VINCENT DIFILIPPO
Pilots at Princeton St, North Chelmsford, MA

License number

Massachusetts A5265386

Issued Date

Aug 2015

Expiration Date

Aug 2017

Professional information

Vincent Difilippo - North Chelmsford, MA

Work:

Mevion Medical Systems
Manufacturing Engineer - Physics The Dow Chemical Company - Marlborough, MA
Research Engineer Water Analytics - Andover, MA
Engineering Consultant Agiltron, Inc - Woburn, MA
Senior Process Engineer QD Vision, Inc - Watertown, MA
Senior Process Engineer Epion Corporation - Billerica, MA
Process Scientist

Education:

Tufts University, College of Engineering - Medford, MA
Master of Science in Mechanical Engineering

Skills:

Process Development, Vacuum Technology, Chemical Vapor Deposition, Mechanical Design, SolidWorks, Experimental Design and Analysis

Method And System For Improving The Effectiveness Of Artificial Joints By The Application Of Gas Cluster Ion Beam Technology

US Patent:

6863786, Mar 8, 2005

Filed:

May 9, 2002

Appl. No.:

10/142137

Inventors:

Stephen M. Blinn - North Reading MA, US
Barry M. Zide - Medway MA, US
Vincent DiFilippo - North Chelmsford MA, US

Assignee:

Exogenesis Biomedical Technology - Billerica MA

International Classification:

C23C014/34

US Classification:

20419234, 216 66

Abstract:

Regardless of the materials used in an artificial joint component design, the present invention applies gas cluster ion beam (GCIB) technology in order to modify the component's surface(s) so as to increase lubrication between contact surfaces, thereby substantially reducing wear debris, osteolysis complications, and accelerated wear failure. The approach of the surface modification comprises an atomic level surface patterning utilizing GCIB to apply a predetermined pattern to the surface(s) of the joint implant to reduce frictional wear at the interface of the surfaces. A reduction in wear debris by GCIB patterning on any surface(s) of a joint prosthesis reduces accelerated failure due to wear and osteolysis and results in a substantial cost savings to the healthcare system, and reduces patient pain and suffering.

Compositions And Methods Including Depositing Nanomaterial

US Patent:

2010026, Oct 21, 2010

Filed:

Dec 22, 2009

Appl. No.:

12/655074

Inventors:

John R. Linton - Concord MA, US
Peter T. Kazlas - Sudbury MA, US
Craig Breen - Somerville MA, US
Seth Coe-Sullivan - Belmont MA, US
Vincent Difilippo - North Chelmsford MA, US

International Classification:

B41J 2/015, B23P 17/00, C09D 11/02

US Classification:

347100, 347 20, 298901, 106 3192

Abstract:

An ink composition comprising a nanomaterial and a liquid vehicle, wherein the liquid vehicle comprises a composition including one or more functional groups that are capable of being cross-linked is disclosed. An ink composition comprising a nanomaterial, a liquid vehicle, and scatterers is also disclosed. An ink composition comprising a nanomaterial and a liquid vehicle, wherein the liquid vehicle comprises a perfluorocompound is further disclosed. A method for inkjet printing an ink including nanomaterial and a liquid vehicle with a surface tension that is not greater than about 25 dyne/cm is disclosed. In certain preferred embodiments, the nanomaterial comprises semiconductor nanocrystals. Devices prepared from inks and methods of the invention are also described.

Methods Of Adhering Drugs To The Surface Of Medical Devices Through Ion Beam Surface Modification

US Patent:

7105199, Sep 12, 2006

Filed:

May 13, 2002

Appl. No.:

10/144919

Inventors:

Stephen M. Blinn - North Reading MA, US
Barry M. Zide - Medway MA, US
Vincent DiFilippo - North Chelmsford MA, US
Sean Kirkpatrick - Littleton MA, US

Assignee:

Exogenesis Corporation - Wellesley Hills MA

International Classification:

B05D 3/00, C23C 14/00

US Classification:

427 224, 427 225, 427523, 427534

Abstract:

Methods of implanting, applying, or adhering various drug molecules directly into or onto the surface of medical devices through gas cluster ion beam (GCIB) and/or monomer ion beam surface modification of the medical devices before or after depositing the various drug molecules onto the medical devices.

Apparatus And Method For Producing Free-Standing Materials

US Patent:

8613899, Dec 24, 2013

Filed:

Apr 17, 2012

Appl. No.:

13/449126

Inventors:

Heather A. G. Stern - Chelmsford MA, US
Vincent DiFilippo - North Chelmsford MA, US
Jitendra S. Goela - Andover MA, US
Michael A. Pickering - North Chelmsford MA, US
Hua Bai - Lake Jackson TX, US
Debashis Chakraborty - Lake Jackson TX, US
Hangyao Wang - Pearland TX, US

Assignee:

Rohm and Haas Electronic Materials LLC - Marlborough MA
Dow Global Technologies LLC - Midland MI

International Classification:

B01J 19/00, C01B 17/00, C01B 19/00, H01L 21/00

US Classification:

423508, 423511, 422129, 422224, 502524, 438102, 2525194, 252 623 S

Abstract:

An apparatus includes a manifold with a chamber for mixing multiple reactants. Gases are jetted into the manifold by a plurality of inlet injectors. The inlet injectors are arranged such that the gases passing into the manifold impinge on each other at a common point to form a mixture. The mixture passes through a plurality of holes in one side of the manifold into a deposition chamber where the mixture of gases impinges on additional gases at a common point to provide a reaction resulting in deposition of solid materials in the deposition chamber. The solid materials are free-standing.