Physics Professor, solar energy, supercapacitors and senors
Resume:
*. Cover Letter Date: ****/**/**
To,
Dean
Rio de janeiro, Brazil
Sub: Faculty Position Application in Physics (Materials Science/Energy)
Dear Sir,
Reference to your energy requirement for Physics (Materials Science/Energy)
Faculty Position Application, I am full Physics Permanent Professor in
Indian University (http://www.srtmunacu.in/) since 2010 (joined after
Research Faculty of Oxford University) have more than 15 years teaching and
research experience in various fields of nanoscience and nanotechnology and
have so far published 175 articles in peer reviewed journals, which in fact
is my passion.
In spite of holding high rank position and publishing about 60 articles
since 2010 in reputed journals I am not happy as I am unable
to utilize effectively my skills and experience in Research of my wish in
full potential so looking elsewhere for similar position for long run and
to develop a science of high quality.
I have skills to maintain good human relations as since 2002, I am jointly
working with several foreign groups (with Korean professor Sung-Hwan Han
published more than 125 Research articles) and presently a visiting
Professor of two foreign universities (Hanyang University, Korea and King
Saud University, Saudi Arabia).
My expertise includes chemical/ biological synthesis of any metal
oxide/chacogenide nano-structure for solar cells, supercapacitors and gas
sensors applications. Ag-quantum dots of various sizes prepared
from mushroom are envisaging in cancer cell application. One of our
articles where ZnO nanorods were employed for anthrax cell (BSA) is
cited enormously (Analytical Chem., 81, 4280-4284, (2009)).
Article published before 13 years is today also bible for
new researcher (Mater. Chem. Phys., 65 (2000) 1-31, cited for 551 times) in
thin film physics.
Finally, I am dedicated researcher looking for long term place where I can
give justices to my passion and publish articles in high index journals.
Application find herewith
Sincerely yours
Rajaram S. Mane, Dr. (Presently in Hanyang University, Korea till 31st Dec.
2014, +82-2-2292-5212)
Professor
School of Physical Sciences
SRTM, University, Nanded, India
Website: https://sites.google.com/site/cnessps/home
2. Curricular vitae
[pic]
1. Name, local address and communication details
Rajaram Sakharam Mane
Professor
School of Physical Sciences
Swami Ramanand Teerth Marathwada University,
Dnyanteerth, Vishnupuri
Nanded-4316006 (M.S.), India
Ph. +91-985*******, +912*********
2. Permanent address
At Post Mayani, Tal. Khatav, Dist. Satara,
415102, M.S., India.
3. Personal and Family details
Marital status: Married
Laxmi Rajaram Mane: Wife, 36 Y
Hrishikesh Rajaram Mane: Son, 14 Y
Hrituja Rajaram Mane: Daughter, 12 Y
Nationality: Indian
Birth Date: 10th Nov. 1970
Languages known: English, Hindi, Marathi, Telgu, Korean
E-mails: acojnb@r.postjobfree.com
4. Prizes, awards, teaching experience
Since 01/01/2010 to till date, Professor, School of Physics, Swami
Ramanand Teerth Marathwada University, Nanded, India.
Since June 2014, Visiting Professor, King Saud Univresitty, Saudi
Arabia
Presently on three months Research Visit in Hanyang University,
Republic of Korea.
Visiting Researcher, Korea Institute of Science and Technology,
15 Nov. 2012 to till date.
Convener, International Conference on Nanoscience and
Nanotechnology, ICNN-2011, SRTMU, Nanded, India.
Editorial Member for Int. J.
Photoenergy; http://www.hindawi.com/35167427/
Selected as Board of Studies Member, North Maharashtra
University, Jalgaon, India
Adjunct Professor, Vishwakarama Institute of Information
Technology, Pune, India.
May, 14 to June, 09, 2010, Visiting Professor, Hanyang
University, Seoul, Korea.
Visiting Scientist, 01/10/2009 to 31/12/2009, Korea Institute
of Science and Technology, Seoul, Korea.
