B. Heckman scite author profile

B. Heckman

4Publications

41Citation Statements Received

80Citation Statements Given

How they've been cited

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141

Affiliations

Missouri University of Science and Technology, MRIGlobal

Publications

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Quantum dots by ultraviolet and x-ray lithography

et al. 2007

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Highly luminescent semiconductor quantum dots have been synthesized in porous materials with ultraviolet and x-ray lithography. For this, the pore-filling solvent of silica hydrogels is exchanged with an aqueous solution of a group II metal ion together with a chalcogenide precursor such as 2-mercaptoethanol, thioacetamide or selenourea. The chalcogenide precursor is photodissociated in the exposed regions, yielding metal chalcogenide nanoparticles. Patterns are obtained by using masks appropriate to the type of radiation employed. The mean size of the quantum dots is controlled by adding capping agents such as citrate or thioglycerol to the precursor solution, and the quantum yield of the composites can be increased to up to about 30% by photoactivation. Our technique is water-based, uses readily available reagents, and highly luminescent patterned composites are obtained in a few simple processing steps. Polydispersity, however, is high (around 50%), preventing large-scale usage of the technique for the time being. Future developments that aim at a reduction of the polydispersity are presented.

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Infra red quantum dot photolithography

Gadipalli

Martin

Heckman

et al. 2006

J Sol-Gel Sci Technol

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Patterning porous matrices and planar substrates with quantum dots

Bertino

Gadipalli

Martin

et al. 2006

J Sol-Gel Sci Technol

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Sol‐Gel Materials for High Capacity, Rapid Removal of Metal Contaminants

Heckman

Martin

Bertino

et al. 2008

Separation Science and Technology

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B. Heckman

Quantum dots by ultraviolet and x-ray lithography

Infra red quantum dot photolithography

Patterning porous matrices and planar substrates with quantum dots

Sol‐Gel Materials for High Capacity, Rapid Removal of Metal Contaminants

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