled Ferrocenyls and Investigation of Charge-Driven Electro-crystallization of Ferricenyl materials, Hakikulla H. Shah, Muhammad Changez, Mohammad Luqman, Yahya Ismail, Paul R. Raithby and Frank Marken, Energy Procedia (ISSN: 1876-6102), 100, 2016,  149–154

Proceeding

 

0.92

 

10

Effect of Biphenyl Spacers on the Anionic Polymerization of 2-(4′-Vinylbiphenyl-4-yl) pyridine,Nam-Goo Kang, Mohammad Changez, Myung-Jin Kim, Jae-Suk Lee, Macromolecules,  47 (19), 2014, 6706-6714.

Article

 

5.55

6

11

Effect of substituted groups on the living anionic polymerization of 2-vinylcarbazole derivatives, Nam-Goo Kang, Yoon-Hyung Hur, Mohammad Changez, Beom-Goo Kang, Yong-Guen Yu, Jae-Suk Lee, Polymer, 54 (21) 2013,5615-5625.

Article

 

3.776

4

12

Novel amphiphilic homopolymers containing meta- and para-pyridine moieties with living characteristics and their self-assembly, Yoon-Hyung Hur, Nam-Goo Kang, Beom-Goo Kang, Yong-Guen Yu, Mohammed Changez, Jae-Suk Lee, The Journal of Polymer Science Part A: Polymer Chemistry, 51 (2013), 3458–3469.

Article

 

3.243

5

13

Hollow Flower Micelles from Diblock Copolymer, Mohammad Changez, Nam-Goo Kang,D.W. Kim, and Jae-Suk Lee, Nanoscale, 5 (23) (2013), 11554-11560. Voted one of the Hot Articles of the year on the Royal Chemical Society website.

Communication

FA

6.97

7

14

Exploration of the Mechanism for Self-Emulsion Polymerization of Amphiphilic Vinylpyridine

S Kumar, DW Kim, HJ Lee, M Changez, TH Yoon, JS Lee

Macromolecules 46 (18) (2013), 7166-7172

 

 

 

5.55

12

15

Molecular-Level Ordering of Poly(2-vinylpyridine), Mohammad Changez, Haeng-Deog Koh, Nam-Goo Kang, Jin-Gyu Kim,Youn-Joong Kim, Shashadhar Samal, and Jae-Suk Lee, Adv. Materials, 24 (2012), 3253-3257.

Communication

FA

25.8

25

16

Well-Defined Ambipolar Block Copolymers Containing Monophosphorescent Dye,

Nam-Goo Kang, Beom-Goo Kang, Yong-Guen Yu, Mohammad Changez, and Jae-Suk Lee, ACS Macro Letter 1 (2012), 840-844.

Communication

 

5.76

5

17

Uni-Molecular Hollow Micelles from Amphiphilic Homopolymer Poly(2-(4-vinylphenyl)pyridine) Micelles to Vesicles, Mohammad Changez, Nam-Goo , and Jae-Suk Lee, Small 8 (2012), 1173-1178.

Communication

FA

10,86

13

18

Functionalization of Amphiphilic Coil-Rod-Coil Triblock Copolymer Poly(2-vinylpyridine)-b-poly(n-hexyl isocyanate)-b-poly(2-vinylpyridine) with Florescence Moiety and C60, M. Shahinur Rahman, Mohammad Changez, Joonkeun Min, Priyank N. Shah, Shashadhar Samal, and Jae-Suk Lee, Polymer, 52 (2011), 1925-1931.

Article

 

3.776

10

19

Synthesis of Well-defined Amphiphilic Block Copolymers by Organotellurium-Mediated Living Radical Polymerization (TERP)'
Santosh Kumar, Mohammad Changez
, C. N. Murthy, Shigeru Yamago, Jae-Suk Lee.  Macromol. Rapid Commun., 32 (2011), 1575-1582.

Communication

 

4.608

17

20

Effect of Solvent Composition on Transformation of Micelles to Vesicles of Rod-Coil Poly(n-hexyl isocyanate-block-2-vinylpyridine) Diblock Copolymers, Mohammad Changez, Kang, Nam-Goo; Koh, Haeng-Deog; Lee, Jae-Suk,), Langmuir, 26 (2010) ,9981–9985.

Article

FA

4.384

23

 

21

Au/CdS Hybrid Nanoparticles in Block Copolymer Micellar Shell, Haeng-Deog Koh,  Mohammad Changez, and Jae-Suk Lee, Macromolecules Rapid Communication, 31 (2010),1798-1804.

Article

 

4.608

 

 

19

22

Reversible and pH Sensitive Vesicles from Amphiphilic Homopolymer Poly(2-(4-vinylphenyl)pyridine), Mohammad Changez, Nam-Goo Kang, Chi H. Lee, Jae-Suk Lee, Small, 6, (2010), 63-68.

Communication

FA

10.86

48

23

Reversibly Interchangeable, Chain-Wrapped Micelles and Vesicles of an Amphiphilic Rod–Coil Block Copolymer, Haeng-Deog Koh, Ji-Woong Park, M. Shahinur Rahman, Mohammad Changez, and Jae-Suk Lee, Chemical Communications, 32 (2009), 4824-4826.

Article

 

6.718

6

24

Preparation of Ag-Embedded Polystyrene Nanospheres and Nanocapsules by Miniemulsion Polymerization, Haeng-Deog Koh, Mohammad Changez, Jung-Pil Lee, and Jae-Suk Lee, Macromol. Rapid Commun, 18 (2009), 1583-1588.

Article

 

4.608

17

25

Formation of Intermicellar-Chained and Cylindrical Micellar Networks From an Amphiphilic Rod-Coil Block Copolymer: Poly(n-hexyl isocyanate)-block-Poly(2-vinylpyridine), Haeng-Deog Koh, Mohammad Changez, M. Shahinur Rahman, and Jae-Suk Lee,Langmuir, 25 (2009), 7188-7192.

Letter

 

4.384

12

26

Living Anionic Polymerization of Isocyanate Containing a Reactive Carbamate Group, M. Shahinur Rahman, Hee-Soo Yoo, Mohammad Changez, and Jae-Suk Lee Macromolecules, 42 (2009), 3927-3932.

Article

 

5.55

10

27

Block copolymers containing pyridine moieties: Precise synthesis and applications, Nam-Goo Kang, Beom-Goo Kang, Haeng-Deog Koh, Mohammad Changez, and Jae-Suk Lee, Reactive and Functional Polymers, 69 (2009), 470-479.

Review

 

2.72

23

28

Synthesis of Amphiphilic Miktoarm Star Copolymers of Poly(n-hexyl isocyanate) and Poly(ethylene glycol) through Reaction with the Active Methylene Group, M. Shahinur Rahman, Mohammad Changez, Jin-Wook Yoo, Chi H. Lee, Shashadhar Samal, and Jae-Suk Lee. Macromolecules 41(2008), 7029-7032.

Article

 

5.55

27

29

Living Anionic Polymerization of the Amphiphilic Monomer 2-(4-Vinylphenyl)pyridine, Kang, N.-G., Changez, M., Lee, J.-S.,Macromolecules 40 (2007) 8553-8559.