Research Faculty, 1th Jan. 2009 to 30/09/2009, Oxford University,
Oxford, UK.
Asst. Prof., 01/03/2008 to 28/08/2009, Hanyang University,
Seoul,
Republic of Korea.
Visiting Scientist (Brain Pool Fellow, KOSEF, Republic of
Korea),
from 01/06/2006 to 28/02/2008.
Postdoctoral Research fellow, from 01/04/2004 to 31/05/2006,
Hanyang University, Republic of Korea.
01/06/2001 to 31/03/2004, Asst Professor, Vishwakarma Institute
of Technology, Pune, India.
1997-1998, Lecturer, Raja Bhagwatrao Shriptrao Mahavidyalay,
Aundh, Satara
Young scientist award 2003, Ministry of Science and Technology,
India.
Best Researcher and Patentee award (B.V.D.U.) Pune, India.
Books contributed; Applied Science I and II and one is in
progress for Willy Publication.
Two Ph.D. students have completed Ph. D. degree's and seven are
working.
Stood first in the merit lists (institute) of B. Sc. and M. Sc.
degree examinations, Pune University, India, held in 1992 and
1994, respectively.
First foreigner of Republic of Korea, contributed more than 100
cited research publications.
Initiated collaborative research activities with several Indian
institutes by actively involving in respective Memorandum of
Understandings.
5.Scopus record
Publications-175, coauthors/collaborators-185
h-index-31
Number of citations-1888
References: 2189
Articles with maximum citations-
1. Chemical deposition method for metal chalcogenide thin
films, Mater. Chem. Phys. 65, 1-31 (2000) (citations: 360)
2. Mn doped and undoped ZnO films: A comparative structural,
optical and electrical properties study, Mater. Chem. Phys.
96, 326-330 (2006) (citations: 116).
3. Nanocrystalline TiO2/ZnO thin films: Fabrication and
application to dye-sensitized solar cells, J. Phys. Chem. B,
109, 242**-***** (2005) (citations: 90).
4. Hydrophobic and textured ZnO films deposited by chemical
bath deposition: Annealing effect, Appl. Surf. Sci., 245,
407-413 (2005) (citations: 82).
6. Memberships holding
Indian Science Congress; 2001
Life member of Indian Institute of Technical Education; 2003
Korean Chemical Society; 2005
American Chemical Society, 2006
Institute of Physics, 2008
7. Research Interests
Solution-processed Perovskite-based solid-state solar cells
Design practical solar cells for direct society use.
Synthesis of novel inorganic semiconducting thin films for
solar cells.
Dye-sensitized solar cells with new metal oxides.
Quasi-solid-state solar cells with great light harvesting
efficiency.
Polymer-based organic/inorganic solid solar cells.
Metal oxide thin films for sensor applications.
Low temperature supercapacitors.
8. Hands in operation
Solids-state solar cells device design, X-ray diffraction,
thermal evaporation, thickness profiler, impendence
spectroscopy, X-ray photoelectron spectroscopy, Scanning
electron microscopy, Atomic force microscopy, UV-Vis
spectroscopy, Potentiostate, vacuum deposition, atomic
sputtering, Laser spectroscopy, depth profile, four point probe
electrical resistivity measurement, Hall measurement, spin
coater, vacuum deposition etc.
9. Conversant
Project writing, Beilstein search, use of Scifinder
10. Objective
To develop competitive students in solar cells, polymeric solar
devices in addition to gas sensors, fuel cells and
electrochemical supercapacitors for fulfilling a partial need
of society.
11. Educational background
Ph. D. (Physics) - 2000
Shivaji University; INDIA
Thesis Title: "Preparation and characterization of
nanocrystalline Bi2S3,
Sb2S3 and As2S3 thin films"
Supervisor's Name: Prof. C.D. Lokhande
M. Sc. (Physics) - 1994
Pune University, INDIA
Grade: First class with Distinction
B. Sc. (Physics) - 1992
Pune University, INDIA.
Grade: First class with Distinction.
