Name: (Dr.) C. D. Lokhande



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Personal information


Name: (Dr.)

C. D. Lokhande

Present Position:

Professor in Physics,

Shivaji University,

Kolhapur. 416 004


Teaching Experience:

30 years

Resi. Address:

B-102, Katkar park,

Shivaji University Road,

Kolhapur- 416 008.


Telephone Nos. :

(O) 91-231-26092259,

(Mobile : 9765788816)

Fax : (91-231) 2691533


E-Mail:

l_chandrakant@yahoo.com,

cdl_phy@unishivaji.ac.in


b) Academic Qualification



Sr. No.

Degree

Subject

Class

Year

University

Additional Particulars

1

B.Sc.


Physics (main)

Mathematics

Chemistry


1st


1978

Shivaji





2

M.Sc.


Physics (Solid State)

1st


1980


Shivaji





3

Ph.D.


Photoelectro-chemical cells with Al doped CdS films

-

30/05/1984


Shivaji


Thesis adjudged

excellent, degree

awarded without viva-voce exam



c) Honors and most Prestigious Awards
A) Citations as on 4th July 2013 are 8500; H index : 47, ; I10 : 167, ( Google Scholar),

B) As per “Journal of Library & Information Technology Vol. 32, 2012, pp. 477- 481”, Prof Lokhande ranked 11th in the list of most productive scientist in Materials science (2000-2010) in India. He ranked second in the Average citation per article, after Prof. C N R Rao and also ranked 4th in ‘H” index for the above period.


C) As per, “Recent Research in Science and Technology 2011, 3(10): 112-117”, Prof Lokhande has been ranked 11th in the publication on solar energy research in India during the period 1999-2011.

  • Fellow, Maharashtra Academy of Sciences (2012)

  • Member, Research project evaluation and recommendation Committee, UGC, New Delhi (2012)

  • Expert member, DST Committee on Hydrogen Production (2012)

  • Distinguished visiting professor in polymer chemistry, Inst of Chemical Technology, Mumbai (2012)

  • Best teacher award 2010, Shivaji University. ( 2010)

  • Rajya Shishak Purshakar Govt of Maharashtra, (2009)

  • Alexander von Humboldt Fellowship, Germany (1996-98), 1998, 2000, 2001

  • Visiting Scientist, Brain Pool Programme, S. Korea (2003-2004), (2008-09)

  • Visiting Professor: Hanyang University, Seoul, Korea (2006)

  • Visiting Scientist, Indo-Polish CEP (1991-1992)

  • INSA Visiting Fellow 1993-94

  • National visiting fellow of DST, New Delhi (1994-95)

  • Visiting Associateship, CSIR (1994-1997)

  • Fellow: Institute of Physics, London

  • Research Associateship: Kwansei Gakein University, Japan (1994)

  • Research Associate ship: University of Carbondale, U. S. A. (1986)

Research


  1. Journal publications

Papers published in International Journals: 421




Citation Index: 8648

h’ factor: 47



b) Patents

Patents: (33) (Indian 11 accepted, Korean 5 accepted), Applied (Indian) 27, (Korean) 1, World 01 (All patents are filed by self and related to nanomaterials processing and applications in sensors, supercapacitors, solar cells etc)




Sr. No.

Title of patent

Patent number

2

An improved process for the electrolytic deposition of cooper indium alloy.

166308/MUM/1987

3

A simple method for the preparation of large area semiconductor thin films.

164202/MUM/1987

4

A process for the deposition of indium selenide compounds from an aqueous bath on metallic substrates.

1702481/MUM/1990

5

A solution growth method for preparation of group V-VI compounds thin films.

170249/MUM/1990

6

Chemical bath deposition method tin disulfide thin films.

172676/MUM/1991

7

A processes for the deposition of Samarium thin films from an aqueous bath.