Article

 

5.55

31

30

Solvent-Induced Transition of Hollow Sphere to Giant-Tube from Amphiphilic Rod-Coil-Rod Triblock Copolymers of 2-Vinylpyridine and n-Hexyl Isocyanate M. Shahinur Rahman, M. Changez, S. Samal and Jae-Suk Lee, J. Nanosci. Nanotechnol. 7 (2007), 3892–3895.

Article

 

1.339

3

31

Effect of the Composition of Lecithin /n-propanol/isopropyl myristate/water Microemulsions on Barrier Properties of Mice Skin for Transdermal Permeation of Tetracaine Hydrochloride: In Vitro Studies, Mohammad Changez, Manoj Varshney, Jadish Chander and Amit Kumar Dinda, Collide and Surfaces B: Bio interface, 50 (2006), 18–25.

Article

FA & CA

4.15

94

32

Transdermal Permeation of Tetracaine Hydrochloride by Lecithin Microemulsion: In-Vivo. Mohammad Changez, Jagdish Chander and Amit Kumar Dinda. Collide and Surface B: Bio interface. 48 (2006), 58-66.

Article

FA & CA

4.15

73

33

Efficacy of Antibiotics loaded Interpenetrating Network (IPNs) hydrogel based on poly (acrylic acid) and Gelatine for treatment of Experimental Osteomyelitis: In Vivo study, Mohammad Changez,Veena Koul, Amit Kumar Dinda. Biomaterial 26 (2005), 2095-2104.

Article

FA

10.317

76

34

Studies on biodegradation and release of gentamicin sulphate from interpenetrating network hydrogels based on poly(acrylic acid) and gelatin : In vitro and in vivo, Mohammad Changez, Veena Koul, B. Krishna, Veena Choudhary and Amit Kumar Dinda, Biomaterial 25 (2004), 139-146.

Article

FA

10.317

110

35

The Effect of Composition of Poly (Acrylic acid)–Gelatin Hydrogel on Gentamicin Sulphate Release: In Vitro, Mohammad Changez, Krishna Burugapalli, Veena Koul and Veena Choudhary.  Biomaterials 24 (2003), 527–53.

Article

FA

10.317

162

36

Study of Aerosol-OT Microemulsion as a Transdermal Carrier of Tetracaine Hydrochloride, Mohammad Changez and Manoj Varshney, Drug Development and Industrious Pharmacy 26 (2000), 507-512

Article

FA

2.006

121

37

Effect of AOT micelles systems on the transdermal permeation of glyceryl trinitrate. M. Varshney, T. Khanna and Mohd Changez, Collide and Surface B: Bio interface 13, (1999), 1-11.

Article

 

4.15

29

38

Effect of AOT microemulsion in topical drug delivery. Mohammad Changez and M. Varshney), Proceed Int'l Sym. Cont. Reles. Bioact Mater. 25, (1998) Control Release Society Inc, 605-606.

Article

FA

 

-

Note; FA: First Author; CA: Corresponding Author

 

Recent Conference (2019)

  • 4 – 5th March 2019 – Oman - Sultan Qaboos University - 4th ISANH Middle East Congress - “Nanotechnology-based transdermal delivery of vitamins through mice skin - in vitro.”

THIS RESEARCH WORK COVERED BY MEDIA:

Anorexia in the Middle East Is an Overlooked Problem, Say Researchers.

Benjamin Plackett / 16 Apr 2019

http://portal.asu.edu.om/asu-students-research-in-the-news/

https://www.al-fanarmedia.org/2019/04/anorexia-in-the-middle-east-is-an-overlooked-problem-say-researchers/

 

  • 15 – 16th April 2019 – Oman - Sultan Qaboos University - 2nd Students Research Conference - “Molecular Ordering in Poly(Aniline) through Controlled Cross-linking.”

 

  • 29Th April 2019 – UAE – University of Abu Dhabi – 7th Undergraduate Research Competition – “Removal of Fused Poly-Nuclear Aromatic Hydrocarbon from Soil, Water, and Air.”

 

Selected conferences papers

 

International

 

