Laboratory for Surface Modification (LSM)

Professor Yves J. Chabal

Research Group

Prof. Yves Chabal
Departments of Chemistry and Biomedical Engineering
Laboratory for Surface Modification
Tel. 732-445-8248
Fax 732-445-4991

Adm. Asst. 732-445-4004

 

Yves Chabal's Group

 

Post Doctoral Associates

Dr. Jinhee Kwon

(Physics)

Growth of high-k dielectrics on semiconductor surfaces using Atomic Layer Deposition

Dr. Jean-Francois Veyan

(Physics)

Hydrogen interaction with Ti-doped Aluminum surfaces for H storage applications
Graduate Students -Ph.D. Candidates

Norman Lapin

(Biomedical Engineering)

Development of antibody-based microarrays

 

Meng Li

(Physics)

Self assembly of organic thin film on silicon surfaces and their applications to nano-electronics and biology

 

 

Ming-Tsung Ho

(Physics)

Growth of High-k dielectrics (H f O2) on silicon surfaces using Atomic Layer deposition

Melissa Stickle

(Biomedical Engineering)

Characterization of Organic Transistor Gas Sensing  
Graduate Students - First Year Ph.D. Candidates

Min Dai

(Physics)

Growth of high-k dielectrics (H f O2) on silicon surfaces using Atomic Layer deposition

 

    
Master Students

Steffen Kahle

(Physics)

Hydrogen storage in Carbon Nanotubes

Daniel A. Mayer

(Physics)

Hydrogen storage in Metal Organic Frameworks

 

Stefan P. Schaefer

(Physics)

Hydrogen interaction with Ti-doped Aluminum surfaces for H storage applications

    
Undergraduate Students

Robert Pasternack

Biomedical Engineering Undergraduate

Functionalization of silicon surfaces for antibody-based microarrays 		   
Collaborators:

Stan B Christman

(Electronics)

Hickory Hill Designs Research Engineer		    
Previous Members of the Group

Dr. Sandrine Rivillon

(Physical Chemistry)

Functionalization and Characterization of Semiconductor Surfaces

Dr. Ken Bratland

(Physics)

Design and Construction of an integrated thin film growth and characterization system

 

Dr. David Michalak

(University of California, Berkeley )

Functionalization and Characterization of Semiconductor Surfaces

 

Dr. Yu Wang

University of Tulane

Growth of high-k dielectrics (H f O2 ) on silicon surfaces using Atomic Layer deposition

 

Dr. Martin Frank

(Physics, Sept. 2001 - Sept. 2003, now at IBM T.J. Watson Research Center)

Advanced gate stacks on Si and on high-carrier-mobility channels (Ge, III-V): Chemistry and device performance

Dr. Rhett Brewer

(Chemical Engineering/Materials Science, PostDoc 2003-2005, now at Intel, Santa Clara, CA)

Non-Volatile Memory Research

 

Lynn Moraitis

FESEM, PXRD and Coulter Laser Scattering study of boehmite powder 		Niharika Gajawelli

Electrical & Computer Engineering Undergraduate Functionalization of silicon surfaces with alkytrichlorosilane for MEMS application

       

Benjamin Broker

Functionalization of silicon surfaces for DNA immobilization

 

Karsten Kruger

Functionalization of organic semiconductors for DNA immobilization

 

David Jacome

(Emerson High School, Union City) SEED program summer 2005