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[[File:CarltonReeves.jpg|thumb]]<br/><span style="font-family:times new roman,times,serif;">[[File:UWM-banner logo.jpg|thumb]]</span><span style="font-family:times new roman,times,serif;">[[File:CMU Logo.png|thumb]]</span>

= <span style="font-family:times new roman,times,serif;">Overview </span> =

<span style="font-family:times new roman,times,serif;">'''University of Wisconsin-MilwaukeeSummary'''</span>

<span style="font-family:times new roman,times,serif;">Carlton Reeves, PhD, is the Entrepreneur-in-Residence at the University of Wisconsin-Milwaukee (UWM) Research Foundation. He received both his undergraduate and master’s degrees from Carnegie Mellon University in Mechanical Engineering in Pittsburgh, PA as well as receiving his doctorate from UWM.</span>

<br/><span style="font-family:times new roman,times,serif;">'''University Innovation Training Cohort[[File:UWM-Research-Square.png|thumb|UWM-Research-Square.png]]Personal Biography'''&nbsp;Spring 2014</span>

{{#Widget<span style="font-family:Youtube|id=w9lXQSAwraY}}times new roman,times,serif;">Dr. Reeves studies the field of tribology, the science of friction, lubrication, and wear in mechanical contacts. His research focuses on the development of environmentally friendly lubricants that satisfy the combination of environmental, health, economic, and performance challenges of modern lubricants. More specifically, Dr. Reeves concentrates on the design and advancement of environmentally benign ionic liquid lubricants and the use of micro- and nano-scale technologies that facilitate energy conservation and sustainability in high and low temperature systems.</span>

<span style="font-family: 'times new roman''Personal Biography''', times, serif;">Beyond the rigors of academia, Dr. Reeves is highly involved in entrepreneurship and innovation. As a doctoral student, he participated in local and national business competitions, where he launched his own business Tali Payments. A cloud-based mobile payment service for the restaurant industry that is designed for high volume turnover transactions where customers can order and pre-pay for their meals from the convenience of their smartphone for faster “grab-n’-go” meal delivery without the hassle of waiting in long lines. Now, with the system developed; operational at local restaurants; and piloting at the University of Wisconsin-Milwaukee, Dr. Reeves and his team are ready to scale their business up for a variety of dining markets.</span>

Dr. Reeves studies the field of tribology, the science of friction, lubrication, and wear in mechanical contacts. His research focuses on the development of environmentally friendly lubricants that satisfy the combination of environmental<span style="font-family: 'times new roman', healthtimes, economic, and performance challenges of modern lubricants. More specifically, Dr. Reeves concentrates on the design and advancement of environmentally benign ionic liquid lubricants and the use of microserif;">[[File:Tali- and nanoLogo-scale technologies that facilitate energy conservation and sustainability in high and low temperature systemsColor.png|thumb|none]]</span>

Beyond the rigors of academia= <span style="font-family:times new roman, Dr. Reeves is highly involved in entrepreneurship and innovation. As a doctoral student, he participated in local and national business competitions, where he launched his own business Tali Payments. A cloud-based mobile payment service for the restaurant industry that is designed for high volume turnover transactions where customers can order and pre-pay for their meals from the convenience of their smartphone for faster “grab-n’-go” meal delivery without the hassle of waiting in long lines. Nowtimes, with the system developedserif; operational at local restaurants; and piloting at the University of Wisconsin-Milwaukee, Dr. Reeves and his team are ready to scale their business up for a variety of dining markets.">Academic</span> =

'''Graduate Research Assistant[[File:CMU CIT.png|thumb|CMU CIT.png]]'''<br/>University of Wisconsin Milwaukee Advanced Manufacturing and Design Laboratory (AMDL)

<br/>'''Carnegie Mellon University,&nbsp;'''Pittsburgh, PA<br/>Master of Science in Mechanical Engineering, December 2009<br/>Bachelor of Science in Mechanical Engineering, May 2009<br/>Minor in Business Administration &nbsp; &nbsp;<div><span style="font-size: larger; font-family: 'times new roman', times, serif;">'''University Innovation Fellow Candidate Spring 2014'''</span></div>*<span style="font-size: larger; font-family: 'times new roman', times, serif;"><span style="font-family:times new roman,times,serif;">Campus Efforts:</span> </span>**<span style="font-size: larger; font-family: 'times new roman', times, serif;"><span style="font-family:times new roman,times,serif;">UWM Creative Commons</span></span>**<span style="font-size: larger; font-family: 'times new roman', times, serif;"><span style="font-family:times new roman,times,serif;">TEDx UW-Milwaukee contributor</span></span>**<span style="font-size: larger; font-family: 'times new roman', times, serif;"><span style="font-family:times new roman,times,serif;">UWM I&E&nbsp;Pipeline Program</span></span>

