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 |
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 |
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.
‘h’ factor: 47
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 |