  1.      Effect of AOT microemulsion in topical drug delivery. Mohammad Changez and M. Varshney, Int. Sym. On micellar, microemulsion, and monolayer, Quarter century progress and new horizon at University of Florida, USA, 26-28 August 1995.
  2.     Synthesis of Rod-Coil Block Copolymer by Living Anionic Polymerization and its Characterization for the Formation of Nano Particles, Sang-Ho Han, Hee-Soo Yoo, Mohammad Changej, Shashadhar Samal, and Jae-Suk Lee,  Nov. 10-12, 2005 International Conference on Nano Science and Nanotechnology.
  3.    Transdermal Permeation of Tetracaine Hydrochloride by Lecithin Microemulsion and its biochemical responses in mice: In-vivo.2005, Mohammad Changez. J. Chander International Conference on Nano-science and Nanotechnology, November 10-12, 2005, Gwangju Institute of Science and Technology, South Korea, pp143.
  4.     Formation of PEG-b-PHIC micelles for pharmaceutical application, Mohammad Changez, S. Rahman, J. S. Lee, International conference for Nano Science and Technology, South Korea, December 6-7, 2006.
  5.     Synthesis and Self-Assembly Studies of Amphiphilic Block Copolymers of Poly(n-hexyl isocyanate) and Poly(ethylene glycol), M. Shahinur Rahman, Mohammad Changez -PSK30, 2006, p.613
  6.   Micellization Behavior of Amphiphilic Rod-Coil Multi-Block Coploymers, M. Shahinur Rahman, Shashadhar Samal, Mohammad Changez, Jin-Wook Yoo, Chi H. Lee and Jae-Suk Lee, Gwangju, December 7-8, 2006, 2006 International Conference on Nano Science and Nanotechnology, pp. 51-52
  7.    Polymeric Nano-Donut Resulting from Coil-Rod Amphiphipilic Diblock Copolymer Micelles, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez, and Jae-Suk Lee, Gwangju, December 7-8, 2006, International Conference on Nano Science and Nanotechnology, pp. 296
  8.      Vesicle Nano-reactors Rod-Coil Amphiphilic Diblock Copolyme Au nanoparticles Stabilized in Polymeric Donuts formed by Fusions of PHIC-b-P2VP Amphiphilic Rod-Coil Diblock Copolymer Micelles, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez and Jae-Suk Lee, Pusan, Oct 10~13, 2006, IUPAC-PSK30, p.407.
  9.      Preparing Au or QD Nanoparticles, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez, Jae-Suk Lee, IUPAC International Symposium on Ionic Polymerization 2007, September 2-7, 2007, Kloster Banz, Germany.
  10. Synthesis of Amphiphilic Rod-Coil Miktoarm star Copolymers of Poly(n-hexyl Isocyanate) with Poly(ethylene glycol) and Their Micellization Studies, M. Shahinur Rahman, Joon-Keun Min, Mohammad Changez, Jin-Wook Yoo, Jae-Suk Lee, IUPAC International Symposium on Ionic Polymerization 2007, September 2-7, 2007, Kloster Banz, Germany.
  11. Synthesis of Poly(2-(4-vinylphenyl)pyridine) and its block copolymers by living anionic polymerization, Nam-Goo Kang, Mohammad Changez, Jae-Suk Lee, IUPAC International Symposium on Ionic Polymerization 2007, September 2-7, 2007, Kloster Banz, Germany.
  12. Concentration-Induced Rod-Coil Block Copoymer Micellar and Vesicular Nanoreactors, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez, Jae-Suk Lee, 2007 International Symposium on Advanced Macromolecules and Nano-Materials with Precisely Designed Architectures, October 4th-6th, 2007, Hokkaido University, Sapporo, Japan.
  13. Micro-Scale Self-Assembly of Au Nanoparticles in Microemulsion, Haeng-Deog Koh, Mohammad Changez, Jae-Suk Lee, 2007, International Conference on Nanoscience and Nanotechnology, 071108-09.
  14. Living anionic polymerization of 2-(4-vinylphenyl)pyridine, K. Namgoo, Mohammad Changez, J. S Lee,12th Korea-Japan Young Scientist Symposium on Polymer Science and Technology, International Research Centre of Mac, 070906.
  15. Living Anionic Polymerization of the Amphiphilic Monomer 2-(4-Vinylphenyl)pyridine, K. Namgoo, Mohammad Changez, J.S. Lee, 2007 NAIST/GIST joint Symposium on Advanced Materials, 071122.
  16. Synthesis of Block Copolymers Containing Pyridine Moiety and their Micellization, Lee, Jae-Suk, Mohammad Changez, Kang, Nam-Goo, Kang, Bum-Goo, Koh, Haeng-Deog, The 12th World Multi-Conference on Systemics, Cybernetics and Informatics (WMSCI2008), Orlando, USA, 080629-080702, p.13.
  17. Nanoparticles from Block copolymers containing Pyridine, Jae-Suk Lee, Mohammad Changez, Nam-Goo Kang, 1st International Symposium on Polymer Materials Science and Technology at Harbin, Harbin, China, 080721-080724.
  18. Living Anionic Polymerization of p-Substitutied Styrene Containing Pyridine Moieties, Nam-Goo Kang, Mohammad Changez, and Jae-Suk Lee, Japan-Korea Polymer Young Scientist Symposium, Niigata, Japan, 081022-081025, p.321-322.
  19. Living Anionic Polymerization of Isocyanates using Oxy Anion, Joon Keun Min, Hun-Hwan Ahn, Shah Priyank N., Mohammad Changez, Jae-Suk Lee, 2nd Japan-Korea Joint Seminar 2008 and International Symposium-Synthesis and Application of Advanced Functional Materials, Tokyo Institute of Technology, Japan, 081105-081107, 2008, p.54-55.
  20. Syynthesis of Amphiphilic Rod-Coil Polyisocyanate-b-Poly(2-vinylpyridine) Block Copolymers and Their Self-Assembling, Haeng-Deog Koh, M. Changez, M. Shahinur Rahman, Joon Keun Min, Jae-Suk Lee, IUMRS-ICA2008, Nagoya Congrées Centre, Japan, 081210, 2008.
  21. Synthesis and Self-assembly of block copolymers containing pyridines, Nam-Goo Kang, Mohammad Changez, Haeng-Deog Koh, Jae-Suk Lee, 2010 Japan-Taiwan Bilateral Polymer Symposium, Hokkaido University, Japan, 100630-0703, 2010 (Invited).
  22. Synthesis of Low Molecular Weight Amphiphilic Block Copolymers by Organotellurium-Mediated Living Radical Polymerization(TERP), Santosh Kumar, Mohammad Changez, C. N. Murthy, Shigru Yamago, Jae-Suk Lee, National Conference on Advances in Polymer Science & Nanotechnology: Design and Structures, India, 20111216-17.
  23. Living Anionic polymerization of amphiphilic monomer containing pyridine moiety and their self-assembly behaviours, Yoon-Hyung Hur, Beom-Goo Kang, Yong-Geun Yu, Nam-Goo Kang, M. Changez, Jae-Suk Lee, 243rd ACS National Meeting & Exposition, USA, 20120325-20120329.
  24. Molecular Level Ordering in Poly(2-vinylpyridine), Mohammad Changez, Haeng-Deog, Nam-Goo Kang, Chan-Geun Chae, Jin-Gyu Kim, Youn-Joong Kim, Shashadhar Samal, Jae-Suk Lee, The 10th Nano Korea 2012, Seoul, . 20120816-20120818.
  25. Molecular Level Ordering in Poly(2-vinylpyridine), Mohammad Changez, Haeng-Deog, Nam-Goo Kang, Chan-Geun Chae, Jin-Gyu Kim, Youn-Joong Kim, 2012 International Conference on Nano Science and Nano Technology,            Gwangju, South Korea, 20121108 – 20121109.
  26. 3D metallic poly(2-vinylpyridine) controlled via crosslinking, Hong-Joon Lee, Mohammad Changez, Haeng-Deog Koh, Nam-Goo Kang, Jae-Suk Lee, Joint Symposium on Materials Science and Engineering for 21st century, Taiwan, 20130623-26.
  27. 3D metallic poly(2-vinylpyridine) controlled via crosslinking, Hong-Joon Lee, Mohammad Changez, Haeng-Deog Koh, Nam-Goo Kang, Jae-Suk Lee, Nano Korea, Deajon, 20130731-0802.
  28. Exploration of the Mechanism for Self-Emulsion Polymerization and Synthesis of Polymeric Nanoparticles from Amphiphilic Homopolymer, Santosh Kumar, Dong-Woo Kim, Hong-Joon Lee, Mohammad Changez, Tae-Ho Yoon and Jae-Suk Lee*, the 11th International conference on Nano Science and Nano Technology, 2013.11.07 – 2013.11.08, Gwangju.

 

National Conferences

 

