Mr Zhongqiang ZHANG, Jiangsu University, China
Prof. Zhongqiang Zhang is a leading academic in mechanical engineering, currently serving as Professor and Associate Dean at Jiangsu University, China. With a career rooted in advanced fluid dynamics, nanoengineering, and smart materials, he has consistently contributed groundbreaking research recognized both nationally and internationally ππ¬. His global exposure includes visiting scholar roles at prestigious institutions like UC Berkeley and Mississippi State University, enhancing his research vision and collaborations. He is renowned for his pioneering work in nanofluidics, surface wettability, graphene membranes, and bioinspired designs π‘οΈπ§ͺ. Prof. Zhangβs projects, funded by the National Natural Science Foundation of China, span from intelligent liquid manipulation to smart environmental robots. A prolific author, he has numerous Q1 publications in high-impact journals ππ. With prestigious awards such as the ICCES Outstanding Young Researcher Award, his achievements reflect both innovation and leadership, making him a strong candidate for the Best Researcher Award ππ‘.
Publication Profile
Google Scholar
Education
Mr. Zhongqiang Zhang π is a dedicated scholar in the field of engineering mechanics with a strong academic foundation in mechanical engineering. He began his academic journey at the School of Mechanical Engineering, Shandong University of Technology π« in Zibo, PR China, where he earned his Bachelor of Science degree between September 2000 and June 2004. Demonstrating a passion for research and innovation, he continued his education by pursuing a Ph.D. at the Department of Engineering Mechanics, Dalian University of Technology (DUT) π§ π§ in Dalian, PR China. From September 2004 to December 2010, under the supervision of Professor Hong-Wu Zhang π¨βπ«, he developed advanced knowledge and skills in engineering mechanics. His academic path reflects a strong commitment to excellence in mechanical sciences and a drive for contributing to technological advancement. Mr. Zhang’s educational background laid a solid foundation for his future research and professional achievements in engineering. ππ
ExperienceΒ
Mr. Zhongqiang Zhang is a distinguished professor and Associate Dean at the School of Mechanical Engineering, Jiangsu University, PR China (π¨π³), serving since July 2020. With a solid academic foundation and deep expertise, he previously held the position of Associate Professor at the same institution from December 2010 to June 2020. His international academic engagements include a prestigious stint as a Visiting Scholar at the Department of Civil & Environmental Engineering, University of California-Berkeley (πΊπΈ), from October 2018 to January 2020, under the supervision of Shao-Fan Li π. Earlier in his career, he expanded his research exposure as a Visiting Ph.D. student at the Center for Advanced Vehicular Systems (CAVS), Mississippi State University (πΊπΈ), from May 2008 to January 2009 ππ¬. Mr. Zhangβs academic journey reflects a strong commitment to innovation, global collaboration, and mechanical engineering excellence πππ§.
Honors and Awards
Mr. Zhongqiang Zhang has earned numerous accolades throughout his distinguished academic and research career. In 2023, he received the prestigious ICCES Outstanding Young Researcher Award π
, recognizing his significant contributions to the field. He was also honored with the First Prize of Science and Technology of Jiangsu Province in 2020 π§ͺπ. His dedication to education was acknowledged in 2016 when he was named an Outstanding Young Backbone Teacher under the Jiangsu Blue and Blue Project ππ¨βπ«. In 2015, he secured the Third Prize in the Jiangsu Provincial Science and Technology Award π₯π¬. As a rising scholar, he was recognized as a Young Academic Leader of Jiangsu University in 2013 ππ. His scholarly excellence was evident early on, with his doctoral dissertation being awarded Outstanding Doctoral Dissertation by both Liaoning Province and Dalian University of Technology in 2012 πποΈ. In 2009, he won the 6th China Youth Science and Technology Innovation Award, showcasing his early potential and innovation.
Research Projects
Mr. Zhongqiang Zhang has led and contributed to multiple cutting-edge research projects funded by the National Natural Science Foundation of China π¨π³. As Project Leader, he spearheaded a 2023β2026 project focused on the continuous capturing and cross-scale collection of fuel bubbles driven by structure-wetting coupling gradients (RMB 550,000) π¬π§. From 2019β2022, he explored self-driven droplet behaviors on graphene-covered gradient textured substrates (RMB 630,000) π‘οΈβοΈ. Earlier, he investigated electro-mechanical coupling in fluid nano-devices based on low-dimensional carbon materials (2015β2018, RMB 800,000) ππ. His 2012β2014 study examined boundary slip in nanochannels influenced by temperature-velocity coupling gradients (RMB 260,000) π§ͺπ‘οΈ. Additionally, he plays a key role (R2) in a major project (2023β2025) developing an energy self-supply, rigid-flexible coupling robot for intelligent water environment sensing, funded at RMB 3,000,000 π€π. His research reflects deep expertise in nanofluidics, material science, and robotics, addressing vital scientific and environmental challenges.
Research Focus
Dr. Zhongqiang Zhangβs research focuses on nanofluidics, smart materials, and advanced surface engineering, with a strong emphasis on liquid transport, separation, and water harvesting technologies. His work leverages graphene membranes, conical micro-arrays, and textured surfaces to achieve breakthroughs in desalination, fluid dynamics, and droplet manipulation ππ§ͺ. He explores slip boundary conditions, programmable surfaces, and self-driving liquid motion, often through molecular dynamics simulations and experimental validations βοΈπ‘. His publications in top-tier journals like Science Advances, Chemical Engineering Journal, and ACS Applied Materials & Interfaces highlight innovations that overcome classic trade-offs like permeability-selectivity limits πΏπ¬. Dr. Zhang also contributes to the development of smart haptic electronic skins and temperature-responsive materials for microfluidics and environmental applications π€π‘οΈ. Overall, his interdisciplinary approach connects physics, materials science, and engineering to pioneer next-gen nanotechnologies for efficient water management and soft robotics π§.
Publication Top Notes
Effect of argon plasma treatment on the output performance of triboelectric nanogenerator
Water diffusion inside carbon nanotubes: mutual effects of surface and confinement
Prediction of the viscosity of water confined in carbon nanotubes
Molecular dynamics-based prediction of boundary slip of fluids in nanochannels
Size and temperature effects on the viscosity of water inside carbon nanotubes
Simulation study of aggregations of monolayer-protected gold nanoparticles in solvents
Surface slip on rotating graphene membrane enables the temporal selectivity that breaks the permeability-selectivity trade-off
Nanoconfinement induced anomalous water diffusion inside carbon nanotubes
Origami triboelectric nanogenerator with double-helical structure for environmental energy harvesting
Unidirectional self-driving liquid droplet transport on a monolayer graphene-covered textured substrate