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International Journal of Hyperthermia
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SCImago
Q2
WOS
Q2
Impact factor
3
SJR
0.827
CiteScore
5.9
Categories
Cancer Research
Medicine (miscellaneous)
Physiology
Physiology (medical)
Radiological and Ultrasound Technology
Areas
Biochemistry, Genetics and Molecular Biology
Health Professions
Medicine
Years of issue
1985-2025
journal names
International Journal of Hyperthermia
INT J HYPERTHER
Top-3 citing journals

International Journal of Hyperthermia
(12070 citations)

Cancers
(1697 citations)

Physics in Medicine and Biology
(1378 citations)
Top-3 organizations

Chongqing Medical University
(112 publications)

People's Liberation Army General Hospital and Medical School (301 Hospital)
(104 publications)

Duke University Hospital
(102 publications)

Chongqing Medical University
(75 publications)

Sun Yat-sen University
(31 publications)
Top-3 countries
Most cited in 5 years
Found
Publications found: 1455

Triboluminescence
Nevshupa R., Hiratsuka K., Tukhbatullin A., Sharipov G.
This work seeks to summarize recent advances in experimental studying of triboluminescence and elucidate the basic mechanisms whereby triboluminescence is excited.

Early-Stage Wear of Polymer Surfaces and Layered Materials Scraped by a Nanotip
Gnecco E., Khaksar H., Mazo J.J.
In this chapter we describe two representative applications of atomic force microscopy to investigating early-stage wear on polymeric surfaces and layered materials on the nanoscale. Ripples and exfoliated flakes or chips are the most typical surface structures obtained in each case. On polymers the ripple formation can be interpreted within the Prandtl-Tomlinson mechanism for atomic-scale friction with the evolving surface profile defining the energy landscape sensed by the scanning probe. If the scratching is repeated, nanoplastic particles are extruded from the crests of the ripples and displaced from the places where they were formed. Layered materials are exfoliated all along the scanned track, with the wear products either folded or bent depending on the thickness of the worn material. On multilayer surfaces, but not on monolayers, stick–slip is also observed in the friction force signal acquired while scratching.

Frictional Characteristics of Graphene on Textured Surfaces
Tripathi M., Iyengar S.A., Hasan-ur Rahman M., Gadhamshetty V., Ajayan P.M., Dalton A.B.
The significance of graphene and other 2D materials as solid-state lubricants has been known for a decade. These atomically thin sheets contain sensitive surface atoms that are responsible for unique frictional characteristics that mainly depend on the nature of the underlying substrates. Thus, interfacial interactions between atomically thin sheets and engineered surfaces enhances interfacial adhesion force and induces strain in the sheets are useful for tuning the friction behaviour. This degree of regulation offers phenomenal advantages in nanoscale electromechanical systems and nanoscale robotics, where a moving mechanical system is needed. The present chapter discusses the importance of straining 2D materials for friction force regulation through engineered surfaces. Several sophisticated methodologies for preparing textured surfaces are highlighted, and modern characterisation techniques, including machine learning tools, which are useful for analysing strain and mechanics in 2D materials, are discussed. Using graphene as a case study, several results from nanoscale friction force microscopy on engineered surface are presented.

The (Grain) Boundaries of Structural Superlubricity
Hod O., Urbakh M., Berman D.
Structural superlubricity, a state of ultra-low friction and wear arising from incommensurability between contacting surfaces, is an intriguing physical phenomenon that holds promise for the significant reduction of energy loss and material damage in mechanical systems. One of the most prominent realizations of superlubric motion is demonstrated for nano- and micro-scale heterogeneous layered material contacts and their twisted homogeneous counterparts. On the route to scaling up superlubricity stand a few obstacles. In this chapter, we focus on the effect of grain boundaries, which inevitably emerge in large-scale layered material contacts, on their frictional properties. New frictional mechanisms associated with grain boundaries, such as shear induced buckling and unbuckling of corrugated dislocations and moiré superstructure scattering, are discussed. These, in turn, are characterized by unique frictional behavior, including nonmonotonic dependence on normal load, sliding velocity, and temperature that can be harnessed to restore structural superlubricity at increasing length-scales.