  1. National seminar on perspective in interfacial area of chemistry and biology, M. Changez, M. Varshney, Jan 20-22 Delhi University, India, 1998.
  2. Development of new carrier for transdermal delivery of local anaesthesia, Changez, M. Varshney, in Symposium on Technology in Family Welfare, December 8-10, 2001, IIT-New Delhi, India. pp. 62.
  3. Biocompatibility of interpenetrating polymer network (IPN) hydrogel: An in vivo study, B. Krishna, M. Changez, A. K. Dinda, Veena Koul, Twelfth National Conference of the Society for Biomaterials and Artificial Organs, India, November 28-29, 2001, IIT-Madras, India, pp. T31.
  4. In vitro degradation kinetics of modified polymeric hydrogels based on poly (acrylic acid) and gelatine for the treatment of osteomyelitis, M. Changez, B. Krishna, A. K. Dinda, Veena Koul,  in Twelfth National Conference of the Society for Biomaterials and Artificial Organs, India, November 28-29, 2001, IIT-Madras, India, pp. T23.
  5. Development of Biodegradable Hydrogels for Controlled Release of Antibiotics for the Treatment of Osteomyelitis M. Changez, B. Krishna, A. K. Dinda, Veena Koul,, pp- 63-66.Procedind of National seminar on artificial organ and biomaterial, IIT Kharagpur, India, Dec.6-8, 2000.
  6. Concentraion-Induced Morphological Transition of Coil-Rod Block Copolymer Micelles to Hollow Spheres, H. Koh M. Shahinur Rahman, Mohammad Changej, J.S. lee, 2007 Jejo, 070412-13, Korean Polymer Society.
  7. Flower micelles from block copolymer poly( 2-(4-vinylphenyl)pyridine)-b-poly(2-vinyl)pyridine), Kang, Mohammad Changez, J.S. Lee, 2007 Korean Polymer Society 071011-12.
  8. Block copolymerization of 2-(4-vinylphenyl)pyridine with various monomers by sequential living anionic polymerization and study of its reactivity order and morphology, Kang Namgoo, Mohammad Changez, J. S. Lee, 2007 Korean Polymer Society, 071011-12.
  9. Au Nanoparticles Self-Assembled to Microfiber-Like Structure in Microemulsion, Koh, Mohammad Changej, J. S. Lee, 2007 Koran Polymer Society, 071011-12.
  10. Living Anionic Polymerization of 2-(4’-vinylbiphenyl-4-yl)pyridine), K. Nammgo, Mohammad Changez, J. S. Lee , 2008 Korean Polymer Society, 081009-081010, p.84
  11.  Synthesis and Self-Assembly of Amphiphilic Homopolymer and Blockcopolymer Containing 4-(4-Vinyphenyl)pyridine, H. Hoor,  K. Nammgo, Mohammad Changez,  J. S. Lee, 2011, 20110407-08, Korea Polymer Society.  
  12. Facile, Controlled Molecular Level Ordering of Poly(2-vinylpyridine) via Chemical cross-linking, Mohammad Changez, Haeng-Deog, Nam-Goo Kang, Chan-Geun Chae, Jin-Gyu Kim, Youn-Joong Kim, Shashadhar Samal, Jae-Suk Lee, 2012, Korea Chemical Society, 20121017-20121019.
  13. Well-Defined Ambipolar Block Copolymers Containing Monophosphorescent Dye, Kang Nammgo, Mohammad Changez, Young Gun, J. S. Lee, Busan Korean Chemical Society, 20121017-20121019.

 

 

Laboratory Setup

Actively participate in purchasing and setup of various analytical instruments since last 20 years. Starting from my Ph. D program, I was actively involved in analytical laboratory set up in Hamdard University central equipments facility. At Centre for Biomedical Engineering, IIT Delhi, we set up instrument’s laboratory for biomedical experimental works. During to my research, I regularly used following instruments for the characterization of samples at Gwangju Institute of Science and Technology, South Korea.

1. Transmission Electron microscope (TEM) at low- and high-resolution scale (operating voltage from 80 kV to 1250 kV)

2. Scanning Electron Microscope (SEM)   

3. Atomic Force Microscope (AFM)

4. Conducting Atomic Force Microscope (CAFM)

5. Laser Scanning Confocal Microscope (LSCM)

6. Florescence and optical Microscope (FM)

7. Raman spectroscopy

8. Dynamic/static light scattering (DLS/SLS)

9. X-ray diffraction (SAXS /WAXS)

10. NMR, EPR, FT-IR, ATR, UV-vis, (NIR), Far –IR, XPS, Atomic Absorption and Tera Hz Spectroscopy

11. HALL effect and I-V measurement system,

12. HPLC, LC-Mass, GLC, GPC, DSC, TGA etc

Training:

1. Training on Magnetic Resonance Imaging (MRI) and Magnetic Resonance Spectroscopy (MRS) for chemical analysis.

2. Training on High resolution NMR Spectroscopy for Polymers

 

 

1. Ph. D  (1998) Colloids and Surface Chemistry

2. M. Sc (Physical Chemistry)

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

,

Member of the Scientific Society

  1. Royal Society of Chemistry (UK)
  2. Life Member of Indian Polymer Society
  3. Life Member of Asia Polymer Association

!. Nanotechnology

2. Materials

3. Control Drug Delivery

4. Polymer

5. Colloid and Surface Chemistry

6. Catalyst 

 


Journal paper

List of Patents

Submitted

  1. A SMART NANO-HOLLOW BAG FOR WASTE MANAGEMENT ESPECIALLY FOR FUSED POLYNUCLEAR AROMATIC HYDROCARBON AND CONTROL OF ENVIRONMENTAL POLLUTION, US Application No.: 63/133,476

Published Patents

No.

Details (List name of patent, registration No., date of registration, name of country registered, etc.)

Main inventor

1

Homopolymer nanoparticles by self-emulsion polymerization reaction and preparation method thereof,  Korean patent 910-1546314),  Publication date: August 17, 2015,

Mohammad Changez and Jae-Suk Lee

2

Homopolymer nanoparticles by self-emulsion polymerization reaction and preparation method thereof, -- Changez et al, (a) USA patent 914/304,2650, Publication date: June 13, 2014.

(b)  Patent No.: US 10, 093, 752 B2 ( 45 ) Date of Patent : Oct . 9 , 2018

Mohammad Changez and Jae-Suk Lee

3

Supramolecular structure having sub-nano scale ordering, Application number US14095332, US20140142250A1 Date of publication:  22-05- 2014

Mohammad Changez and Jae-Suk Lee

4

US Patent Application US2011/0124820A1 - SUPRAMOLECULAR STRUCTURE OF HAVING SUB-NANO SCALE ORDERING, Mohammad Changej, Haeng-Deog Koh, Shashadhar Samal, Nam-Goo Kang, Won-Jeong Shin, Young-Jae Kim, Jae-Suk Lee. Published on 26th May 2011. And world wise patent number WO 2009/139513 PCT Patent number: 2009/139513 7

 

Mohammad Changez and Jae-Suk Lee

5

Block copolymer as template for organic semiconductors.  Jae-Suk Lee, Mohammad Changez, Joon -Keun Min. 2008-0107938, S.  Korea

Mohammad Changez and Jae-Suk Lee

6

  Supramolecular Structure of having Sub-Nano Scale Ordering. PCT/KR2008/002718

Mohammad Changez and Jae-Suk Lee

  

 

7

  Pattern to Sub-nano Scale Ordering in Supramolecular Structure by Chemical Crosslinking between hosts and guests. Mohammad Changez et al 

Korea Patent No. 10-2007-0023529 (2007.03.09).

Mohammad Changez and Jae-Suk Lee

    

8

  A Novel Hydrogel, V.Koul, V. Choudhary, A.K. Dinda, and Mohammad Changez, B. Krishna (Foundation for innovation technology and transfer, FITT, Indian Institute of Technology , Delhi (IITD), Patent Application No: 1067/DEL/2002; patent granted.

