WENXUAN FAN

**** ******** *********, **** ****** City, NY, 11101

585-***-****

ac8j27@r.postjobfree.com

HIGHLIGHT

Knowledge: Proficient in electrochemistry and electrochemical engineering, extensive knowledge in materials science and engineering, expert in polymer science

Experimental Measurement: Experienced in electrochemical experiment, such as cyclic voltammetry and differential pulse voltammetry. Familiar with UV-vis, TGA, DMR, DSC, SEM, XRD and fluorescence spectrum

Communication and Presentation: Skilled in writing technical reports and presenting technical data

Team work and self-motivation: Highly self-motivated, practically experienced in the lab work and professional team, adept in managing the project and large amount tasks

EDUCATION

MS, Material Science and Engineering, Rochester Institute of Technology 08/2016-08/2018

Relevant Courses: Solid State Science, Polymer Science, Material Science, Electrochemical Engineering, and Material Degradation BS, Material Chemistry, Agriculture University of Shandong 09/2012-05/2016

Relevant Courses: Polymer Chemistry, Polymer Physics, and Chemical Biology, Organic Chemistry, Inorganic Chemistry, Physical Chemistry, Analytical Chemistry,

RESEARCH EXPERIENCE

A Graphene Quantum Dots Enhanced Copper Sensor for Detecting Ciprofloxacin 11/2016-08/2018

Achieved in investigating the reaction between ciprofloxacin and cupric ions, including the combination of ciprofloxacin-copper complex and the electrochemical property changes

Found that the compound property changed after combination and got the lowest concentration required for the detection

Utilized GQD to improve the performance of copper sensor which can be used to detect ciprofloxacin at very low concentration, and compared the original sensor and utilized senor with same parameters

Set up a model of relationship between resistance and concentration, obtained an practical utilized sensor application which can be used for the drug delivery and drug effect detection Two-stage Cyclic Enzymatic Amplification Method for Ultrasensitive Electrochemical Assay of MicroRNA-21 in the Blood Serum of Gastric Cancer Patients 08/2015-02/2016

Developed a perfect electrochemical strategy to detect the miRNA-21 related to the gastric cancer, and the data was showed in a more wide linear range and lower detection limit than previous research

Built up a 2-stage CEAM method successfully to utilize the biosensor, which greatly improved both sensitivity and specificity

Tested the new sensor under ultra-visible light, then collected data to estimate the stability and sensitivity of the new sensor, the final result met the prediction and requirement

The Investigation of Anti-oxidation Property between NO, c-PTIO and Tea Polyphenols 01/201*-**-****

Designed a professional control experiment for a large amount of samples, invented a great way to treat peaches with NO, c-PTIO and tea polyphenols respectively

Successfully measured SOD, CAT, POD, LOX of different peach samples to test which one has best anti-oxidation, finding the best anti-oxidation compound - Nitric Oxide

PUBLICATIONS & PRESENTATIONS

A New Graphene Quantum Dot Sensor for Estimating an Antibiotic Concentration, N. AHAMED, W. Fan, M. Schrlu and K.S.V. Santhanam, MRS Advances Nanomaterials, 3(15), 825(2018).

Ciprofloxacin Binding to Cupric Ion Deactivates its Fluorescence on Graphene Quantum Dot Platform: An Analytical Sensor, W.FAN, Nuzhet.N and K.S.V Santhanam, 41st IEEEE EDS activities in Western New York Conference, 10th November, 2017.

Interdigitated Gold Electrodes with Graphene Quantum Dot Platform for Ciprofloxacin Sensor, N. Ahamed, W. Fan and K.S.V. Santhanam, activities in Western New York Conference, 10th November, 2017.

An Alumina Platform with Interdigitated Gold Electodes Coated with Cupric Ion Bound Graphene Quantum Dot for Ciprofloxacin Sensor, W. Fan and K.S.V. Sanhtanam (To be published).

Two-Stage Cyclic Enzymatic Amplification Method for Ultrasensitive Electrochemical Assay of MicroRNA-21 in the Blood Serum of Gastric Cancer Patients, B.Li, F. Liu, W. Fan. Elsevier, DOI: 10.1016/j.bios.2015.12.051.

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