Tom Collier

935 total citations
23 papers, 740 citations indexed

About

Tom Collier is a scholar working on Biomedical Engineering, Pulmonary and Respiratory Medicine and Radiology, Nuclear Medicine and Imaging. According to data from OpenAlex, Tom Collier has authored 23 papers receiving a total of 740 indexed citations (citations by other indexed papers that have themselves been cited), including 15 papers in Biomedical Engineering, 8 papers in Pulmonary and Respiratory Medicine and 7 papers in Radiology, Nuclear Medicine and Imaging. Recurrent topics in Tom Collier's work include Photoacoustic and Ultrasonic Imaging (9 papers), Photodynamic Therapy Research Studies (8 papers) and Optical Imaging and Spectroscopy Techniques (7 papers). Tom Collier is often cited by papers focused on Photoacoustic and Ultrasonic Imaging (9 papers), Photodynamic Therapy Research Studies (8 papers) and Optical Imaging and Spectroscopy Techniques (7 papers). Tom Collier collaborates with scholars based in United States, Canada and United Kingdom. Tom Collier's co-authors include Rebecca Richards‐Kortum, Michele Follen, Anaís Malpica, Kung‐Bin Sung, Rebekah A. Drezek, Reuben Lotan, Michael R. Descour, Dizem Arifler, Konstantin Sokolov and Carrie Brookner and has published in prestigious journals such as American Journal of Obstetrics and Gynecology, Optics Express and Gynecologic Oncology.

In The Last Decade

Tom Collier

20 papers receiving 719 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Tom Collier United States 11 459 205 202 127 120 23 740
Sung K. Chang United States 16 464 1.0× 378 1.8× 200 1.0× 80 0.6× 279 2.3× 31 892
Kirk W. Gossage United States 9 530 1.2× 309 1.5× 290 1.4× 121 1.0× 136 1.1× 20 890
Eric Marple Canada 13 377 0.8× 295 1.4× 914 4.5× 201 1.6× 66 0.6× 23 1.2k
Natalia M. Shakhova Russia 12 757 1.6× 277 1.4× 219 1.1× 79 0.6× 116 1.0× 47 883
Pei–Lin Hsiung United States 10 367 0.8× 148 0.7× 159 0.8× 195 1.5× 188 1.6× 17 850
Jinyong Lin China 15 185 0.4× 43 0.2× 384 1.9× 232 1.8× 59 0.5× 66 735
Byeong Hyeon Choi South Korea 13 429 0.9× 80 0.4× 225 1.1× 681 5.4× 169 1.4× 33 1.2k
Mazen A. Juratli Germany 15 471 1.0× 70 0.3× 75 0.4× 248 2.0× 94 0.8× 47 881
Moinuddin Hassan United States 18 412 0.9× 482 2.4× 154 0.8× 217 1.7× 78 0.7× 60 914

Countries citing papers authored by Tom Collier

Since Specialization
Citations

This map shows the geographic impact of Tom Collier's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Tom Collier with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Tom Collier more than expected).

Fields of papers citing papers by Tom Collier

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Tom Collier. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Tom Collier. The network helps show where Tom Collier may publish in the future.