“Surface Forces Apparatus in Nanotribology”
Drummond C., Ruths M.
The Surface Forces Apparatus (SFA) has proven to be an excellent tool for studies in nanotribology. The normal load, contact area, and sliding velocity between the surfaces can be controlled and unambiguously measured with higher accuracy than in any conventional tribometer. Furthermore, an image of the surfaces in contact can be obtained as the surfaces are slid, allowing the monitoring of the real size and shape of the contact area and the distance or film thickness profile between the surfaces when atomically smooth surfaces are used. It is relatively simple to perform a comprehensive exploration of the full parameter space to determine the important variables in the frictional behavior of the system. In this chapter, the principles of operation and some experimental details of the Surface Forces Apparatus nanotribometer are described.

Molecular Tribology: Chemically Engineering Energy Dissipation at the Nanoscale
Gutiérrez-Varela O., Pawlak R., Prampolini G., Meyer E., Vilhena J.G.
Friction is a phenomenon which is present in our everyday life although we tend to remember it only when it is nearly absent such as when “slipping on ice”. Its presence across disparate length scales (earthquakes, car engines down to molecular machines) reminds us of its ubiquity which endows friction of an utmost practical importance. Therefore, attempts to control it are almost as old as civilization and intrinsically tied to our technological progress. Interestingly, during the past decades we have witnessed a growing progress in miniaturization of devices down to the nanometer scale. “Special problems occur when things get small […] and it might turn out to be advantages if we knew how to design for them”, said Feynman when discussing the prospects of building “infinitesimal machinery”. To achieve this goal, and to design efficient molecular nano-engines, it becomes imperative to unveil the non-equilibrium processes governing friction and energy dissipation at a molecular level. This chapter provides a comprehensive review of recent advancements in understanding nanoscale friction and the role of internal molecular degrees of freedom in controlling energy dissipation during friction. We discuss how recent advancements in experimental techniques, particularly those linked to Scanning Probe Microscopy, have significantly enhanced our comprehension of the mechanical characteristics of individual molecules and their influence on dissipation processes. We delve into how these internal degrees of freedom facilitate control over energy dissipation, unlocking various pathways to achieve different applications at the nanoscale, such as superlubric states through molecular flexibility. Furthermore, we analyze potential applications of the energy dissipation pathways in novel mechanisms for achieving controlled locomotion of molecular machines.

Atomic-Scale Friction on Crystal Surfaces in Ultra-High Vacuum
Song Y., Maier S., Gnecco E., Meyer E.
This chapter reviews friction force microscopy investigations on single-asperity sliding contacts in ultra-high vacuum (UHV). The atomic-scale stick–slip observed under such conditions can be converted into a superlubric regime of motion by reducing the normal load and/or applying ultrasonic vibrations. Thermal vibrations and sliding direction (on a crystal surface) also influence the friction. The empirical Prandtl-Tomlinson (PT) model is introduced, which explains well the main experimental observations. The scenario is more complicated on two-dimensional (2D) materials, where the puckering effect explains the difference in friction observed on monolayers versus multiple layers. The moiré patterns formed on them are also influenced by elastic deformation, which can lead to significantly larger dissipation than that due to atomic stick–slip alone.

Towards Application of Microscale Structural Superlubricity
Ma M., Zheng Q.
Structural superlubricity (SSL), a state of near-zero friction and no wear between contacting solid surfaces, offers a disruptive approach to minimizing friction and wear. Recent years have seen a surge in SSL research, expanding its focus from fundamental science to practical applications, where the realization of robust microscale SSL play a key role. This chapter summarizes the recent advancements in SSL, with a particular emphasis on aspects that promote practical applications. These include SSL electrical contacts, SSL-based generators, the stability of SSL systems, and the environmental impact of SSL.