V-Koul, M Changez

  

 

9

A process for preparation of hydrogel. V. Koul, V. Choudhary, A.K. Dinda, M. Changez and B. Krishna (FITT, IITD, patent Application no: 1068/DEL/2002, patent granted, submitted for US Patent). (http://www.techno-preneur.net/technology/New-technologies/Medicine/gel.htm)

V-Koul, M Changez

10

A Composition for use as a Carrier in Transdermal Drug Delivery of Nitro glycerine. Dr. M. Varshney and Dr. Mohammad Changez, Patent Application Number: (http://india.bigpatents.org/view/44467/4caa9d0916b) Application 820/DEL/2003 published 2006-12-29, filed 2003-06-19. Granted Application, Patent Number : 233620

M.Changez and Manoj Varshney 

 


Published Journal Papers  

No

Details (title, authors, name of the journals, vol., and pages)

Type of paper

FA/CA

 

Impact Factor

Times Cited

1

Solution-State Long-Range Molecular Ordering in Poly(3-hexylthiophene)

Mohammad Changez, Mohammad Faiyaz Anwar, Rayya Al Balushi, and Jae-Suk Lee, Langmuir 2020, 36, 37, 11028–11033

Article

FA and CA

3.557

 

2

Highly ordered supramolecular structure built from poly (4-(4-vinylphenylpyridine)) and 1, 1′-ferrocenedicarboxylic acid via hydrogen bonding, Zuwang Wen, Wonbin Kim, Seung Jo Yoo, Chang-Geun Chae, Ho-Bin Seo, In-Gyu Bak, Mohammad Changez, Jae-Suk Lee, Polymer Chemistry,11, 2666-2673, 2020

 

 

4.76

 

3

Growth of close-packed crystalline polypyrrole on graphene oxide via in situ polymerization of two-monomer-connected precursors, Wonbin Kim, Hong-Joon Lee, Zubair Ahmad, Seung Jo Yoo, Youn-Joong Kim, Santosh Kumar, Mohammad Changez, Jung-Soo Lee, Jae-Suk Lee, Nanoscale, 11, (33), 15641-1564, 2019

Full paper

 

6.97

1

4

Supramolecular architecture of molecular-level-ordered 1,1’-ferrocenedicarboxylic acid with poly(4-vinylpyridine) for bulk magnetic coupling" Lee, Hong-Joon ; Shin, Won-Jeong ; Sung, Nakheon ; Kim, Won-bin; Cho, Beong Ki; Changez, Mohammad; Lee, Jae-Suk, ACS Appl. Polym. Mater. 2019, 1, 3, 397-404 ( with cover page)

Full paper

CA

First vol. of journal

2

5

In Vivo Anti-Cancer Potential of Pyrogallol in Murine Model of Colon Cancer Seemaisamy Revathi1, Faruck Lukmanul Hakkim2,3*, Neelamegam Ramesh Kumar4, Hamid A Bakshi5,6, Alagar Yadav Sangilimuthu7, Murtaza M Tambuwala5, Mohammad Changez8,  Mohamed M Nasef6, Muthukalingan Krishnan4, Nagarajan Kayalvizhi1, Asian Pacific Journal of Cancer Prevention, Vol 20, 2645-2651, 2019.

Article

 

 

 

6

 

Sub-nano Scale Molecular Self-assembly for Nanotechnology Applications

M Changez, N Tashtoush, HJ Lee, N Kang, JS Lee,

International Journal of Trend in Research and Development (IJTRD) (Proceedings of International Conference on Arts, Science & Technology, Dubai, 20-22 December 2017), 2018, 85-87

 

paper

FA/CA

3.89

Online

 

7

In Situ Formation of Molecular-scale Ordered Polyaniline Film by Zinc Coordination, Hong-Joon Lee, Sang-Ook Hur, Min-Kyoon Ahn, Mohammad Changez, and Jae-Suk Lee, ,  Nanoscale, 2017,9, 6545-6550.

communication

 

6.97

11

8

2-Isopropenyl-2-oxazoline: Well-Defined Homopolymers and Block Copolymers via Living Anionic Polymerization, Hongbo Feng, Mohammad Changez, Kunlun Hong, Jimmy W. Mays, and Nam-Goo Kang. Macromolecules, 2017, 50 (1),  54–62.

Article

 

5.55

6

9

Estimation of Energy levels of Self-assembled Ferrocenyls and Investigation of Charge-Driven Electro-crystallization of Ferricenyl materials, Hakikulla H. Shah, Muhammad Changez, Mohammad Luqman, Yahya Ismail, Paul R. Raithby and Frank Marken, Energy Procedia (ISSN: 1876-6102), 100, 2016,  149–154

Proceeding

 

0.92

 

10

Effect of Biphenyl Spacers on the Anionic Polymerization of 2-(4′-Vinylbiphenyl-4-yl) pyridine,Nam-Goo Kang, Mohammad Changez, Myung-Jin Kim, Jae-Suk Lee, Macromolecules,  47 (19), 2014, 6706-6714.

Article

 

5.55

6

11

Effect of substituted groups on the living anionic polymerization of 2-vinylcarbazole derivatives, Nam-Goo Kang, Yoon-Hyung Hur, Mohammad Changez, Beom-Goo Kang, Yong-Guen Yu, Jae-Suk Lee, Polymer, 54 (21) 2013,5615-5625.

Article

 

3.776

4

12

Novel amphiphilic homopolymers containing meta- and para-pyridine moieties with living characteristics and their self-assembly, Yoon-Hyung Hur, Nam-Goo Kang, Beom-Goo Kang, Yong-Guen Yu, Mohammed Changez, Jae-Suk Lee, The Journal of Polymer Science Part A: Polymer Chemistry, 51 (2013), 3458–3469.

Article

 

3.243

5

13

Hollow Flower Micelles from Diblock Copolymer, Mohammad Changez, Nam-Goo Kang,D.W. Kim, and Jae-Suk Lee, Nanoscale, 5 (23) (2013), 11554-11560. Voted one of the Hot Articles of the year on the Royal Chemical Society website.

Communication

FA

6.97

7

14

Exploration of the Mechanism for Self-Emulsion Polymerization of Amphiphilic Vinylpyridine

S Kumar, DW Kim, HJ Lee, M Changez, TH Yoon, JS Lee

Macromolecules 46 (18) (2013), 7166-7172

 

 

 

5.55

12

15

Molecular-Level Ordering of Poly(2-vinylpyridine), Mohammad Changez, Haeng-Deog Koh, Nam-Goo Kang, Jin-Gyu Kim,Youn-Joong Kim, Shashadhar Samal, and Jae-Suk Lee, Adv. Materials, 24 (2012), 3253-3257.

Communication

FA

25.8

25

16

Well-Defined Ambipolar Block Copolymers Containing Monophosphorescent Dye,

Nam-Goo Kang, Beom-Goo Kang, Yong-Guen Yu, Mohammad Changez, and Jae-Suk Lee, ACS Macro Letter 1 (2012), 840-844.

Communication

 

5.76

5

17

Uni-Molecular Hollow Micelles from Amphiphilic Homopolymer Poly(2-(4-vinylphenyl)pyridine) Micelles to Vesicles, Mohammad Changez, Nam-Goo , and Jae-Suk Lee, Small 8 (2012), 1173-1178.