*Campus Efforts:**3DS Springboard Organizer**TEDx UW= <span style="font-Milwaukee contributor**President Student Entrepreneur and Startup Organization**Makerspace developmentfamily: UWM Creative Commonstimes new roman,times,serif;">Research</span><br/> =

<span style= Personal "font-size:small;"><span style="font-family:times new roman,times,serif;">'''Green Lubrication and Tribology Laboratory,&nbsp;'''University of Wisconsin-Milwaukee, January 2010 - January 2012<br/>Studied new advancedments in green lubrication technolgoies with natural and synthetic esters and the influence of nanometer and micron-sized particulate addivation</span></span>

Founder <span style="font-size:small;"><span style="font-family:times new roman,times,serif;">'''Thermal Maching Laboratory,&nbsp;'''University of the microfluidic technology company commercializing the electrostatic particle trap (EWisconsin-Milwaukee, January 2010 -Trap) under patent US 8January 2012<br/>Developed,465tested,967.and modeled environmneally freidnly bio-based lubricants for energy conservation and sustainability</span></span>

*E<span style="font-Trap uses electrostatic charge to isolate particlessize:small;"><span style="font-family:times new roman, much like restraining a particle within a fencedtimes,serif;">'''Tribolgoy & Energy Diagnostics Lab''', University of Wisconsin-in area.*E-Trap offers a solution to researchers enabling them to trap both microMilwaukee, January 2010 -January 2012<br/>Studied tribological properties and applications involving nano-scale particles, providing cost- and time-savings, as well as better sample preservation over current technologies.*Collaborating with prominent university researchers powder dry lubricants and entities.*Contact: francis@isopointtechnologies.comgreen lubrication technology</span></span>

<br/span style="font-size:small;"><span style="font-family:times new roman,times,serif;">'''Awards:Particle Flow & Tribology Lab''', Carnegie Mellon University, April 2009 – December 2009<br/>Studied the tribological properties of filter cake accumulation in a slurry mixture in a simulated deep oil drilling filtration rig</span></span>

*[http:=== Awards<br//www.bizjournals.com/milwaukee/blog/2014/03/business-journal-names-winners-for-2014-eureka.html Milwaukee Business Journal Junior Eureka Award]*[http://www5.uwm.edu/news/2014/03/25/2014-uwm-new-venture-business-plan-competition-winners-announced/#.U0ICj_ldV8H New Venture Business Plan Competition Grand Prize Winner]*[http://www.uwmstartupchallenge.com/startups UWM Student Startup Challenge Winner]> ===

[https:3<sup>rd<//www.linkedin.com/pub/alexsup>&nbsp;Place in Top 40 National Science Foundation, 2012 ASME-International Mechanical Engineering Congress and Exposition Student Poster Symposium, “Bio-francis/20/942/b89 LinkedIn]Based Room Temperature Ionic Liquid Lubricants for Energy Conservation and Sustainability”

[[University of Wisconsin Milwaukee]]1<sup>st<br/sup>[[University &nbsp;Place, UWM – College of Wisconsin-Milwaukee Student Priorities]]Engineering and Applied Science, Graduate Research Poster Competition, 2012, “Natural Oil and Ionic Liquid Lubricants for Energy Conservation and Sustainability”

= <span style="font-family: 'times new roman', times, serif;">Personal</span> = I am very excited to be an Innovation Fellow candidate because I am a huge proponent of innovation and entrepreuralism. I want more students in my school to think outside and focus less on finding a job after college and spend more time on making their own job after college. This is the challenge that I am ready to undertake and work with the other University Innovation Fellows from my university to solve. I want more students to take advantage of the increasing number of resources for student entrepreneurs and go after their dreams, becuase it is the students who can change the future. = <span style="font-family:times new roman,times,serif;">Related Links</span> = <span style="font-family:times new roman,times,serif;">[https://www.linkedin.com/pub/alex-francis/20/942/b89 LinkedIn]</span> <span style="font-family:times new roman,times,serif;">[[University of Wisconsin Milwaukee]]<br/>[[University of Wisconsin-Milwaukee Student Priorities]]</span> [[Category:Student ChangemakersContributors|Student_Changemakersc]][[Category:Student Contributors]]