Nanotechnology Research in New York

The Nanofabrication Laboratory, a multi-user facility at Binghamton University, supports micro- and nanoscale research by providing state-of-the-art resources. The lab boasts 1,150 square feet of Class 1000 cleanroom space.

Researchers at the Nanomechanics Laboratory seek to use the state of the art nanoscale experimental characterization techniques to study the fundamental properties of nanostructures, nanoscale interactions, and nano devices, and pursue their applications.

The Brookhaven National Laboratory Center for Functional Nanomaterials will provide researchers with state-of-the-art capabilities to fabricate and study nanoscale materials.

The Kretzschmar Group studies nano- and microparticles, especially their modification and assembly, combining chemical engineering, chemistry, materials and surface science, and molecular electronics to discover new materials and applications for nanoparticles.

The Williams Immune Nanomedicine Lab develops nanomedicines related to inflammatory disease processes, including kidney-targeted polymeric nanoparticles for renal diseases and implantable optical nanosensor devices for cancer and other inflammation-driven diseases.

The Nanoscience Initiative at the CUNY Advanced Science Research Center pursues interdisciplinary research across NanoBio, NanoDevices, and NanoMaterials, operating shared nanofabrication, imaging, and surface science facilities for researchers across the City University of New York.

Research in Vinod Menon's group can best be summarized as the exploration of light-matter interactions at the nano and micro scale.

The M.S. Program in Nanoscience is ideal for students who want to enter the workforce in nanoscience and its related energy, biomedical, electronics, telecommunications, and materials science fields, as well as for students who wish to expand their knowledge and skills in preparation for doctoral programs in chemistry, physics or materials science.

The group's research interests span over a broad range of technical areas, including applied electromagnetics, nano-optics and nanophotonics, microwave, THz, infrared, optical and acoustic metamaterials and metasurfaces, plasmonics, nonlinearities and nonreciprocity, cloaking and scattering, acoustics, optical nanocircuits and nanoantennas.

The Graduate School offers a program of study leading to the Ph.D. degree in Chemistry. As one of seven sub-disciplines, students may specialize in nanotechnology and materials.

CAMP's mission is to perform innovative research and conduct educational efforts on the synthesis and processing of advanced materials of interest to industry.

The research of the Brus group is in the physical chemistry of materials, interfaces, nanocrystals, and nanotubes, especially in relation to optical and electronic properties.

The CNI Shared Facilities are open to student and faculty researchers, as well as those from government, start-ups, and industry. The Clean Room offers a comprehensive set of tools for microfabrication and nanofabrication. The Materials Characterization Laboratory and the Electron Microscopy Laboratory offer state-of-the-art instruments for chemical and structural characterization of materials.

The Lightwave Research Laboratory works on optical interconnection networks for advanced computing systems, data centers, optical packet-switched routers, and nanophotonic networks-on-chip for chip multiprocessors, developing nanoscale photonic interconnect technologies for energy-efficient data movement.

The group investigates the physics and applications of nanoscale photonic structures, including light-confining structures that slow, trap, enhance, and manipulate light for applications in communications, computation, sensing, on-chip modulation and detection, nonlinear phenomena, microfluidics, and multi-material device platforms.