Robert P. Liburdy

2.2k citations

39 papers · 1.7k indexed · h-index 20

Co-authors: Jan Walleczek Michael G. Yost Lester Packer Paul Yaswen Yasuko Noda Richard L. Magin A. Mori Robert Sokolic
Topics: Electromagnetic Fields and Biological Effects (22 papers)Microbial Inactivation Methods (10 papers)Spaceflight effects on biology (5 papers)
Cited by: Biophysics Physiology
Journals: The Journal of Physical Chemistry FEBS Letters Annals of the New York Academy of Sciences
Partner nations: United States Russia Germany

In The Last Decade

Robert P. Liburdy

38 papers receiving 1.6k citations

Peers

Replace Carl F. Blackman with:

Carl F. Blackman United States

S. G. Benane United States

Larry E. Anderson United States

Ben Greenebaum United States

H. Lai United States

E. K. Matthews United Kingdom

Katalin Török United Kingdom

Anthony Persechini United States

Tetsuya Kitaguchi Japan

Hiroyasu Nakata Japan

Robert P. Liburdy relative to Carl F. Blackman United States Carl F. Blackman's profile →

Citations per field

00.5×1.5×

Carl F. Blackman · 1×

×0.5 1k/2k

BIOPH

×0.7 629/897

PHYSI

×0.5 328/623

PHYSI

×0.7 321/450

MB

×0.5 257/557

BE

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Countries citing papers authored by Robert P. Liburdy

Since Specialization

Citations

This map shows the geographic impact of Robert P. Liburdy'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 Robert P. Liburdy with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Robert P. Liburdy more than expected).

Fields of papers citing papers by Robert P. Liburdy

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Robert P. Liburdy. 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 Robert P. Liburdy. The network helps show where Robert P. Liburdy may publish in the future.

Co-authorship network of co-authors of Robert P. Liburdy

This figure shows the co-authorship network connecting the top 25 collaborators of Robert P. Liburdy. A scholar is included among the top collaborators of Robert P. Liburdy 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 Robert P. Liburdy. Robert P. Liburdy is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