Dissipation at Large Separations
Kisiel M., Langer M., Gysin U., Rast S., Yildiz D., Meyer E., Lee D.
When two macroscopic bodies slide in contact, energy is dissipated due to friction. Sometimes it is desired, like in case of brakes in the bicycle, sometimes unwelcome—when you ask yourself why your automated coffee machine broke for the third time. In nanoscale, a tiny friction force is present when bodies in relative motion are separated by a few nanometer gap. This non-contact form of friction might be successfully measured by highly sensitive cantilever oscillating like a tiny pendulum over the surface. The elusive non-contact friction might arise due to vdW interaction, which is mediated by the long-range electromagnetic field or in many cases by fluctuations of static surface charges arising from material inhomogeneities. The huge dissipation might also originate from hysteretic switching of the studied material under the external action of the oscillating probe. In this chapter several experiments reporting on non-contact friction are discussed. First the Joule dissipation channel is discussed. Next we report on non-contact friction measurement over metal—superconductor transition, which allows to distinguish between phononic and electronic contribution to friction. Energy dissipation over a phase transition is further demonstrated on SrTiO3 crystal undergoing structural change. Next the non-contact friction due to switching of the charge density wave is discussed. Finally a energy dissipation due to single electron charging is reported on oxygen deficient SrTiO3 and topologically protected Bi2Te3 crystals. Interestingly the energy losses due to the single electron charging on Bi2Te3 surface are observed due to the protected character of the surface.

Friction Force Microscopy
Bennewitz R.
Friction force microscopy is a key experimental method in nanotribology. The tip of an atomic force microscope is moved in contact over a surfaces and friction forces are detected as deflection of a micro-mechanical force sensor. While the method appears simple, special care must be taken to calibrate the force sensor and to understand the challenges in bridging the gap between molecular forces and macroscopic experiment. We discuss experimental procedures such as measurements of friction as function of load or of temperature, and on inhomogeneous materials. The chapter ends with an overview of dynamic measurements of friction, where the tip is oscillated laterally in contact or above the surface to probe dissipative interactions with the highest sensitivity.

In Operando Formation of Layered Materials for Friction Reduction
Ferrario M., Righi M.C.
Friction and wear result in massive energy and environmental costs. The technologies nowadays available to reduce these costs are based on materials and intense research efforts are being devoted to improving the efficiency of lubricants. Among them 2D materials have emerged as promising alternative to liquid lubricants as they can provide extremely low friction at a potentially much lower environmental impact as they do not require the use of petroleum oils. Moreover, they are particularly suited for lubricating tribological systems where the use of liquid lubricants is not possible, such as those operating in vacuum, high-temperature or at the nanoscale. While the friction coefficients provided by the 2D materials can reach super-low values in mild conditions, higher pressures applications often suffer from the need of replenishment into the wear tracks. A smart solution to overcome this problem is represented by the possibility to synthesize the slippery layers in operando conditions through tribochemical reactions involving molecules made available in the tribological environment as gases, powders or additives in liquid media. The present chapter offers an overview on the state-of-the art knowledge on mechanochemical/tribochemical synthesis and the in-silico experiments based on ab initio molecular dynamics that can be performed to monitor in real time the formation of 2D tribofilms. Two case studies are also described that concerns the tribological synthesis of graphene and transition metal dichalcogenides layers.

Ultrasonic Atomic Force Microscopies in Nanotribology
Ma C., Arnold W.
In this chapter ultrasonic atomic force microscopy (AFM) techniques are discussed, which are dynamic AFMs working in contact mode that combine the excitation and detection of ultrasonic vibrations. Ultrasonic AFMs are widely used for quantitative mechanical property measurements and for non-destructive subsurface imaging. Here, we concentrate on the applications of ultrasonic AFMs in nanotribology studies. We will first introduce the working principles of ultrasonic AFMs, and then describe their applications in measuring surface properties and friction. Finally, we will summarize the use of ultrasonic AFMs to study and induce friction reduction and wear elimination.

