Ub Financial Management Association Sep 2017 - Jun 2019
Vice President
Citi Sep 2017 - Jun 2019
Incoming Markets and Securities Services Analyst
Allianz Global Investors May 2018 - Aug 2018
Summer Intern
Terese Kelly Investment Group May 2018 - Aug 2018
Chief Economist
Spencer Winston Securities Jul 2017 - Aug 2017
Summer Intern
Education:
University at Buffalo School of Management, the State University of New York 2016 - 2020
Bachelors, Finance
Brooklyn Technical High School 2012 - 2016
Skills:
Python Java Financial Analysis Microsoft Office Leadership Teamwork Research Securities Social Media Market Research Finance Json Public Speaking Java Api Scala Fixed Income Portfolio Management Investments Economics Microsoft Word Microsoft Powerpoint Adobe Photoshop Adobe Illustrator Microsoft Excel Mutual Funds Asset Management Object Oriented Programming Bloomberg Terminal Python Product Development Product Management Product Strategy Visual Basic For Applications
Spotify Apr 2019 - Apr 2019
Head of Creator Marketing Content Strategy
The New Yorker Jan 2009 - Jan 2019
Contributing Writer
Embassy Row May 2016 - Feb 2017
Executive Producer
Complex Networks Jan 2016 - Oct 2016
Director of Content Development
Vice Media Feb 2011 - Jan 2016
Senior Editor
Education:
Nyu Tisch Art and Public Policy 2009 - 2011
Masters, Master of Arts
Sarah Lawrence College 2002 - 2006
Bachelors, Bachelor of Arts, Media Studies, Liberal Arts, English
Skills:
Editorial Editing Magazines Journalism Music Video Writing Publishing Creative Direction Blogging Art Social Media Percussion Storytelling New Media Publications Digital Media Film Producing Marketing
Apr 2014 to 2000 Assisting the CEO/CROSMB Capital New York, NY Jan 2014 to Mar 2014Personal Trading Account Katonah, NY Jan 2012 to Nov 2013MBF Clearing Corporation New York, NY Jun 2013 to Aug 2013 6 week internship program focusedChardan Capital Markets New York, NY Jun 2012 to Aug 2012Quinnipiac Men's Division I Varsity Tennis
Sep 2010 to 2012 Coach Mike Quitko
Education:
Quinnipiac University, School of Business Hamden, CT Dec 2013 Bachelor of Science in Finance
DCI Group Washington, DC Jun 2014 to Aug 2014 InternHEB Grocery The Woodlands, TX Sep 2013 to Jan 2014 BaggerThe John Cooper School The Woodlands, TX May 2012 to Aug 2012 Maintenance WorkerPutney Summer Program
Jun 2011 to Aug 2011 Homebuilding VolunteerFrench Language Program, Laval University, Quebec City, Quebec
Jun 2010 to Aug 2010 Student
Education:
Southwestern University Georgetown, TX Mar 2014 to 2000 Bachelor of Science in PsychologySouthwestern University University of Richmond & Lone Star College Richmond, VA Sep 2012 to Sep 2013John Cooper School The Woodlands, TX May 2012Elected Parliamentarian of University Planning Council University of Richmond
Benjamin Shapiro - Washington DC, US Elisabeth Smela - Silver Spring MD, US
Assignee:
University of Maryland - College Park MD
International Classification:
G01N 27/453 F16K 31/02
US Classification:
60326, 204600
Abstract:
An actuator cell includes a supply chamber containing fluid, and an expansion chamber for receiving fluid from the supply chamber, and being expandable to deform a predetermined area of the actuator cell. The actuator cell further includes a channel providing a fluid flow passage between the supply and expansion chambers, and a compliant material substantially surrounding the supply chamber, the expansion chamber and/or the channel. An electric circuit applies an electric field adjacent the supply and expansion chambers, and thereby causes fluid flow from the supply to the expansion chamber.
Arbitrary And Simultaneous Control Of Multiple Objects In Microfluidic Systems
Benjamin Shapiro - Washington DC, US Satej V. Chaudhary - Greenbelt MD, US Michael D. Armani - Dayton MD, US Roland Probst - College Park MD, US
Assignee:
University of Maryland - College Park MD
International Classification:
C25B 15/00
US Classification:
204450, 204452, 204600, 204602
Abstract:
In a microfluidic device, respective motion of a plurality of objects along corresponding trajectories is achieved by determining a force field, such as an underlying fluid flow which, when applied to the plurality of object, moves each object along its corresponding trajectory. The force field is a linear superposition of a subset of all force fields supported by the physical characteristics of the microfluidic device. Once the fields have been ascertained, a plurality of actuation signals corresponding to the fields is applied to actuators installed on the microfluidic device to cause the force on each object. By implementing a feedback structure, corrections for positional errors may be made by computing a corrective force for each object and adjusting the actuation signals appropriately thereto.
