Shenhar Roy

1995-2001: Ph. D., Chemistry, Hebrew University of Jerusalem
1992-1995: B. Sc., Chemistry and Computer Science , Hebrew University of Jerusalem
Philadelphia 206
02 6586 311
02 6585 345
Research Focus: 

Our research focuses on the assembly of block copolymers (and other polymers) with functional components such as nanoparticles, conductive polymers, polyelectrolytes, and bio-macromolecules. Block copolymers (polymers consisting of sequences of chemically distinct repeat units) feature a variety of periodic nanoscale morphologies that are accessible in a highly controlled fashion through a spontaneous process of phase separation. These materials are attractive as templates to induce the two- and three-dimensional arrangement of nanomaterials. Controlling the morphology of nanoparticle ensembles in this way enables to fine-tune their collective properties, which is important for a variety of applications, from microelectronics and photonics to diagnostics. Additionally, it enables the fundamental investigation of the dependence of these collective properties on the morphology of the ensemble, an option that was largely inaccessible so far due to our limited control over the morphology of the assembly.

A major effort in our research is dedicated to the polymer-mediated assembly of inorganic nanoparticles into morphologically controlled hierarchical structures. We explore the interplay between the block copolymer and the nanoparticles and learn how to chemical interactions between them lead to controllable structures. For example, we have recently discovered that the utilization of two phase separation processes occurring on different time scales enables the organization of spherical gold nanoparticles into hierarchical structures, in which they are segregated into one type of domain and exhibit internal structure as well. In a follow-up study, we have considerably elaborated this strategy to semidonductor nanoparticles, exploring both the influence of the particle shape (sphere vs. rod) on the morphology as well as the effect of the block copolymer morphology on the final hierarchical structure (see Figure). One of the major discoveries was the ability to control the morphology of the copolymer film by the shape of the nanoparticle, and induce perpendicular orientation of the domains by designing the nanoparticles to segregate to the phase that preferentially wets the substrate and use their tendency to migrate to the free surface to lower interfacial tension (Fig. 1h,i).






















Figure. SEM images of solvent annealed films of different polystyrene-block-poly(methyl methacrylate) copolymers assembled with spherical and rod-like CdS nanoparticles.

A developing direction of research in our group focuses on the combination of nano-fabrication techniques with self-assembly methodologies. We believe this combination will provide a powerful approach and the most versatile solution for the creation of long-range, organized materials, enjoying both from the accuracy of reproducibility offered by lithography techniques and from the high resolution and affordability of the self-assembled systems.

Other areas of activity in the group include the creation of novel block copolymers consisting of supramolecular polymer blocks and utilization of block copolymer films for the creation of patterned polyelectrolyte multilayers;

Selected Publications: 
1. Co-assembly of A-B Diblock Copolymers with B'-type Nanoparticles in Thin Films: Effect of Copolymer Composition and Nanoparticle Shape Amit Halevi, Shira Halivni, Meirav Oded, Axel H. E. Müller, Uri Banin, and Roy Shenhar* Macromolecules 2014, 47, 3022-3032
2. Hierarchical Structures of Polystyrene-block-poly(2-vinyl pyridine)/Palladium-Pincer Surfactants: Effect of Weak Surfactant-Polymer Interactions on the Morphological Behavior Inbal Davidi, Debabrata Patra, Daniel Hermida-Merino, Giuseppe Portale, Vincent M. Rotello, Uri Raviv, and Roy Shenhar* Macromolecules 2014, 47, 5774-5783
3. Hierarchical Structuring in Block Copolymer Nanocomposites through Two Phase Separation Processes Operating on Different Time Scales Elina Ploshnik, Karol M. Langner, Amit Halevi, Meirav Ben-Lulu, Axel H. E. Müller, Johannes G. E. M. Fraaije, G. J. Agur Sevink, and Roy Shenhar* Adv. Funct. Mater. 2013, 23, 4215-4226
4. Nanoparticle Assembly on Topographical Polymer Templates: Effects of Spin Rate, Nanoparticle Size, Ligand and Concentration Mariela J. Pavan, Elina Ploshnik, and Roy Shenhar* J. Phys. Chem. B 2012, 116, 13922–13931
5. Hierarchical co-assembly of nanorods and block copolymers in thin films Elina Ploshnik, Asaf Salant, Uri Banin*, and Roy Shenhar* Adv. Mater. 2010, 22, 2774-2779