Communication

FA

10,86

13

18

Functionalization of Amphiphilic Coil-Rod-Coil Triblock Copolymer Poly(2-vinylpyridine)-b-poly(n-hexyl isocyanate)-b-poly(2-vinylpyridine) with Florescence Moiety and C60, M. Shahinur Rahman, Mohammad Changez, Joonkeun Min, Priyank N. Shah, Shashadhar Samal, and Jae-Suk Lee, Polymer, 52 (2011), 1925-1931.

Article

 

3.776

10

19

Synthesis of Well-defined Amphiphilic Block Copolymers by Organotellurium-Mediated Living Radical Polymerization (TERP)'
Santosh Kumar, Mohammad Changez, C. N. Murthy, Shigeru Yamago, Jae-Suk Lee.  Macromol. Rapid Commun., 32 (2011), 1575-1582.

Communication

 

4.608

17

20

Effect of Solvent Composition on Transformation of Micelles to Vesicles of Rod-Coil Poly(n-hexyl isocyanate-block-2-vinylpyridine) Diblock Copolymers, Mohammad Changez, Kang, Nam-Goo; Koh, Haeng-Deog; Lee, Jae-Suk,), Langmuir, 26 (2010) ,9981–9985.

Article

FA

4.384

23

 

21

Au/CdS Hybrid Nanoparticles in Block Copolymer Micellar Shell, Haeng-Deog Koh,  Mohammad Changez, and Jae-Suk Lee, Macromolecules Rapid Communication, 31 (2010),1798-1804.

Article

 

4.608

 

 

19

22

Reversible and pH Sensitive Vesicles from Amphiphilic Homopolymer Poly(2-(4-vinylphenyl)pyridine), Mohammad Changez, Nam-Goo Kang, Chi H. Lee, Jae-Suk Lee, Small, 6, (2010), 63-68.

Communication

FA

10.86

48

23

Reversibly Interchangeable, Chain-Wrapped Micelles and Vesicles of an Amphiphilic Rod–Coil Block Copolymer, Haeng-Deog Koh, Ji-Woong Park, M. Shahinur Rahman, Mohammad Changez, and Jae-Suk Lee, Chemical Communications, 32 (2009), 4824-4826.

Article

 

6.718

6

24

Preparation of Ag-Embedded Polystyrene Nanospheres and Nanocapsules by Miniemulsion Polymerization, Haeng-Deog Koh, Mohammad Changez, Jung-Pil Lee, and Jae-Suk Lee, Macromol. Rapid Commun, 18 (2009), 1583-1588.

Article

 

4.608

17

25

Formation of Intermicellar-Chained and Cylindrical Micellar Networks From an Amphiphilic Rod-Coil Block Copolymer: Poly(n-hexyl isocyanate)-block-Poly(2-vinylpyridine), Haeng-Deog Koh, Mohammad Changez, M. Shahinur Rahman, and Jae-Suk Lee,Langmuir, 25 (2009), 7188-7192.

Letter

 

4.384

12

26

Living Anionic Polymerization of Isocyanate Containing a Reactive Carbamate Group, M. Shahinur Rahman, Hee-Soo Yoo, Mohammad Changez, and Jae-Suk Lee Macromolecules, 42 (2009), 3927-3932.

Article

 

5.55

10

27

Block copolymers containing pyridine moieties: Precise synthesis and applications, Nam-Goo Kang, Beom-Goo Kang, Haeng-Deog Koh, Mohammad Changez, and Jae-Suk LeeReactive and Functional Polymers69 (2009), 470-479.

Review

 

2.72

23

28

Synthesis of Amphiphilic Miktoarm Star Copolymers of Poly(n-hexyl isocyanate) and Poly(ethylene glycol) through Reaction with the Active Methylene Group, M. Shahinur Rahman, Mohammad Changez, Jin-Wook Yoo, Chi H. Lee, Shashadhar Samal, and Jae-Suk Lee. Macromolecules 41(2008), 7029-7032.

Article

 

5.55

27

29

Living Anionic Polymerization of the Amphiphilic Monomer 2-(4-Vinylphenyl)pyridine, Kang, N.-G., Changez, M., Lee, J.-S.,Macromolecules 40 (2007) 8553-8559.

Article

 

5.55

31

30

Solvent-Induced Transition of Hollow Sphere to Giant-Tube from Amphiphilic Rod-Coil-Rod Triblock Copolymers of 2-Vinylpyridine and n-Hexyl Isocyanate M. Shahinur Rahman, M. Changez, S. Samal and Jae-Suk Lee, J. Nanosci. Nanotechnol. 7 (2007), 3892–3895.

Article

 

1.339

3

31

Effect of the Composition of Lecithin /n-propanol/isopropyl myristate/water Microemulsions on Barrier Properties of Mice Skin for Transdermal Permeation of Tetracaine Hydrochloride: In Vitro Studies, Mohammad Changez, Manoj Varshney, Jadish Chander and Amit Kumar Dinda, Collide and Surfaces B: Bio interface, 50 (2006), 18–25.

Article

FA & CA

4.15

94

32

Transdermal Permeation of Tetracaine Hydrochloride by Lecithin Microemulsion: In-Vivo. Mohammad Changez, Jagdish Chander and Amit Kumar Dinda. Collide and Surface B: Bio interface. 48 (2006), 58-66.

Article

FA & CA

4.15

73

33

Efficacy of Antibiotics loaded Interpenetrating Network (IPNs) hydrogel based on poly (acrylic acid) and Gelatine for treatment of Experimental Osteomyelitis: In Vivo study, Mohammad Changez,Veena Koul, Amit Kumar DindaBiomaterial 26 (2005), 2095-2104.

Article

FA

10.317

76

34

Studies on biodegradation and release of gentamicin sulphate from interpenetrating network hydrogels based on poly(acrylic acid) and gelatin : In vitro and in vivo, Mohammad Changez, Veena Koul, B. Krishna, Veena Choudhary and Amit Kumar Dinda, Biomaterial 25 (2004), 139-146.

Article

FA

10.317

110

35

The Effect of Composition of Poly (Acrylic acid)–Gelatin Hydrogel on Gentamicin Sulphate Release: In Vitro, Mohammad Changez, Krishna Burugapalli, Veena Koul and Veena Choudhary.  Biomaterials 24 (2003), 527–53.

Article

FA

10.317

162

36

Study of Aerosol-OT Microemulsion as a Transdermal Carrier of Tetracaine Hydrochloride, Mohammad Changez and Manoj Varshney, Drug Development and Industrious Pharmac26 (2000), 507-512

Article

FA

2.006

121

37

Effect of AOT micelles systems on the transdermal permeation of glyceryl trinitrate. M. Varshney, T. Khanna and Mohd ChangezCollide and Surface B: Bio interface 13, (1999), 1-11.

Article

 

4.15

29

38

Effect of AOT microemulsion in topical drug delivery. Mohammad Changez and M. Varshney), Proceed Int'l Sym. Cont. Reles. Bioact Mater. 25, (1998) Control Release Society Inc, 605-606.