12. Invited talks
Department of Chemical Engineering, Massachusetts Institute of
Technology,
USA, April 15, 2014.
Feb. 06, 2014, International conference in Nanoscience and
Nanotechnology, Jalgoan
India.
March 26, 2014, Plenary talk in national conference on
nanoscience, Giriraj College, Nijamabad, A.P. India
April 27, 2012, National Conference on Nanomaterials, Changu
Kana Thakur College, Panvel.
Feb. 16, 2012, Nanotechnology Workshop, Department of
Nanotechnology, BAMU, A'bad.
Jan. 22, 2012, National Seminar on recent Advances in Synthetic
Chemistry and Nanomaterials, Department of Chemistry, Shivaji
University, Kolhapur, India.
Jan. 16, 2012, "Careers in Nanotechnology", Rayat Shikshan
Sanstha's, Science College, Satara, M. S. India.
January 29, 2011, Plenary talk at BAMU, Aurangabad in National
Seminar on Recent advances in Materials Chemistry.
August 12 to 23, 2010, Invited for Plenary talk in INDO-KOREA
Forum of IEEE NANO-2010, Korea.
National Conference at C. G. Patil College, Sakri, M. S. India,
8-9th
March 2010.
Swami Ramanand Teerth Marathwada University, Nanded, 27th Jan.
2010
Defense Institute of Armament Technology, Pune, India, 18th
August
2009.
Chile University, Chile (North America), 26th Oct. 2008.
Chonbuk University, Republic of Korea, 14th Nov. 2008.
Poona College, Pune, India, 23th August 2008.
Bharati Deemed University, Pune, India, 18th August 2008.
National Chemical Laboratory, Pune, India, 14th August 2007.
Korea University, Korea, 21st July 2007.
Shivaji University, Lokhapur, India, 9th Jan. 2007.
University of Twente, The Netherlands, 9th July 2006.
Gifu University, Gifu, Japan, 17th Feb. 2006.
Tata Institute of Fundamental Research, Mumbai, India, 13th
April 2005.
Hanyang University, Seoul, Korea, 24th Oct. 2005.
Shivaji University, Kolhapur, India, 15th April 2005 and 24th
March
2006.
Vishwakarma Institute of Technology, Pune, 20th April 2005.
Bharati Vidyapeeth's Yashwantrao Mohite College, Pune, India,
24th Jan. 2004.
13. Journal Co-Editor
Research and Reviews in Electrochemistry
Functional Nanomaterials
Editorial Member for Int. J.
Photoenergy; http://www.hindawi.com/35167427/
14. Journal referee
J. Mater. Sci.: Mater. Electron. Surf. Coat. Technol.; Mater.
Res. Bull.; Mater. Chem. Physics; Thin Solid Films; Applied
Surf. Science; Solar Energy Mater. Solar cells; Materials
Letters; J. of Physical Chem. B.; Mater. Sci. and Engg. B.,
Nanotechnology; Langmuir; Sensors and Actuators B: Chemical;
Appl. Phys. Lett. J. Am. Chem. Soc. J. Phys. Chem. Solids, J.
Phys. D: Appl. Phys., Turk. J. Phys. J. Phys.: Cond. Matt.,
Semicond. Sci. Technol. J. Appl. Phys. J. Chem. Phys., J. Phys.
Chem. Solids, J. Non-Cryst. Solids, Talanta, New Journal of
Physics, Electrochem. Comm., J. Alloys Comps. etc.
15. Research contributed Journals
Appl. Phys. Lett., J. Appl. Phys. J. Phys. Chem. B.,
Nanotechnology,
Green Chemistry, Micron, J. Cryst. Growth, J. Appl. Phys.,
Electrochem. Comm., Electrochem. Solid State Lett., Green
Chem., J.
Photochem. Photobio A: Chem., Electrochimica Acta, Mater. Res.
Bull.,
Thin Solid Films, Mater. Chem. Phys., Vacuum, SAEST, Ind. J.
Pure
Appl. Phys., Appl. Surf. Sci., Solar Energy, Surf. Coat.