Sliding Friction in Liquid Environments at the Nanoscale
Berkovich R., An R., Gnecco E.
Friction Force Microscopy (FFM) conducted in liquid environment proves to be a highly effective method for investigating atomic-scale friction on crystalline surfaces. It can probe friction between surface atoms while also providing sublattice resolution, opening doors to new areas of research. The observed similarity in FFM measurements conducted in liquid environments and Ultra-High Vacuum (UHV) is attributed to the lack of capillary bridges in both settings. These bridges usually increase adhesion between the scanning probe and the sample, resulting in surface wear during imaging in ambient conditions. We review various instances of nanotribological phenomena occurring on crystalline surfaces within different liquid environments—specifically water, ethanol, and ionic liquids—as studied by the authors of this chapter. We discuss the influence of the damping state of the sliding contact in the presence of liquids, which is reflected by variations in the slip length of the scanning probe. Finally, we showcase how FFM can be used to investigate sliding friction in ionic liquids. This approach allows us to probe the fascinating interplay between friction at the nanoscale and the unique nanostructures formed by confined ionic liquids.

Nanoisland Manipulation Experiments at Oxidized, Contaminated and Nanorough Interfaces: Structural Superlubricity and Directional Locking
Oo W.H., Özoğul A., Krok F., Gnecco E., Baykara M.Z.
This chapter reports on atomic force microscopy based nano-manipulation experiments performed on noble metal nanoislands (gold and platinum), which were previously shown to exhibit structurally superlubric sliding under ambient conditions on highly oriented pyrolytic graphite (HOPG). Experiments performed on oxidized platinum nanoislands on HOPG demonstrate an increase in interfacial shear stress when compared with non-oxidized islands, but not a breakdown of structural superlubricity. In addition, an effect reminiscent of contact aging is observed on a sample system that comprises gold nanoislands on HOPG, which interestingly is suppressed in the presence of environmental contamination. Nanomanipulation of gold islands is also performed on molybdenum disulfide (MoS2). Here, the high degree of commensurability at the interface does not result in superlubricity, but rather in a specific “directional locking” effect. The effect was observed not only on freshly cleaved flat surfaces but also on bilayers grown on a nanorough silicon wafer, where atomic-scale resolution of the complex cross-section of the system could be achieved using HAADF-STEM.