172674 /MUM/1990

8

A process for deposition of Bi2Se3 and Sb2Se3 thin films from aqueous bath,

193449/MUM/2004

9

A process for forming chemically deposited Bismuth selenide layers.

1920086/MUM/2004

10

A chemical method for preparation of Bi2S3 and Sb2S3 thin films on glass substrates

2004 267/MUM/1999

11

A chemical method for the deposition of CuInS2, CuInSe2 and CuInTe2 thin films

506/MUM/2003

12

Novel electrochemical process for Nanocrystalline ferrite thin film deposition.

362/MUM/2003

13

Chemically deposited nanocrystalline and porous titanium dioxide film.

1337/MUM/2004

14

Polyaniline thin film based supercapacitor.

1265/MUM/2004

15

Single phase bismuth ferric oxide thin film by chemical method.

35/MUM/2005

16

Preparation of hydrophobic nanocrystalline zinc oxide films.

602/MUM/2005

17

Supercapacitors formed Chemically deposited MnO2 films

604/MUM/2005

18

A simple chemical method for titanium oxide thin film,

745/MUM/2005

19

Chemical process of forming nanocrystalline nickel ferrite films

1309/MUM/2007

20

A chemical method for deposition of nanocrystalline nickel ferrite films,

1310/MUM/2007

21

A simple chemical method for depositing ruthenium oxide films,

1324/MUM/2007

22

A novel chemical method for depositing ruthenium oxide films

1287/MUM/2007

23

A chemical method for deposition of nanocrystaline Nickel Ferrite films

1310/MUM/2009

24

Development of Liquefied Petroleum Gas (LPG) sensor based on nanocrystalline Nickel Ferrite films using modified chemical deposition method

1770/MUM/2009

25

Fabrication of Liquefied Petroleum Gas (LPG) sensor based on chemically deposited nanocrystaline Nickel Ferrite films

1773/MUM/2009

26

Supercapacitor based on chemically deposited Manganese oxide thin films

1989/MUM/2009

27

Supercapacitor based on chemically deposited Polyaniline thin films

1990/MUM/2009

28

Heterojunction based room temperature Liquefied petroleum gas (LPG) sensor

2305/ MUM/2009

29

Supercapacitor based on Polyaniline film electrodes deposited by Lucrative SILAR method

2720/MUM/2009

30

A chemical method for deposition of nanocrystaline Tin Oxide thin film Supercapacitor electrode

181/MUM/2010

31

Chemically deposited Polypyrrole thin films for Supercapacitor application

2964/MUM/2010

32

Low cost and large area chemical deposition of CZTS thin film

3072/MUM/2010

33

Room temperature chemical method for the synthesis of Cu2ZnSnS4 absorbing layer

3073/MUM/2010

34

Electrochemical Capacitor based on Polypyrrole thin film electrode

3221/MUM/2011

35

Chemically deposited nanocrystaline ZnFe2O4 thin films for Supercapacitive application

341/MUM/2011

36

Chemically deposited nanocrystaline ZnFe2O4 thin films for Supercapacitive application

341/MUM/2011

37

Room temperature sensor based on n-NiFe2O4/p-Polyaniline heterojunction for Liquefied Petroleum Gas (LPG) detection

1232/MUM/2011

38

Chemical synthesis of polythiophene thin film for supercapacitor application

1695/MUM/2012

Korean Patents: ( 5)

1

Thin film ruthenium oxide electrodeposited from ruthenium chloride solution.

(10-0578734) 2006

2

A chemical method for depositing titanium oxide coating on substrates.

(10-0555293) 2006

3

Ammonia-free chemical method for depositing microcrystalline cadmium selenide film on substrates.

(10-0576934) 2006

4

Cathodic electrodeposition of cadmium selenide films from weak alkaline bath containing sodium citrate-selenosulphite.

(10-0598482) 2006

5

Electrosythesis of TiO2 films from aqueous bath.

(10-0599879) 2006



5) Major research projects:
Research Grants: (Total grant Rs > 1 crore)


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