Technol., Chem.
Lett., Mater. Sci. Engg. B., J. Magn. Magn. Mater., Sensors and
Actuators B: Chemical, J. Non-Crystalline Solids, Int. J.
Electrochem.
Chem. J. Phys. D: Appl. Phys., J. Electrochem. Soc. and Solid
State
Lett., Curr. Appl. Phys., J. Electroanalytical Chem. The J.
Chem.
Phys., J. Electrochem. Soc., Scripta Materialia, Solar Energy
Mater.
Solar Cell, J. Alloys and Comp. of Physics., J. Phys. Chem. C,
Analytical Chem., J. Phys. Chem. Solids, Int. J. hydrogen
Production,
Physica E, Anl. Chem., J. Nanoscience and Nanotechnology, etc.
16. Teaching experience
2010-till date, Post-graduate and Ph.D. students (Solid State
Physics, Materials Science, Methods of Mathematical Physics)
2004-2009 Graduate, Postgraduate (Nanomaterials for device
applications. Statistical Mechanics, Quantum Chemistry, Solar
Materials and Devices, Thin Film Physics, Materials Science,
etc.)
2000-2004 Graduate (Engineering Physics)
1996-2000 Postgraduate (Solid State Physics)
17. Details of brief research experience
Since 1996, significant contribution has been made in science,
in
particular, wet chemically deposited semiconducting thin films.
During
initial few years i.e. 1995-2000 my research at Shivaji
University was mainly related to synthesis and physicochemical
properties study of metal chalcogenide nanomaterials using wet
chemistry under the dynamic guidance of Prof. C. D. Lokhande.
In second phase i.e. during POSTOC period, I learnt different
sophisticated instruments for electrochemical characteristics
of these nanomaterials. During this time, attempts were also
made to utilize these nanomaterials in the photoelectrochemical
cells and in energy related devices. My experience was explored
when I joined in 2009, at Oxford University, UK by learning how
to make actual device for solar cells in the solid form with
Dr. Henry Snaith, who received research POSTODC training from
Prof. Michel Gratzel, one of the renowned personalities in
solar cells. Now, I joined as regular Professor at S. R. T. U.
N. and wish to contribute quality research instead of
increasing only number of papers.
18. Collaboration with Scientifically Renowned Personalities
Beyond doubt my science knowledge is spreading step-by-
step due to great 181 worldwide renowned scientists who not
only have taught me a science at different occasions but
offered also great human values which always inspired me at
various stages that helped me in achieving this career at the
youngest age. Some of them are
1. Prof. H. Tributch, Hahn Meitner Institute Berlin, Germany.
2. Prof. C. D. Lokhande, Humboldth Fellow, and presently
Professor at
Department of Physics, Shivaji University, Kolhapur.
3. Prof. Sung-Hwan Han, Head, Department of Nanomaterials
Division,
Hanyang University, Korea.
4. Dr. Oh-Shim Joo, Clean Energy Research Centre, Korea
Institute of
Science and Technology, Republic of Korea.
5. Prof. Soo-Hyoung Lee, Department of Chemical Engineering,
Chonbuk National University, Korea.
6. Prof. Bong-Won Cho, Head of Fuel Cells Division, Korea
Institute
of Science and Technology, Korea.
7. Prof. Satishchandra B. Ogale, Scientist, National Chemical
Laboratory, Pune, India.
8. Prof. M. G. Takwale, Head, Energy Division, Pune Umiversity,
Pune,
India.
9. Prof. S. D. Sartale, Humboldt Fellow and presently Professor
at
Pune University, Pune.
10. Prof. Ramphal Sharma, Director, Center of Nanotechnology,
Dr.
Babasaheb Amedkar Marathwada University, Aurangabad, India.
19. Patents taken and applied
Conducting sprayed ZnO thin films, US Patent, Filed, 30th Sept.
2009
A process for making large area conducting boron-doped zinc
oxide thin electrodes, Indian Patent, Filed on 25th March 2009.
