Project Title |
Agency |
Year |
|
|
|
Centre for Excellence
in Nanoelectronics (http://www.ee.iitb.ac.in/ ~nanoe) |
Centre for Excellence
in Nanoelectronics (http://www.ee.iitb.ac.in/ ~nanoe) |
2006- 2010 |
To create a Centre for
Research in Nanotechnology & Science |
DST, Govt. of India |
2006-2010 |
Biomolecular Centre
for Research in Nanotechnology & Science Electronics |
Ministry of Human
Rsources Devp. |
1999 |
Mixed Signal VLSI
Chip-Design |
Ministry of Human
Rsources Devp. |
1999 |
Modeling &
optimization of Sub 100nm channel MOS Technologies from Advanced 2-D
Device/process simulations |
Department of Science
& Techology |
2000 |
|
|
Low-temperature Hot
Wire CVD Oxynitride
Films for MOS
Applications |
Ministry of Human
Resources
Development |
2000 |
Gate oxide thickness
Scaling in Sub-100nm MOSFETS and its Effects on Circuit Performance |
Intel USA |
2000 |
|
|
|
Device and Circuit
|
Intel USA |
2000 |
Performance Tradeoffs
with the Useof High- |
|
|
K Dielectrics in
Sub-100nm CMOS |
|
|
Technologies |
|
|
Development Of
LEED-AES System |
Department of Science
|
2000 |
For The Study Of
Surfaces And |
& Technology |
|
Thin Films |
|
|
Covalently Linked
light-Harvesting Systems |
BRNS |
|
Comprised of a
porphyrin & Accessory |
|
2001 |
Pigments: Design,
Synthesis, Photodynamics & their applications |
|
|
Understanding the
Microscopic Nature of |
Department of Science
|
2001 |
Plasma Process Induced
Damage and its |
& Technology |
|
Correlation to CMOS
Device Performance |
|
|
and Reliablility |
|
|
Investigation
concerning the HWCVD of thin silicon films for photovoltaic applications |
International Agency |
2001 |
Development of a Novel
Circuit |
Department of Science
|
2002 |
Simulator following
the Look-up Table |
& Technology |
|
Approach |
|
|
Highly functional
Dendritic and |
Ministry of Human
Resources |
|
Hyperbranched Polymers
for Biomedical |
Development
|
2002 |
applications |
|
|
RF Model for Submicron
CMOS transistors |
IME Singapore
|
2002 |
Bio-MS for Cardiac
Diagnostics |
Aeronautical
Development Agency |
2002 |
|
|
|
Impact of Device
Scaling on |
Intel USA |
2002 |
Mixed Signal CMOS
Circuits |
|
|
Devp. Of Sintering
Diagrams for |
Council of Scientific
|
2002 |
Nanocrystaline Powers
and their |
& Industrial Research |
|
application to
Nanocrystaline. |
|
|
Engineering ad
Compaction of Cationic |
Indo-US Collaboration |
2003 |
Nanodiscs. |
|
|
Tat/Intensification Of
Physical Rate |
Ministry of Human
|
2003 |
Phenomena In
Multiphase Rate Process, |
Resources Development |
|
Through The Use Of
Nanomagnetic |
|
|
Particulars In The
Near-Interface Region |
|
|
Scheme Of R&D-Nanoparticles
As Bio |
Ministry of Human
|
2003 |
Active Agents
Extension Of Bhasma |
Resources Development |
|
Concept In Veterinary
Applications. |
|
|
VLSI CAD for sub-100mm
devices |
Synopsys |
2003 |
Silicon Locket for web
enabled cardiac |
TCS |
2003 |
diagnostics |
|
|
Development Of
Infrastructure |
Ministry of Human
|
2003 |
For Optical
Measurement Of Microelectro |
Resources Development |
|
Mech. System (MEMS). |
|
|
Development And
Analysis Of |
Ministry of Human
|
2003 |
Microsteriolithography
For Fabrication Of |
Resources Development |
|
Micro-Components |
|
|
Magnetic nanoparticle
based intracellular |
Department of
Bio-Technology |
2003 |
Hyperthermia-A
promising therapy for |
|
|
cancer |
|
|
Synthesis of
Nanostructured magnetic |
Department of Science
|
2003 |
materials |
& Technology |
|
Development of Low
Temperature uc-Si: |
Indian Space Research
|
2003 |
H Based Flexible Solar
Cells. |
Organisation |
|
Development of a
barium tinanate based |
Defence Research &
|
2003 |
ferroelectric material
for microelectronic |
Development
Organisation |
|
applications. |
|
|
Development Of
Nanocrystalline Gallium |
Ministry of Human
|
2003 |
Nitride Films For
Electroluminescent |
Resources Development |
|
Devices |
|
|
Development Of
|
Ministry of Human
|
2003 |
Semiconductor
Nanocrystal Conducting |
Resources Development |
|
Polymer Based Light
Emitting Diodes. |
|
|
Nanobiotechnology for
therapeutics: |
Department of
Bio-Technology |
2004 |
fundamentals and
applications |
|
|
Evaluation of the
efficacv of albumin |
Department of Science
|
2004 |
therapy in cerebral
ischemia using |
& Technology |
|
antioxidant profile,
hemorheological |
|
|
alterations and
ultrastructural changes. |
|
|
Optically Transparent
Electrically |
Department of Science |
2004 |
Conducting Thin Film
Coating from |
& Technology |
|
Polymer Materials:
Synthesis Part |
|
|
Development of Suman
Mashruwala |
Donation by Raj
Mashruwala |
2004 |
Laboratory of MEMS in
Mechanical Engg. |
|
|
Novel Device
Architectures for Sub 65 nm node CMOS |
DST-Swarnajayanti Fellowship |
2005 |
Optically Transparent
Electrically |
DST |
2003 |
Conducting Thin Film
Coating from |
|
|
Polymer Materials :
Synthesis Part |
|
|
Nanotechnology Based
on Conducting |
DST |
|
Polymers:
Nanostructures to Nanosensors |
|
|
to Nanochannelsa
|
|
|
Molecular Electronics |
IIT Bombay |
2003 |
Biomolecular
Electronics |
MHRD |
1999 |
A Study of the
Mechanism of Transducer |
DST |
2002 |
Action of Polyaniline |
|
|
Polysensor for Water
Quality Monitoring, |
MICT |
2002 |
Medialabasia |
|
|
SONOS Flash EEPROM |
Hitachi Ltd., Tokyo,
Japan |
2003 |
Processing and
properties of polyvinyledene Flouride |
BARC |
2001 |
Conducting Polymer
based sensing systems |
Media Lab Asia
(Ministry of IT) |
2002 |
For water quality
analysis (Polysensors) |
|
|
Sub 100 nm MOSFET
Fabrication
|
Swarnajayanti proposal, DST, Govt. of India |
2005-2009 |
|