C. B. Whitehead Et Al. , "LaMer's 1950 model of particle formation: a review and critical analysis of its classical nucleation and fluctuation theory basis, of competing models and mechanisms for phase-changes and particle formation, and then of its application to silver halide, semiconductor, metal, and metal-oxide nanoparticles," MATERIALS ADVANCES , vol.2, no.1, pp.186-235, 2021
Whitehead, C. B. Et Al. 2021. LaMer's 1950 model of particle formation: a review and critical analysis of its classical nucleation and fluctuation theory basis, of competing models and mechanisms for phase-changes and particle formation, and then of its application to silver halide, semiconductor, metal, and metal-oxide nanoparticles. MATERIALS ADVANCES , vol.2, no.1 , 186-235.
Whitehead, C. B., ÖZKAR, S., & Finke, R. G., (2021). LaMer's 1950 model of particle formation: a review and critical analysis of its classical nucleation and fluctuation theory basis, of competing models and mechanisms for phase-changes and particle formation, and then of its application to silver halide, semiconductor, metal, and metal-oxide nanoparticles. MATERIALS ADVANCES , vol.2, no.1, 186-235.
Whitehead, Christopher, SAİM ÖZKAR, And Richard G. Finke. "LaMer's 1950 model of particle formation: a review and critical analysis of its classical nucleation and fluctuation theory basis, of competing models and mechanisms for phase-changes and particle formation, and then of its application to silver halide, semiconductor, metal, and metal-oxide nanoparticles," MATERIALS ADVANCES , vol.2, no.1, 186-235, 2021
Whitehead, Christopher B. Et Al. "LaMer's 1950 model of particle formation: a review and critical analysis of its classical nucleation and fluctuation theory basis, of competing models and mechanisms for phase-changes and particle formation, and then of its application to silver halide, semiconductor, metal, and metal-oxide nanoparticles." MATERIALS ADVANCES , vol.2, no.1, pp.186-235, 2021
Whitehead, C. B. ÖZKAR, S. And Finke, R. G. (2021) . "LaMer's 1950 model of particle formation: a review and critical analysis of its classical nucleation and fluctuation theory basis, of competing models and mechanisms for phase-changes and particle formation, and then of its application to silver halide, semiconductor, metal, and metal-oxide nanoparticles." MATERIALS ADVANCES , vol.2, no.1, pp.186-235.
@article{article, author={Christopher B. Whitehead Et Al. }, title={LaMer's 1950 model of particle formation: a review and critical analysis of its classical nucleation and fluctuation theory basis, of competing models and mechanisms for phase-changes and particle formation, and then of its application to silver halide, semiconductor, metal, and metal-oxide nanoparticles}, journal={MATERIALS ADVANCES}, year=2021, pages={186-235} }