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Nanocrystals

Methodology

The future of nanotechnology will depend in part on the physical properties of solution-grown materials known as nanocrystals, of which the smallest—quantum dots—are often known as "artificial atoms." By adjusting the size, shape, and composition of these crystals, their electromagnetic, thermodynamic, and photonic properties can be finely tuned, allowing for the creation of novel devices on a billionth-of-a-meter scale.

In the field of nanocrystals, the three most-cited papers of the past decade are all from Science: a 1996 review of semiconductor clusters, nanocrystals, and quantum dots; a 1998 discussion of semiconductor nanocrystals as fluorescent biological labels; and a 2000 report on the synthesis of monodisperse iron-platinum nanoparticles and nanocrystals. Among other highly cited papers since 1996 are a half-dozen on cadmium selenium nanocrystals; a report on the organization of nanocrystal molecules using DNA; and the generation of optical gain in nanocrystals.

The two-year data continues to focus on the details of nanocrystal synthesis, preparation, characterization, and shape control. Applications that appear among the most-cited papers include novel nanocrystal solar cells and the use of magnetic nanocrystals for cancer diagnosis and magnetic resonance imaging.

Methodology

To construct this database, papers were extracted based on title-supplied keywords for Nanocrystals. The keywords used were as follows: 

nanocrystals*

The baseline time span for this database is 1996-December 31, 2006. The resulting database contained 12,846 (10 years) and  3,563 (2 years) papers; 22,096 authors; 84 countries; 690 journals; and 3,557 institutions.

Rankings

Once the database was in place, it was used to generate the lists of top 20 papers (two- and ten-year periods), authors, journals, institutions, and nations, covering a time span of 1996-December 31, 2006 (sixth bimonthly, an eleven-year period).

The top 20 papers are ranked according to total cites. Rankings for author, journal, institution, and country are listed in three ways: according to total cites, total papers, and total cites/paper. The paper thresholds and corresponding percentages used to determine scientist, institution, country, and journal rankings according to total cites/paper, and total papers respectively are as follows:

Entity: Scientists Institutions Countries Journals
Thresholds: 19 74 23 43
Percentage: 1% 1% 50% 10%

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