A process for making dark as well as light superhydrophilic
rutile titanium dioxide thin films by chemical route: Bottom up
approach, Indian Patent filed on 2nd Nov. 2008.
A process of forming rutile titanium dioxide colored thin films
at ambient temperature, Indian patent, 701/MUM/2006 A, Filing
date: 2006-05-04.
A Chemical method to deposit titanium dioxide films useful for
visible light absorption, S. Korean Patent, Filed 2004-10-25.
A process for deposition of Bi2Se3 and Sb2Se3 thin films from
aqueous
solutions, (Indian Patent No.3031066).
A process for forming chemically deposited Bismuth selenide
layers. (Indian Patent No. 3031092).
A chemical method for preparation of Bi2S3 and Sb3S3 thin films
on glass substrate. (Indian Patent No. 3031113).
A process for the deposition of ZnSSe films from aqueous
solutions,
Indian Patent, 744/MUM/2006 A, Filing date: 2006-05-12,
Publication date: 2008-07-11.
A process for the deposition of ZnSTe thin films from aqueous
solutions, 745/MUM/2006 A, Filing date: 2006-05-12, Publication
date: 2008-08-22.
Chemically deposited Nanocrystalline and porous titanium
dioxide films 1337/MUM/2004, Filing date: 2004-12-15,
Publication date: 2006-07-21.
A simple method for the preparation of Indium Sulfide thin
films. (Indian Patent filed) 2003.
A chemical method for the deposition of large area tin sulfide
thin films. (Indian Patent filed) 2003.
A preparation of large area photoconducting silver sulfide thin
films. (Indian Patent filed) 2001.
A Process of Forming Rutile Titanium Dioxide Colored Thin Films
at Ambient Temperature' Indian Patent filed on 15/04/2006.
A process for making ammonium intercalated indium-tin-oxide
thin
films Filed (2006).
20. Reviews
1. Chemical deposition method for metal chalcogenide thin
films.Mater. Chem. Phys., 65, 1-31, 2000, One of the Best reviews
on Wet Chemistry: Garry Hodes, Israel.
2. CBD deposited ZnO films for gas sensors and dye-sensitized
solar cells' Journals of alloys and Compounds, 475, 304-311,
2009.
21. Ph. D's and Masters Supervised
1. Mr. Sanjay Gaikwad, Applied for the Ph. D. registration 2010
2. Mr. Manohar Zate, Applied for the Ph. D. registration 2010
3. Mr. Pradip Jadhav,, Applied for the Ph. D. registration
2010
4. Mr. Vijay Jadhav, Applied for the Ph. D. registration 2010
5. Mr. Sambhaji Bhande,, Applied for the M. Phil. registration
2010
6. Prof. Vilas V. Todakar (2000-2003) (Bharati University,
Pune, Title: Preparation and characterization
of CdCr2S4 and HgCr2S4 thin films, Awarded,
2006)
7. Prof. Arif V. Shaikh (2006-2009) (Bharati University, Pune,
Electrodeposited CdSe and Cu2Se thin films
for heterojunction solar cells, Awarded,
2009)
8. Mr. Rajendra Gaikwad Sprayed low cost, highly conducting and
transparent B and N co-doped ZnO thin films:
synthesis and physical properties, working
since Jan 2008, Bharati University, Pune.
9. Mr. S. J. Roh, MS, Chemical synthesis of ZnO for dye-
sensitized solar cells, Hanynag University,
2006.
10. Mr. Ju-Hyun Ahn, MS, Synthesis and storage application of
CdCr2S4 thin films, Hanynag University, 2007.
11. Ms. Yun Hee Hwang, MS, Room temperature synthesis of
Compact TiO2 thin films for 3-D solar cells
by chemical arrested route, Hanynag
University, 2008.
3. Publications
Published papers of Dr. Rajaram S. Mane and collaborators after joining in
SRTM, University
Sr. Title of paper J. No. of Co-authors
No. Name,volume
no. and
page Nos.