Co-authorship network of co-authors of Tom Collier

This figure shows the co-authorship network connecting the top 25 collaborators of Tom Collier. A scholar is included among the top collaborators of Tom Collier based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Tom Collier. Tom Collier is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Collier, Tom, Martial Guillaud, Michele Follen, Anaís Malpica, & Rebecca Richards‐Kortum. (2007). Real-time reflectance confocal microscopy: comparison of two-dimensional images and three-dimensional image stacks for detection of cervical precancer. Journal of Biomedical Optics. 12(2). 24021–24021. 41 indexed citations
2.
Aaron, Jesse, Nitin Nitin, Kort Travis, et al.. (2007). Plasmon resonance coupling of metal nanoparticles for molecular imaging of carcinogenesis in vivo. Journal of Biomedical Optics. 12(3). 34007–34007. 139 indexed citations
3.
Collier, Tom, Michele Follen, Anaís Malpica, & Rebecca Richards‐Kortum. (2005). Sources of scattering in cervical tissue: determination of the scattering coefficient by confocal microscopy. Applied Optics. 44(11). 2072–2072. 57 indexed citations
4.
Sokolov, Konstantin, Jesse Aaron, S. Kumar, et al.. (2005). Molecular imaging of carcinogenesis with immuno-targeted nanoparticles. PubMed. 4. 5292–5295. 6 indexed citations
5.
Carlson, K.D., Ina Pavlova, Tom Collier, et al.. (2005). Confocal microscopy: Imaging cervical precancerous lesions. Gynecologic Oncology. 99(3). S84–S88. 43 indexed citations
6.
Richards‐Kortum, Rebecca, Jesse Aaron, Sonia Kumar, et al.. (2004). Optical molecular imaging for early detection of cancer. SB1–SB1.
7.
Carlson, K.D., et al.. (2004). Confocal microscopy. IEEE Potentials. 23(1). 14–17. 5 indexed citations
8.
Collier, Tom, Dizem Arifler, Anaís Malpica, Michele Follen, & Rebecca Richards‐Kortum. (2003). Determination of epithelial tissue scattering coefficient using confocal microscopy. IEEE Journal of Selected Topics in Quantum Electronics. 9(2). 307–313. 71 indexed citations
9.
Sokolov, Konstantin, Kung‐Bin Sung, Tom Collier, et al.. (2002). Endoscopic Microscopy. Disease Markers. 18(5-6). 269–291. 21 indexed citations
10.
Sung, Kung‐Bin, Chunjun Liang, Michael R. Descour, et al.. (2002). Near real time in vivo fibre optic confocal microscopy: sub‐cellular structure resolved. Journal of Microscopy. 207(2). 137–145. 47 indexed citations
11.
Zuluaga, Andrés F., Rebekah A. Drezek, Tom Collier, et al.. (2002). Contrast agents for confocal microscopy: how simple chemicals affect confocal images of normal and cancer cells in suspension. Journal of Biomedical Optics. 7(3). 398–398. 27 indexed citations
12.
Collier, Tom, et al.. (2002). Near Real-Time Confocal Microscopy of Amelanotic Tissue. Academic Radiology. 9(5). 504–512. 97 indexed citations
13.
Sung, Kung‐Bin, et al.. (2002). Near real time in vivo fibre optic confocal microscopy: subcellular structure resolved. Journal of Microscopy. 208(1). 75–75. 2 indexed citations
14.
Collier, Tom, et al.. (2002). Near real-time in vivo confocal imaging of mouse mammary tumors. 11. 1202–1203 vol.2. 2 indexed citations
15.
Collier, Tom, et al.. (2002). Near real time confocal microscopy of amelanotic tissue: detection of dysplasia in ex-vivo cervical tissue. 16. 979–981 vol.2. 5 indexed citations
16.
Gillenwater, Ann M., et al.. (2002). Near real time confocal imaging of dysplasia in the oral cavity. 982–983 vol.2.
17.
Sokolov, Konstantin, et al.. (2002). Metal nanoparticles as biospecific contrast agents for cancer imaging. 12. MG1–MG1. 2 indexed citations
18.
Drezek, Rebekah A., Tom Collier, Carrie Brookner, et al.. (2000). Laser scanning confocal microscopy of cervical tissue before and after application of acetic acid. American Journal of Obstetrics and Gynecology. 182(5). 1135–1139. 95 indexed citations
19.
Collier, Tom, et al.. (1998). Fiber-optic confocal microscope for biological imaging. 128–129. 7 indexed citations
20.
Agrawal, Anant, Rebekah A. Drezek, Costas Pitris, et al.. (1998). Acetic Acid: A Contrast Agent in Optical Imaging and Spectroscopy of Tissue. 2922. BMB2–BMB2.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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