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Mark J Fink, 688019 Hickory St, New Orleans, LA 70118

Known as:
Mark Jason Fink Mark F Fink
Related to:
Keyhan Zareian Ali Akbar Zareian 79

Mark Fink Phones & Addresses

8019 Hickory St, New Orleans, LA 70118    504-8618982   

Metairie, LA   

Greenville, NC   

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Mark Fink resumes & CV records

Resumes

Mark Fink Photo 46

Captain

Location:
304 Yvonne Ave, Abita Springs, LA 70420
Industry:
Maritime
Work:
Harvey Gulf International Marine
Captain Edison Chouest Offshore 1994 - 2013
Captain
Skills:
Navigation, Maritime Operations, Ism, Maritime, Vessel Management, Ports, Boat, Maritime Security, Marine Operations, Gmdss, Supervisory Skills, Vessel Operations, Offshore Drilling, Safety Management Systems, Seamanship, International Shipping, Vessels, Ships, Marine Engineering, Shipping, Stcw, Offshore, Supply
Interests:
Collecting Antiques
Aviation
Exercise
Sweepstakes
Home Improvement
Reading
Gourmet Cooking
Sports
The Arts
Food
Home Decoration
Health
Cooking
Electronics
Outdoors
Crafts
Fitness
Music
Movies
Collecting
Kids
Medicine
Automobiles
Cats
Travel
Motorcycling
Investing
Traveling
Languages:
English
Mark Fink Photo 47

Mark Fink

Mark Fink Photo 48

Mark Fink

Location:
New Orleans, LA
Industry:
Research
Work:
Tulane University
Professor of Chemistry Tulane University
Chemistry
Skills:
Science, University Teaching, Higher Education, Student Affairs, Uv/Vis, Materials Science, Characterization
Mark Fink Photo 49

Mark Fink

Mark Fink Photo 50

Mark Fink

Mark Fink Photo 51

Mark Fink

Mark Fink Photo 52

Mark Fink

Mark Fink Photo 53

Mark Fink

Location:
United States

Publications & IP owners

Us Patents

Method Of Forming Stable Functionalized Nanoparticles

US Patent:
7883995, Feb 8, 2011
Filed:
Jun 2, 2008
Appl. No.:
12/131718
Inventors:
Brian S. Mitchell - New Orleans LA, US
Mark J. Fink - New Orleans LA, US
Andrew S. Heintz - New Orleans LA, US
Assignee:
The Administrators of the Tulane Educational Fund - New Orleans LA
International Classification:
H01L 21/00
US Classification:
438478, 438800
Abstract:
A novel top-down procedure for synthesis of stable passivated nanoparticles uses a one-step mechanochemical process to form and passivate the nanoparticles. High-energy ball milling (HEBM) can advantageously be used to mechanically reduce the size of material to nanoparticles. When the reduction of size occurs in a reactive medium, the passivation of the nanoparticles occurs as the nanoparticles are formed. This results in stable passivated silicon nanoparticles. This procedure can be used, for example in the synthesis of stable alkyl- or alkenyl-passivated silicon and germanium nanoparticles. The covalent bonds between the silicon or germanium and the carbon in the reactive medium create very stable nanoparticles.

Possible Relatives

Cynthia J Fink  David L Fink  Dawn C Fink  Deanna S Fink  Dale J Fink  Deborah S Fink  Dana M Fink  Mark W Johnson  Mark E Stamps  Mark Stancil 

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