Effect of thermal Surf. Coat. X.L. Zhang, K.S. Hui, Feng
annealing on the Technol., Bin, K.N. Hui, Lei Li, Y.R.
structural, electrical 262, 2015, Cho, Rajaram S. Mane, Wei
and optical properties 149-155 Zhou
of Al-Ni co-doped ZnO
thin films prepared
using a sol-gel method
Ion exchange mediated J. Mater. Supriya Ankush Patil, Dipak
shape-preserving Chem. A, in Vijaykumar Shinde, Iseul
strategy for press, 2015 Lim, Keumnam Cho, Sambhaji
architecting 1-D Shivajirao Bhande, Rajaram
arrays of porous S Mane, Nabeen Kumar
CoS1.0365 nanorods for Shrestha, Joong-Kee Lee,
electrocatalytic Tae Hyun Yoon and Sung-Hwan
reduction of triiodide Han
Influence of Dalton Shyam K. Gore, Rajaram S.
Bi3+-doping on Transaction Mane, Mu. Naushad, Santosh
Magnetic and M ssbauer s, accepted S. Jadhav, Manohar K. Zate,
Properties of Spinel 2015 Z. A. Alothman, Biz K. N.
Cobalt Ferrite Hui
La2O3-encapsulated-SnO Dalton Shoyebmohamad F. Shaikh,
2 Transct., Rajaram S. Mane, and
nanocrystallite-based 2015, 44, Oh-Shim Joo
photoanodes for 3075-3081
enhanced DSSCs
performance
Electrochemical Scripta Ahmed AL-Osta, Vijaykumar
supercapacitors of Materilia, V. Jadhav, Manohar
anodized-brass-templat 99, 29-32, K. Zate, Rajaram S. Mane,
ed NiO nanostrutured 2015 K.N. Hui, Mu Naushad,
electrodes Sung-Hwan Han
Microstructure and J. Mater. Kwun Nam Hui, Xinglai
electro-optical Sci.: Zhang; K.S. Hui; Y.R. Cho;
properties of Cu-Ni Mater. Wei Zhou; Rajaram S. Mane;
co-doped AZO Electon., Ho-Hwan Chun
transparent conducting 2015, in
thin films by sol-gel press
method
Highly Efficient and Dalton Supriya Ankush Patil,
Stable DSSCs of Trans., Pranav Y Kalode, Rajaram
Wet-chemically 2014,43, Sakharam Mane, Myung M M
Synthesized MoS2 5256-5259 Sung, Swapneil B Ambade and
Counter Electrode Sung Hwan Han
Studies on facile High R. V. Ingle, S. A. Arote,
synthesis of Performance M. B. Rajendra Prasad, V.
polyaniline/cadmium Polymers, S. Kadam, R. S. Mane,
sulfide composites and 26 (6), Inamuddin, Mu. Naushad,V.
their morphology 660-665 A. Tabhane and H. M. Pathan
(2014).
Promising ZnO-based Dalton T. Ganesh, Hong-Minh
DSSCs Performance Trans., 43, Nguyen, Rajaram S. Mane,
Using HMP Molecular 2014, Dipak V. Shinde, Nakjoong
Dyes of High 113**-***** Kim, Sambhaji S. Bhande,
Extinction and Sung Hwan Han
Coefficients
A simple, room J. Mater. Supriya A. Patil, Dipak V.
temperature, Chem. A, Shinde, Do Young Ahn, Dilip
solid-state synthesis 2014,2, V. Patil, Kailas K. Tehare,
route for metal oxide 135**-***** Vijaykumar V. Jadhav, Joong
nanostructures K. Lee, Rajaram S. Mane,
Nabeen K. Shrestha and
Sung-Hwan Han
Mass scale Electrochim Shoyebmohamad F. Shaikh,
sugar-mediated green ica Acta, Rajaram S. Mane, and
synthesis and DSSCs 147, Oh-Shim Joo
application of tin 408-417,
oxide nanostructured 2014
photoanode: Effect of
zinc sulphide layering
on charge collection
efficiency
DSSCs Synergic Effect J. Sambhaji S. Bhande, Dipak
in Thin Metal Oxide Photochem. V. Shinde, Kailas K.