#	Work	Indexed citations
1	Effects of magnetic fields on the accumulation of thiobarbituric acid reactive substances induced by iron salt and H2O2 in mouse brain homogenates or phosphotidylcholine 2001 ·Pathophysiology ·Hideaki Kabuto,Isao Yokoi,Norio Ogawa,Akitane Mori,Robert P. Liburdy	28
2	Melatonin and its precursors scavenge nitric oxide 1999 ·Journal of Pineal Research ·Yasuko Noda,A. Mori,Robert P. Liburdy,Lester Packer	158
3	Evidence for a slow time-scale of interaction for magnetic fields inhibiting tamoxifen’s antiproliferative action in human breast cancer cells 1999 ·Cell Biochemistry and Biophysics ·(unknown),Stefan Engström,Robert P. Liburdy	10
4	Animal and cellular studies on carcinogenic effects of low frequency (50/60-Hz) magnetic fields1This is the last in a series of four papers, the first of which was published in Mutation Res. 387 (1997) pp. 165–171.1 1998 ·Mutation Research/Reviews in Mutation Research ·Wolfgang Löscher,Robert P. Liburdy	59
5	Melatonin and it's precursors exhibit nitric oxide scavenging activity 1998 ·Pathophysiology ·Yasuko Noda,(unknown),Robert P. Liburdy,Lester Packer	2
6	Environmental magnetic fields inhibit the antiproliferative action of tamoxifen and melatonin in a human breast cancer cell line 1997 ·Bioelectromagnetics ·(unknown),Robert P. Liburdy	70
7	The phorbol 12‐myristate 13‐ acetate (PMA)‐induced oxidative burst in rat peritoneal neutrophils is increased by a 0.1 mT (60 Hz) magnetic field 1995 ·FEBS Letters ·Sashwati Roy,Yasuko Noda,(unknown),Maret G. Traber,Akitane Mori,Robert P. Liburdy,Lester Packer	106
8	Intracellular Calcium, Calcium Transport, and c-MYC mRNA Induction in Lymphocytes Exposed to 60 HZ Magnetic Fields: The Cell Membrane and the Signal Transduction Pathway 1993 ·eScholarship (California Digital Library) ·Robert P. Liburdy,Daniel E. Callahan,(unknown),Paul Yaswen	6
9	Experimental evidence for 60 Hz magnetic fields operating through the signal transduction cascade 1993 ·FEBS Letters ·Robert P. Liburdy,Daniel E. Callahan,(unknown),Elizabeth E. Dunham,(unknown),Paul Yaswen	122
10	ELF magnetic fields, breast cancer, and melatonin: 60 Hz fields block melatonin's oncostatic action on ER⁺ breast cancer cell proliferation 1993 ·Journal of Pineal Research ·Robert P. Liburdy,(unknown),Robert Sokolic,Paul Yaswen	141
11	Protein Shedding and ELF Magnetic Fields: Antibody Binding at the CD3 and CD20 Receptor Sites of Human Lymphocytes 1993 ·eScholarship (California Digital Library) ·Robert P. Liburdy,Daniel E. Callahan,(unknown)	3
12	Time‐varying and static magnetic fields act in combination to alter calcium signal transduction in the lymphocyte 1992 ·FEBS Letters ·Michael G. Yost,Robert P. Liburdy	130
13	Intracellular calcium during signal transduction in the lymphocyte is altered by ELF magnetic and electric fields 1992 ·Robert P. Liburdy	0
14	Permeability of the Blood‐Brain Barrier of the Rat Is Not Significantly Altered by NMR Exposurea 1992 ·Annals of the New York Academy of Sciences ·Robert P. Liburdy,(unknown),M.S. Roos,Kathleen Brennan	5
15	Biological Interactions of Cellular Systems with Time‐varying Magnetic Fieldsa 1992 ·Annals of the New York Academy of Sciences ·Robert P. Liburdy	47
16	Calcium signaling in lymphocytes and ELF fields Evidence for an electric field metric and a site of interaction involving the calcium ion channel 1992 ·FEBS Letters ·Robert P. Liburdy	168
17	Nonthermal 60 Hz sinusoidal magnetic‐field exposure enhances ⁴⁵Ca²⁺ uptake in rat thymocytes: dependence on mitogen activation 1990 ·FEBS Letters ·Jan Walleczek,Robert P. Liburdy	190
18	Quantitative HPLC analysis of human plaque proteins in coronary and thoracic aorta arteries 1988 ·Atherosclerosis ·Robert P. Liburdy,(unknown),(unknown),Bruce P. Mindich	2
19	Microwave Effects on Membrane Transport Occur at the Phase Transition Temperature 1984 ·Annals of the New York Academy of Sciences ·Robert P. Liburdy,Arthur Penn	4
20	Radiofrequency Radiation and the Immune System. Part 3.In VitroEffects on Human Immunoglobulin and on Murine T- and B-lymphocytes 1984 ·International Journal of Radiation Biology and Related Studies in Physics Chemistry and Medicine ·Robert P. Liburdy,(unknown)	7

About Robert P. Liburdy

Robert P. Liburdy is a scholar working on Biophysics, Biotechnology and Physiology, having authored 39 papers that have together received 1.7k indexed citations. Recurring topics across this work include Electromagnetic Fields and Biological Effects (22 papers), Microbial Inactivation Methods (10 papers) and Spaceflight effects on biology (5 papers). The work is most often cited by research in Biophysics (1.1k citations), Physiology (328 citations) and Physiology (629 citations). Robert P. Liburdy has collaborated with scholars based in United States, Russia and Germany. Frequent co-authors include Jan Walleczek, Michael G. Yost, Lester Packer, Paul Yaswen, Yasuko Noda, Richard L. Magin, A. Mori, Robert Sokolic, T.S. Tenforde and Akitane Mori. Their work appears in journals such as The Journal of Physical Chemistry, FEBS Letters and Annals of the New York Academy of Sciences.

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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