Article

FA

 

-

 

Conference 

Recent Conference (2019)

  • 4 – 5th March 2019 – Oman - Sultan Qaboos University - 4th ISANH Middle East Congress - “Nanotechnology-based transdermal delivery of vitamins through mice skin - in vitro.”

THIS RESEARCH WORK COVERED BY MEDIA:

Anorexia in the Middle East Is an Overlooked Problem, Say Researchers.

Benjamin Plackett / 16 Apr 2019

http://portal.asu.edu.om/asu-students-research-in-the-news/

https://www.al-fanarmedia.org/2019/04/anorexia-in-the-middle-east-is-an-overlooked-problem-say-researchers/

 

  • 15 – 16th April 2019 – Oman - Sultan Qaboos University - 2nd Students Research Conference - “Molecular Ordering in Poly(Aniline) through Controlled Cross-linking.”

 

  • 29Th April 2019 – UAE – University of Abu Dhabi – 7th Undergraduate Research Competition – “Removal of Fused Poly-Nuclear Aromatic Hydrocarbon from Soil, Water, and Air.”

 

Selected conferences papers

International

  1.      Effect of AOT microemulsion in topical drug delivery. Mohammad Changez and M. Varshney, Int. Sym. On micellar, microemulsion, and monolayer, Quarter century progress and new horizon at University of Florida, USA, 26-28 August 1995.
  2.     Synthesis of Rod-Coil Block Copolymer by Living Anionic Polymerization and its Characterization for the Formation of Nano Particles, Sang-Ho Han, Hee-Soo Yoo, Mohammad Changej, Shashadhar Samal, and Jae-Suk Lee,  Nov. 10-12, 2005 International Conference on Nano Science and Nanotechnology.
  3.    Transdermal Permeation of Tetracaine Hydrochloride by Lecithin Microemulsion and its biochemical responses in mice: In-vivo.2005, Mohammad Changez. J. Chander International Conference on Nano-science and Nanotechnology, November 10-12, 2005, Gwangju Institute of Science and Technology, South Korea, pp143.
  4.     Formation of PEG-b-PHIC micelles for pharmaceutical application, Mohammad Changez, S. Rahman, J. S. Lee, International conference for Nano Science and Technology, South Korea, December 6-7, 2006.
  5.     Synthesis and Self-Assembly Studies of Amphiphilic Block Copolymers of Poly(n-hexyl isocyanate) and Poly(ethylene glycol), M. Shahinur Rahman, Mohammad Changez -PSK30, 2006, p.613
  6.   Micellization Behavior of Amphiphilic Rod-Coil Multi-Block Coploymers, M. Shahinur Rahman, Shashadhar Samal, Mohammad Changez, Jin-Wook Yoo, Chi H. Lee and Jae-Suk Lee, Gwangju, December 7-8, 2006, 2006 International Conference on Nano Science and Nanotechnology, pp. 51-52
  7.    Polymeric Nano-Donut Resulting from Coil-Rod Amphiphipilic Diblock Copolymer Micelles, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez, and Jae-Suk Lee, Gwangju, December 7-8, 2006, International Conference on Nano Science and Nanotechnology, pp. 296
  8.      Vesicle Nano-reactors Rod-Coil Amphiphilic Diblock Copolyme Au nanoparticles Stabilized in Polymeric Donuts formed by Fusions of PHIC-b-P2VP Amphiphilic Rod-Coil Diblock Copolymer Micelles, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez and Jae-Suk Lee, Pusan, Oct 10~13, 2006, IUPAC-PSK30, p.407.
  9.      Preparing Au or QD Nanoparticles, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez, Jae-Suk Lee, IUPAC International Symposium on Ionic Polymerization 2007, September 2-7, 2007, Kloster Banz, Germany.
  10. Synthesis of Amphiphilic Rod-Coil Miktoarm star Copolymers of Poly(n-hexyl Isocyanate) with Poly(ethylene glycol) and Their Micellization Studies, M. Shahinur Rahman, Joon-Keun Min, Mohammad Changez, Jin-Wook Yoo, Jae-Suk Lee, IUPAC International Symposium on Ionic Polymerization 2007, September 2-7, 2007, Kloster Banz, Germany.
  11. Synthesis of Poly(2-(4-vinylphenyl)pyridine) and its block copolymers by living anionic polymerization, Nam-Goo Kang, Mohammad Changez, Jae-Suk Lee, IUPAC International Symposium on Ionic Polymerization 2007, September 2-7, 2007, Kloster Banz, Germany.
  12. Concentration-Induced Rod-Coil Block Copoymer Micellar and Vesicular Nanoreactors, Haeng-Deog Koh, M. Shahinur Rahman, Mohammad Changez, Jae-Suk Lee, 2007 International Symposium on Advanced Macromolecules and Nano-Materials with Precisely Designed Architectures, October 4th-6th, 2007, Hokkaido University, Sapporo, Japan.
  13. Micro-Scale Self-Assembly of Au Nanoparticles in Microemulsion, Haeng-Deog Koh, Mohammad Changez, Jae-Suk Lee, 2007, International Conference on Nanoscience and Nanotechnology, 071108-09.
  14. Living anionic polymerization of 2-(4-vinylphenyl)pyridine, K. Namgoo, Mohammad Changez, J. S Lee,12th Korea-Japan Young Scientist Symposium on Polymer Science and Technology, International Research Centre of Mac, 070906.
  15. Living Anionic Polymerization of the Amphiphilic Monomer 2-(4-Vinylphenyl)pyridine, K. Namgoo, Mohammad Changez, J.S. Lee, 2007 NAIST/GIST joint Symposium on Advanced Materials, 071122.
  16. Synthesis of Block Copolymers Containing Pyridine Moiety and their Micellization, Lee, Jae-Suk, Mohammad Changez, Kang, Nam-Goo, Kang, Bum-Goo, Koh, Haeng-Deog, The 12th World Multi-Conference on Systemics, Cybernetics and Informatics (WMSCI2008), Orlando, USA, 080629-080702, p.13.
  17. Nanoparticles from Block copolymers containing Pyridine, Jae-Suk Lee, Mohammad Changez, Nam-Goo Kang, 1st International Symposium on Polymer Materials Science and Technology at Harbin, Harbin, China, 080721-080724.
  18. Living Anionic Polymerization of p-Substitutied Styrene Containing Pyridine Moieties, Nam-Goo Kang, Mohammad Changez, and Jae-Suk Lee, Japan-Korea Polymer Young Scientist Symposium, Niigata, Japan, 081022-081025, p.321-322.
  19. Living Anionic Polymerization of Isocyanates using Oxy Anion, Joon Keun Min, Hun-Hwan Ahn, Shah Priyank N., Mohammad Changez, Jae-Suk Lee, 2nd Japan-Korea Joint Seminar 2008 and International Symposium-Synthesis and Application of Advanced Functional Materials, Tokyo Institute of Technology, Japan, 081105-081107, 2008, p.54-55.
  20. Syynthesis of Amphiphilic Rod-Coil Polyisocyanate-b-Poly(2-vinylpyridine) Block Copolymers and Their Self-Assembling, Haeng-Deog Koh, M. Changez, M. Shahinur Rahman, Joon Keun Min, Jae-Suk Lee, IUMRS-ICA2008, Nagoya Congrées Centre, Japan, 081210, 2008.
  21. Synthesis and Self-assembly of block copolymers containing pyridines, Nam-Goo Kang, Mohammad Changez, Haeng-Deog Koh, Jae-Suk Lee, 2010 Japan-Taiwan Bilateral Polymer Symposium, Hokkaido University, Japan, 100630-0703, 2010 (Invited).
  22. Synthesis of Low Molecular Weight Amphiphilic Block Copolymers by Organotellurium-Mediated Living Radical Polymerization(TERP), Santosh Kumar, Mohammad Changez, C. N. Murthy, Shigru Yamago, Jae-Suk Lee, National Conference on Advances in Polymer Science & Nanotechnology: Design and Structures, India, 20111216-17.
  23. Living Anionic polymerization of amphiphilic monomer containing pyridine moiety and their self-assembly behaviours, Yoon-Hyung Hur, Beom-Goo Kang, Yong-Geun Yu, Nam-Goo Kang, M. Changez, Jae-Suk Lee, 243rd ACS National Meeting & Exposition, USA, 20120325-20120329.
  24. Molecular Level Ordering in Poly(2-vinylpyridine), Mohammad Changez, Haeng-Deog, Nam-Goo Kang, Chan-Geun Chae, Jin-Gyu Kim, Youn-Joong Kim, Shashadhar Samal, Jae-Suk Lee, The 10th Nano Korea 2012, Seoul, . 20120816-20120818.
  25. Molecular Level Ordering in Poly(2-vinylpyridine), Mohammad Changez, Haeng-Deog, Nam-Goo Kang, Chan-Geun Chae, Jin-Gyu Kim, Youn-Joong Kim, 2012 International Conference on Nano Science and Nano Technology,            Gwangju, South Korea, 20121108 – 20121109.
  26. 3D metallic poly(2-vinylpyridine) controlled via crosslinking, Hong-Joon Lee, Mohammad Changez, Haeng-Deog Koh, Nam-Goo Kang, Jae-Suk Lee, Joint Symposium on Materials Science and Engineering for 21st century, Taiwan, 20130623-26.
  27. 3D metallic poly(2-vinylpyridine) controlled via crosslinking, Hong-Joon Lee, Mohammad Changez, Haeng-Deog Koh, Nam-Goo Kang, Jae-Suk Lee, Nano Korea, Deajon, 20130731-0802.
  28. Exploration of the Mechanism for Self-Emulsion Polymerization and Synthesis of Polymeric Nanoparticles from Amphiphilic Homopolymer, Santosh Kumar, Dong-Woo Kim, Hong-Joon Lee, Mohammad Changez, Tae-Ho Yoon and Jae-Suk Lee*, the 11th International conference on Nano Science and Nano Technology, 2013.11.07 – 2013.11.08, Gwangju.

