E. B. Mock and C. F. Zukoski, "Determination of static microstructure of dilute and concentrated suspensions of anisotropic particles by ultra-small angle X-ray scattering," Langmuir, 23, 8760-8771 (2007).
E. B. Mock and C. F. Zukoski, "Investigating microstructure of concentrated suspensions of anisotropic particles under shear by small angle neutron scattering," J. Rheol., 51, 541-559 (2007).
V. Gopalakrishnan and C. F. Zukoski, "Microstructure of equilibrium fluid clusters in colloid-polymer suspensions," Phys. Rev. E, 75, 021406 (2007).
T. D. Pfister, A. Y. Mirarefi, A. J. Gengenbach, X. Zhao, C. Danstrom, N. Conatser, Y. G. Gao, H. Robinson, C. F. Zukoski, A. H.-J. Wang, and Y. Lu, "Kinetic and crystallographic studies of a redesigned manganese-binding site in cytochrome c peroxidase," J. Biol. Inorg. Chem., 12, 126-137 (2007).
V. Gopalakrishnan and C.F. Zukoski, " Viscosity of hard-sphere suspensions: Can we go lower ? ," I&EC Research, 45, 6906-6914 (2006).
B.J. Anderson, V. Gopalakrishnan, S. Ramakrishnan and C.F. Zukoski, " Scattering for mixtures of hard spheres: Comparison of total scattering intensities with model - art. no. 031407," Physical Review E, 73, 031407 (2006).
E.B. Mock, H. De Bruyn, B.S. Hawkett, R.G. Gilbert and C.F. Zukoski, "Synthesis of anisotropic nanoparticles by seeded emulsion polymerization," Langmuir, 22, 4037-4043 (2006).
W.E. Smith and C.F. Zukoski, "Aggregation and gelation kinetics of fumed silica-ethanol suspensions," Journal of Colloid & Interface Science, 304, 359-369 (2006).
Professors like Rohit Bhargava know that tomorrow’s engineers will have to work across multiple fields to really be effective. Students from eight different disciplines work with him to fight cancer using nanotechnology. And two multimillion-dollar student training programs make sure that attitude is integrated into their education as well. See us in action by visiting campus
Illinois researchers are making strides to improve cancer detection, prevention, diagnosis, therapy, and quality of life. The Cancer Community @ Illinois provides resources to access cancer-related activities across campus and nucleate new programs and activities to advance cancer research progress.
The breadth and depth of knowledge in Engineering at Illinois makes it easy to find the expert in any given field. And experts who are ready to work across fields. Search for an individual or topic and let's change the world together.
Engineering students need to do more than learn equations and techniques. They need to identify the passions that motivate them and the personal skills to pursue those passions. The Illinois First-Year Experience (IEFX) helps every Engineering at Illinois student do just that. It’s the only program of its kind at an engineering program of our size. Learn more about the first-year experience.
Now through the end of 2019, The Grainger Foundation will match all donations up to $25 million to Engineering at Illinois' scholarship endowments. The opportunity to improve the quality, diversity, and global influence of our undergraduate students has never been greater. Learn more...
A new class of walking “bio-bots” powered by muscle cells and controlled with electrical pulses could aid in drug delivery, surgical robotics, ‘smart’ implants, mobile environmental analyzers, and more.
As one of the world's top ranked engineering programs, our students, faculty, and alumni set the standard for excellence. We drive the economy, reimagine engineering education, and bring revolutionary ideas to the world.
We solve the world's greatest challenges. We look toward the future and find ways to make it a reality. Leading the innovation of virtual reality. Designing electronic tattoos to treat seizures. Building safer global water systems. Converting algae to biofuel. Exploring fusion energy.