Layer-functionalized Photobiol. Tehare, Supriya Patil,
SnO2 Photoanodes A, 295, Rajaram S. Mane, Mu.
64-69, 2014 Naushad, Z.A Alothman, K.
N. Hui and Sung Hwan Han
Spraying distance and RSC Shoyebmohamad F. Shaikh,
titanium chloride advances Rajaram S. Mane, and
surface treatment 4 (68), Oh-Shim Joo
effects on DSSCs 359**-*****
performance of
electrosprayed SnO2
photoanodes
Development of Highly Nanoscale Swapnil Ambade, Rohan
Transparent Seedless 6 (20), Ambade, Won Joo Lee,
ZnO Nanorods 121**-***** Rajaram Mane and Soo-Hyoung
Engineered for Lee
Inverted Polymer Solar
Cells
Low-Temperature RSC Sambhaji S. Bhande, Dipak
Solution-processed advances V. Shinde, Shoyebmohamad F.
Zn-doped SnO2 4, 20527, Shaikh,
Photoanodes: 2014 Swapnil B. Ambade Rohan B.
Enhancements in Charge Ambade, Rajaram S.
Collection Efficiency Mane,Inamuddin, Mu. Naushad
and Mobility and Sung-Hwan Han
A coordination J. Mater. Dipak Vijaykumar
chemistry approach for Chem. A, Shinde, Do-Young
shape controlled 2014, 2 Ahn, vijaykumar
synthesis of indium (15), Jadhav, Deok Yeon
oxide nanostructures 5490-5498 Lee, Nabeen Kumar
and its Shrestha, Joong-Kee
photoelectrochemical Lee, Hwa Young
properties Lee, Rajaram Sakharam
Mane and Sung Hwan Han
Electrochemical J. of Na Vijaykumar V. Jadhav, Dipak
Properties of Anodized Mater. V. Shinde, Supriya A.
Copper Hydroxide Lett. Patil, Manohar K. Zate,
Nanostructures noengineeri Samadhan Pawar, Ahmed
ng and AL-Osta, Rajaram S. Mane,
Nanomanufac and Sung-Hwan Han
turing
. 4, 1-5,
2014
Effect of deposition J. Mater. Kailas K. Tehare, Manohar
container on Chem. A: K. Zate, Sambhaji S.
nanostructural growth 2014, 2, Bhande, Sanjay L. Gaikwad,
and DSSCs application 478-483 Supriya A. Patil, Seong
of rutile TiO2 Yoon Joon, Rajaram S.
Mane, Sung-Hwan Han
Photovoltaic Mater. Dipak V. Shinde, Sun-Ki
Properties of Lett. Min, Myung-Mo Sung, Nabeen
Nanocrystalline 115, K. Shrestha, Rajaram
SnSe-CdS 244-247, S. Mane, Sung-Hwan Han
Materials Letters 2014.
Liquefied Petroleum Sensors and Rajendra S. Gaikwad, Gauri
Gas Sensing Properties actuators R. Patil, Bhagwat N. Pawar,
of Sprayed A: Rajaram S. Mane and
Nanocrystalline Zinc Physical, Sung-Hwan Han
Oxide Thin Films 189,
339-343
(2013)
Hematite Sensors and Vijaykumar V. Jadhav,
Nanostructures: actuators Supriya Patil, Dipak
Morphology-mediated B: Chem, Shinde, Manohar Zate,
Liquefied Petroleum 188, Shivaji Shelgaonkar,
Gas Sensors (2013), Rajaram S. Mane and
669-674 Sung-Hwan Han
Bismuth Oxide Electrochim ShoyebMohamad F.