National Conferences

  1. National seminar on perspective in interfacial area of chemistry and biology, M. Changez, M. Varshney, Jan 20-22 Delhi University, India, 1998.
  2. Development of new carrier for transdermal delivery of local anaesthesia, Changez, M. Varshney, in Symposium on Technology in Family Welfare, December 8-10, 2001, IIT-New Delhi, India. pp. 62.
  3. Biocompatibility of interpenetrating polymer network (IPN) hydrogel: An in vivo study, B. Krishna, M. Changez, A. K. Dinda, Veena Koul, Twelfth National Conference of the Society for Biomaterials and Artificial Organs, India, November 28-29, 2001, IIT-Madras, India, pp. T31.
  4. In vitro degradation kinetics of modified polymeric hydrogels based on poly (acrylic acid) and gelatine for the treatment of osteomyelitis, M. Changez, B. Krishna, A. K. Dinda, Veena Koul,  in Twelfth National Conference of the Society for Biomaterials and Artificial Organs, India, November 28-29, 2001, IIT-Madras, India, pp. T23.
  5. Development of Biodegradable Hydrogels for Controlled Release of Antibiotics for the Treatment of Osteomyelitis M. Changez, B. Krishna, A. K. Dinda, Veena Koul,, pp- 63-66.Procedind of National seminar on artificial organ and biomaterial, IIT Kharagpur, India, Dec.6-8, 2000.
  6. Concentraion-Induced Morphological Transition of Coil-Rod Block Copolymer Micelles to Hollow Spheres, H. Koh M. Shahinur Rahman, Mohammad Changej, J.S. lee, 2007 Jejo, 070412-13, Korean Polymer Society.
  7. Flower micelles from block copolymer poly( 2-(4-vinylphenyl)pyridine)-b-poly(2-vinyl)pyridine), Kang, Mohammad Changez, J.S. Lee, 2007 Korean Polymer Society 071011-12.
  8. Block copolymerization of 2-(4-vinylphenyl)pyridine with various monomers by sequential living anionic polymerization and study of its reactivity order and morphology, Kang Namgoo, Mohammad Changez, J. S. Lee, 2007 Korean Polymer Society, 071011-12.
  9. Au Nanoparticles Self-Assembled to Microfiber-Like Structure in Microemulsion, Koh, Mohammad Changej, J. S. Lee, 2007 Koran Polymer Society, 071011-12.
  10. Living Anionic Polymerization of 2-(4’-vinylbiphenyl-4-yl)pyridine), K. Nammgo, Mohammad Changez, J. S. Lee , 2008 Korean Polymer Society, 081009-081010, p.84
  11.  Synthesis and Self-Assembly of Amphiphilic Homopolymer and Blockcopolymer Containing 4-(4-Vinyphenyl)pyridine, H. Hoor,  K. Nammgo, Mohammad Changez,  J. S. Lee, 2011, 20110407-08, Korea Polymer Society.  
  12. Facile, Controlled Molecular Level Ordering of Poly(2-vinylpyridine) via Chemical cross-linking, Mohammad Changez, Haeng-Deog, Nam-Goo Kang, Chan-Geun Chae, Jin-Gyu Kim, Youn-Joong Kim, Shashadhar Samal, Jae-Suk Lee, 2012, Korea Chemical Society, 20121017-20121019.
  13. Well-Defined Ambipolar Block Copolymers Containing Monophosphorescent Dye, Kang Nammgo, Mohammad Changez, Young Gun, J. S. Lee, Busan Korean Chemical Society, 20121017-20121019.

 


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Recent Projects

  1. Frankincense Oil/Omega Fatty Acid Oil based Nano-emulsion for Transdermal Delivery of Anti-Cancer Drugs for Treatment of Breast and Skin Cancer, TRC ., Oman , Grant number: BFP/RGP/HSS/20/105.
  2. Homopolymer Nano-Bag for Removal of Fused Poly-Nuclear Aromatic Hydrocarbons from Environments and its Re-utilization for Organic Electronics, TRC., Oman, Grant number: BFP/RGP/EBR/18/077.