Prashant Jain Naresh Dalal and Tony Cheetham Selfassembly
Prashant Jain, Naresh Dalal, and Tony Cheetham: Self-assembly studies have led to 2 d arrays of metal clusters which crystallise as platelets and dynamic multiferroics in which the orientations of caged moeities can be controlled by external fields Paul Dunk, Alan Marshall: At the Mag. Lab, laser vapourisation FT-ICR-MS indicate that endohedral Ti@C 28 is a highly favoured species and it we might be possible to isolate it Darryl Ventura and Artrease Spann: Studies of composite materials containing nanotubes are producling mats and novel intricate honeycomb structures with advanced tensile properties
Prashant Jain, Naresh Dalal, and Tony Cheetham: Self-assembly studies have led to 2 d arrays of metal clusters which crystallise as platelets and dynamic multiferroics in which the orientations of caged moeities can be controlled by external fields Paul Dunk, Alan Marshall: At the Mag. Lab, laser vapourisation FT-ICR-MS indicate that endohedral Ti@C 28 is a highly favoured species and it we might be possible to isolate it Darryl Ventura and Artrease Spann: Studies of composite materials containing nanotubes are producling mats and novel intricate honeycomb structures with advanced tensile properties
Prashant Jain, Naresh Dalal, and Tony Cheetham: Self-assembly studies have led to 2 d arrays of metal clusters which crystallise as platelets and dynamic multiferroics in which the orientations of caged moeities can be controlled by external fields Paul Dunk, Alan Marshall: At the Mag. Lab, laser vapourisation FT-ICR-MS indicate that endohedral Ti@C 28 is a highly favoured species and it we might be possible to isolate it Darryl Ventura and Artrease Spann: Studies of composite materials containing nanotubes are producling mats and novel intricate honeycomb structures with advanced tensile properties
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