nanotechnology

Nanotechnology

Prospects and Challenges
Registration: 
Open to all.
Date: 
5 October, 2001
Time: 
11:00 am
Venue: 
Electrical Engineering Department, University of Engineering and Technology (UET), Lahore
Abstract: 

Nanotechnology, the ability to work at the atomic and molecular level, atom by atom to create materials and structures with new capabilities, will fundamentally change electronics, computers, medicine, biotechnology, and many other industries. The current research in this area is meant to explore the science of nanostructures and new materials, to develop the enabling technology for producing new classes of electronic and biological devices, and to educate the scientists and engineers who will carry this vision forward. This talk is about the prospects of Nanotechnology and the challenges in this emerging field. It is targeted to undergraduate students in Physics, Chemistry, Electrical and Mechanical Engineering. The complexity of the topic would be minimal and its level would be elementary. It would span discussion on Carbon Nanotubes, Molecular Electronics, Nano-Electromechanical Systems, Ultrathin (1.7-7nm) oxides and nitrided oxides for CMOS applications and Noise Spectroscopy.

Resource People: 
Speaker
Hasan Raza
Department of Electrical and Computer Engineering, Purdue University WL, USA
Chair
Dr. Noor Sheikh
Chairman of Electrical Engineering Department, University of Engineering and Technology, Lahore

Micro/Nanobiotechnology

Interfacing Life Sciences and Engineering
Registration: 
Open to all.
Date: 
14 May, 2001
Time: 
11:00 am
Venue: 
Centre for Solid State Physics, University of the Punjab, Quaid-e-Azam Campus, Lahore
Abstract: 

The merger of life-science and engineering, specially at the micro and nanoscale, can bring about some very exciting and practical possibilities for the development of "integrated systems". Micro and nanoscale engineering can be used to solve important problems in life-sciences such as detection of biological organisms, while concepts from life sciences such as bio-inspired assembly can be used to meet significant engine manufacturing. Future integrated systems will utilize nano-scale phenomena,and micro-scale components used to interface the nano-scale components to the macro-world. This talk will present the interdisciplinary work in progress in our group in the development of these integrated systems, for example; detection of microorganisms and the determination of their viability within micro-scale bio-chips and bio-reactors, fabrication of ultra thin silicon cantilevers for high sensitivity detection of molecular byproducts of cells, integrated silicon nano-wire chemical sensors, and exploration of DNA and protein based assembly of micro and nano-particles and silicon devices.

Resource People: 
Speaker
Dr Rashid Bashir
School of Electrical and Computer Engineering, Department of Biomedical Engineering, Purdue University, USA
Chair
Dr. Shahzad Alam
PITMAEM, PCSIR

Nanotechnology

Prospects and Challenges
Registration: 
Open to all.
Date: 
10 December 1999
Time: 
11:00 am
Venue: 
Centre for Solid State Physics, University of the Punjab, Quaid-e-Azam Campus, Lahore
Abstract: 

Nanotechnology, the ability to work at the atomic and molecular level, atom by atom to create materials and structures with new capabilities that will fundamentally change electronics, computers, medicine, biotechnology, and many other industries. The current research in this area is meant to explore the science of nanostructures and new materials, to develop the enabling technology for producing new classes of electronic and biological devices, and to educate the scientists and engineers who will carry this vision forward. This talk is about the prospects of Nanotechnology and the challenges in this emerging field. It is targeted to undergraduate students in Physics, Chemistry, Electrical and Mechanical Engineering. The complexity of the topic was minimal with elementary level. It would span discussion on Carbon Nanotubes, Molecular Electronics, Nano-Electromechanical Systems, Ultrathin (1.7-7nm) oxides and nitrided oxides for CMOS applications and Noise Spectroscopy.

Resource People: 
Speaker
Hasan Raza
Department of Electrical and Computer Engineering, Purdue University WL, USA