Nanoplates-based ica Shaikh, Gul Rahman, Rajaram
Efficient DSSCs: Acta,111, S. Mane, and Oh-Shim Joo
Influence of ZnO 593-600,
Surface Passivation 2013
Layer
Photoelectrochemical J. Mater. Dipak V. Shinde, Iseul Lim,
cells by design: 3D Chem. A., Joong-Kee Lee, Myung Mo
Nanoporous CdO-CdSe 35, 2013, Sung, Rajaram S. Mane,
architectures on ITO 104**-***** Sung-Hwan Han
Monoclinic WO3 Dalton Shoyeb Mohamad F. Shaikh,
Nanorods-Rutile TiO2 Transaction Shankara S. Kalanur,
Nanoparticles s, 42 (28), Rajaram S. Mane, and
Core-shell Interface 100**-***** Oh-Shim Joo
for Efficient DSSCs .
Current density Dalton Supriya Patil, Dipak
enhancement in Transaction Shinde, Vijaykumar Jadhav,
ZnO/CdSe s, 42, Sambhaji Bhande, Rajaram S.
photoelectrochemical 130**-***** Mane, S. H. Han
cells in presence of
charge separating
ultra-thin SnO2
nanoparticles
interfacing-layer
Photoelectrochemical J. Nanoeng. Sambhaji S. Bhande, Sanjay
Studies of Nanoman., L. Gaikwad, Bharat G.
Chemically(Sol-Gel) 3, 1-6, Pawar, Arif. V. Shaikh,
Synthesized Tin Oxide 2013 Sanjay S. Kolekar, Oh-Shim
Nanocrystallites42, Joo, Rajaram S. Mane, and
130**-***** Sung-Hwang Han
Crystallographic Scripta T. Ganesh, S. S. Bhande, R.
Phase-Mediated Materialia, S. Mane and S. H. Han
Dye-sensitized Solar 69 (4)
Cells Performance of 292-294,
ZnO Nanostructures 2013
Anodically fabricated RSC Dipak V.Shinde, Deok Yeon
self-organized Advances, Lee, Supriya A. Patil,
nanoporous tin oxide 3, Iseul Lim, Sambhaji S.
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supercapacitor (2013) Mo Sung, Rajaram S. Mane,
electrode material Nabeen K. Shrestha and
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Upright-standing SnO2 Int. J. Sambhaji S. Bhande,
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nanocrystallites:High . Sci. V.Shinde, Supriya Patil,
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degenerating 115**-***** Han
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antibiotics with zinc Res 15, Khobragade
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Low Temperature Chem. Comm. Swapnil B. Ambade, Rohan B.
Chemically Synthesized Ambade, Rajaram S. Mane,
Rutile TiO2 49, Gowoon Lee, Shoyeb Shaikh,
Photoanodes with High 2921-2923 Supriya Patil, Oh-Shim
Electron Lifetime for (2013) Joo, Sung-Hwan Han and
Organic Dye-sensitized Soo-Hyoung Lee
Solar Cells
Enhanced gas Scripta Shivaji D. Waghmare, Dipak
sensitivity in TiO2 Materialia, V. Shinde, Manohar K.
nano-needles grown on 68, 735-738 Zate, Ravinder
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solar cell application 29-31 Shaikh, Oh-Shim
of electrodeposited (2012). Joo, Rajaram S. Mane,
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nanoparticles Ghule, Sung-Hwan Han,
Photoelectrochemistry RSC Dipak Shinde, Supriya
of Solution Processed Advances Patil, Mane, R. S. and S.
Hematite 2, H. Han
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Roughness-based Mater. Res. R. S. Gaikwad, S. S.
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conductivity in (2012) Han, and Oh-Shim Joo
boron-doped ZnO thin
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Wet-chemical Synthetic ShoyebMohamad F. Shaikh, Ji
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Bismuth Ferrite Micro 4169-4173 Yoon, S. B. Ambade, B.J.
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Upright-standing Chem. Phys. Dipak V. Shinde, Iseul
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Highly Efficient Physics Shinde, Seog Joon
ZnO-CdSe Letters, Yoon, Swapnil B.
Photoelectrochemical 2012, 102, Ambade, Joong Kee Lee,
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SnO2 Nanowall-arrays Dalton Dipak V. Shinde, Rajaram
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