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Professor Yurij Mozharivskyj *McMaster University

Exploring Solid-State Responsive Materials: from Design to Synthesis and Applications

Solid-state responsive materials display unique reaction under static or variable applied forces or fields. In my group we explore three types of the responsive materials: (1) inorganic phosphors for temperature sensing; (2) thermoelectric materials for power generation; (3) magnetocaloric materials for magnetic refrigeration. Some of the challenges in each field will be analyzed and the ways we solve the challenges will be presented.

Zhi-Feng Huang, Associate Professor, Wayne State University

Density-field Modeling of Material Microstructures and Dynamics: Advances and Challenges

V. N. Du Le, Research Associate McMaster University TITLE Tissue Phantoms for Optical Spectroscopy and Spectral Imaging

ABSTRACT-Tissue-simulating phantoms with controlled optical properties and/or physiological properties are critical for standardizing and evaluating the performance of optical spectroscopy and optical imaging systems. The selection criteria for the materials of optical phantoms critically depend on the region of spectrum and the target tissues that the technology applies to. The later determines the design parameters for the phantom such as its thickness, heterogeneities/layered structure, container, and machining constraints.

V. N. Du Le, Research Associate McMaster University "Tissue Phantoms for Optical Spectroscopy and Spectral Imaging"

ABSTRACT-Tissue-simulating phantoms with controlled optical properties and/or physiological properties are critical for standardizing and evaluating the performance of optical spectroscopy and optical imaging systems. The selection criteria for the materials of optical phantoms critically depend on the region of spectrum and the target tissues that the technology applies to. The later determines the design parameters for the phantom such as its thickness, heterogeneities/layered structure, container, and machining constraints.

V. N. Du Le, Research Associate McMaster University "Tissue Phantoms for Optical Spectroscopy and Spectral Imaging"

ABSTRACT-Tissue-simulating phantoms with controlled optical properties and/or physiological properties are critical for standardizing and evaluating the performance of optical spectroscopy and optical imaging systems. The selection criteria for the materials of optical phantoms critically depend on the region of spectrum and the target tissues that the technology applies to. The later determines the design parameters for the phantom such as its thickness, heterogeneities/layered structure, container, and machining constraints.

Ningbo Institute of Industrial Technology (CNITECH) - B. Gaulin

Ningbo Institute of Industrial Technology (CNITECH) Chinese Academy of Sciences Solid State Functional Materials Laboratory

Visiting McMaster and BIMR is a group of Chinese scientists from CNITECH,

Minghui YANG (杨明辉), a solid state materials chemist who has a PhD from Edinburgh in solid state materials;

Paul Attfield, post doctoral work at Cornell

Frank DiSalvo describes their research interests as:

BIMR Seminar Series - Michael Hayward - Oxford - UK

Title: Topochemical Reduction and Anion Exchange as a Route to Novel Electronic Materials

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