Arbitrary And Simultaneous Control Of Multiple Objects In Micro-Fluidic Systems
Benjamin Shapiro - Washington DC, US Satej V. Chaudhary - Greenbelt MD, US Michael D. Armani - Dayton MD, US Roland Probst - College Park MD, US
Assignee:
University of Maryland - College Park MD
International Classification:
C25B 9/00
US Classification:
204616, 204450, 204456, 204466, 204600, 204606
Abstract:
In a microfluidic device, respective motion of a plurality of objects along corresponding trajectories is achieved by determining a force field, such as an underlying fluid flow which, when applied to the plurality of object, moves each object along its corresponding trajectory. The force field is a linear superposition of a subset of all force fields supported by the physical characteristics of the microfluidic device. Once the fields have been ascertained, a plurality of actuation signals corresponding to the fields is applied to actuators installed on the microfluidic device to cause the force on each object. By implementing a feedback structure, corrections for positional errors may be made by computing a corrective force for each object and adjusting the actuation signals appropriately thereto.
Devices, Systems And Methods For Magnetic-Assisted Therapeutic Agent Delivery
Benjamin Shapiro - Washington DC, US Isaac B. Rutel - Choctaw OK, US
Assignee:
University of Maryland - College Park MD University of Oklahoma - Norman OK
International Classification:
A61B 19/00 A61B 17/52 A61N 2/10
US Classification:
128899, 600 9, 604 20
Abstract:
Devices, systems and methods for magnetically assisted agent delivery are included. These devices, systems, and methods make use of a plurality of magnets or magnetic configuration. Two magnets are arranged such that the two magnetic fields overlap and can cancel at the location of the desired node point without canceling around that point.
Methods And Systems For Using Therapeutic, Diagnostic Or Prophylactic Magnetic Agents
Benjamin Shapiro - Washington DC, US Michael R. Emmert-Buck - Easton MD, US
Assignee:
University of Maryland College Park - College Park MD The United States of America as represented by the Secretary of the Department of Health and Human Services, National Institutes of Health - Washington DC
International Classification:
A61N 2/00
US Classification:
600 12
Abstract:
Systems and methods are disclosed for directing magnetizable particles comprising therapeutic agents to a target volume, or for guiding magnetizable particles comprising therapeutic agents from a first target volume to a second target volume, at a distance using a magnetic field, to enable the treatment of diseased areas including areas deep inside a patient's body. The methods may be used to diagnose or treat diseased areas within a patient, for example tumors of the lungs, intestines, and liver, and is also useful in enhancing the permeability of solid tumors to chemotherapeutic agents.
Benjamin Shapiro - Washington DC, US Pamela Abshire - Silver Spring MD, US Elisabeth Smela - Silver Spring MD, US Denis Wirtz - Washington DC, US
International Classification:
C12Q 1/70 C12Q 1/68 C12M 3/00
US Classification:
435005000, 435006000, 435287200
Abstract:
Methods and compositions for the reliable detection of pathogens are presented. The invention uses cells as novel pathogen detection agents, exploiting pathogen-specific pathways and apoptosis.
Methods And Systems For Magnetic Focusing Of Therapeutic, Diagnostic Or Prophylactic Agents To Deep Targets
Benjamin Shapiro - Washington DC, US Andreas Lubbe - Paderborn, DE Declan Diver - Glasgow, GB Hugh Potts - Glasgow, GB Roland Probst - Bobenheim-Roxheim, DE
Assignee:
UNIVERSITY OF MARYLAND, COLLEGE PARK - College Park MD
Systems and methods are disclosed for trapping or focusing magnetizable particles comprising therapeutic agents at a distance using a dynamic magnetic field and feedback control, to enable the treatment of diseased areas deep inside a patient's body. The methods may be used to diagnose or treat diseased areas deep within a patient, for example tumors of the lungs, intestines, and liver, and is also useful in enhancing the permeability of solid tumors to chemotherapeutic agents.
Magnetic-Assisted Tumor Confinement Methodology And Equipment
Irving N. WEINBERG - Bethesda MD, US Benjamin SHAPIRO - College Park MD, US
Assignee:
WEINBERG MEDICAL PHYSICS LLC - Bethesda MD
International Classification:
A61N 2/00
US Classification:
600 12
Abstract:
Disclosed embodiments are directed to reducing the likelihood of intra-operative shedding. Specifically, disclosed embodiments utilize injected magnetic nanoparticles and magnets to confine tumor cells to the surgical bed in order to prevent the cells from being released into the general circulation and/or lymphatics.
Name / Title
Company / Classification
Phones & Addresses
Benjamin Shapiro Principal
Ben Shapiro Productions LLC Nonclassifiable Establishments
"Mood naturally cycles with lowest point in the morning and highest in the evening independent of sleep deprivation. Sleep deprivation is a separate process that further decreases mood," said Benjamin Shapiro, lead author of the study and psychiatrist at Dartmouth Health. "So someone awake all night