Micro- and Nanotribology at the Insect-Plant Interface
Gorb E.V., Gorb S.N.
As a result of evolutionary arm race between insects and plants, numerous plant surfaces that reduce insect attachment have been evolved. These surfaces provide an effective repelling effect against herbivores, sap-sucking insects and nectar robbers due to the reduction of adhesive and frictional forces in contact between the plant surface and insect attachment devices. This review summarizes literature data and own results on tribological aspects of insect-plant interactions. First, we provide a short introduction to attachment systems of insects. Second, tribological effects of three-dimensional micro- and nanoscopical epicuticular waxes of plants are demonstrated. The contact force reduction mechanisms of plant wax structures (roughness effect, contamination effect, fluid-adsorption effect, and wax-dissolving hypothesis) and their potential implications for biology, agriculture and engineering are discussed.
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American Society for Clinical Investigation
17 citations, 0.02%
|
|
Association for Computing Machinery (ACM)
17 citations, 0.02%
|
|
Society of Nuclear Medicine
17 citations, 0.02%
|
|
American Veterinary Medical Association
16 citations, 0.02%
|
|
Russian Photodynamic Association
14 citations, 0.02%
|
|
Show all (70 more) | |
2000
4000
6000
8000
10000
12000
14000
16000
|
Publishing organizations
20
40
60
80
100
120
|
|
Chongqing Medical University
112 publications, 3.13%
|
|
People's Liberation Army General Hospital and Medical School (301 Hospital)
104 publications, 2.91%
|
|
Duke University Hospital
102 publications, 2.85%
|
|
Amsterdam University Medical Center
89 publications, 2.49%
|
|
Sun Yat-sen University
79 publications, 2.21%
|
|
Erasmus University Medical Center
68 publications, 1.9%
|
|
Charité - Universitätsmedizin Berlin
66 publications, 1.85%
|
|
University of Amsterdam
64 publications, 1.79%
|
|
University of California, San Francisco
63 publications, 1.76%
|
|
Harvard University
62 publications, 1.73%
|
|
Washington University in St. Louis
56 publications, 1.57%
|
|
Duke University
51 publications, 1.43%
|
|
Thomas Jefferson University
50 publications, 1.4%
|
|
University of Wisconsin–Madison
45 publications, 1.26%
|
|
University of Texas MD Anderson Cancer Center
45 publications, 1.26%
|
|
Capital Medical University
44 publications, 1.23%
|
|
Stanford University
41 publications, 1.15%
|
|
University of Arizona
41 publications, 1.15%
|
|
Dartmouth College
41 publications, 1.15%
|
|
University of Minnesota
40 publications, 1.12%
|
|
University of Utah
38 publications, 1.06%
|
|
Beth Israel Deaconess Medical Center
38 publications, 1.06%
|
|
Shanghai Jiao Tong University
35 publications, 0.98%
|
|
North Carolina State University
35 publications, 0.98%
|
|
Polytechnic University of Valencia
32 publications, 0.89%
|
|
Ludwig Maximilian University of Munich
29 publications, 0.81%
|
|
University of Toronto
28 publications, 0.78%
|
|
Johns Hopkins University
27 publications, 0.75%
|
|
Kyoto University
24 publications, 0.67%
|
|
University of Ulsan
23 publications, 0.64%
|
|
Peking University
22 publications, 0.62%
|
|
Fudan University
22 publications, 0.62%
|
|
Nanjing Medical University
22 publications, 0.62%
|
|
Istituti di Ricovero e Cura a Carattere Scientifico
22 publications, 0.62%
|
|
European Institute of Oncology
22 publications, 0.62%
|
|
China-Japan Friendship Hospital
22 publications, 0.62%
|
|
Third Xiangya Hospital of Central South University
21 publications, 0.59%
|
|
Eindhoven University of Technology
21 publications, 0.59%
|
|
University Medical Center Utrecht
21 publications, 0.59%
|
|
Hebrew University of Jerusalem
20 publications, 0.56%
|
|
Asan Medical Center
20 publications, 0.56%
|
|
Zhejiang University
19 publications, 0.53%
|
|
Humboldt University of Berlin
19 publications, 0.53%
|
|
Colorado State University
19 publications, 0.53%
|
|
Shandong University
19 publications, 0.53%
|
|
Dartmouth–Hitchcock Medical Center
19 publications, 0.53%
|
|
Utrecht University
19 publications, 0.53%
|
|
University of Tübingen
18 publications, 0.5%
|
|
Sapienza University of Rome
18 publications, 0.5%
|
|
Memorial Sloan Kettering Cancer Center
18 publications, 0.5%
|
|
Delft University of Technology
17 publications, 0.48%
|
|
Dana-Farber Cancer Institute
17 publications, 0.48%
|
|
University of Maryland, Baltimore
17 publications, 0.48%
|
|
Kansas State University
17 publications, 0.48%
|
|
Nankai University
16 publications, 0.45%
|
|
Aarhus University Hospital
16 publications, 0.45%
|
|
University of Southern California
16 publications, 0.45%
|
|
North Sichuan Medical University
16 publications, 0.45%
|
|
University of Michigan
16 publications, 0.45%
|
|
Kyushu University
16 publications, 0.45%
|
|
University of Oxford
15 publications, 0.42%
|
|
Virginia Tech
15 publications, 0.42%
|
|
Massachusetts General Hospital
15 publications, 0.42%
|
|
University Hospital Frankfurt
15 publications, 0.42%
|
|
Free University of Berlin
14 publications, 0.39%
|
|
Haukeland University Hospital
14 publications, 0.39%
|
|
Shandong First Medical University
14 publications, 0.39%
|
|
Zhengzhou University
14 publications, 0.39%
|
|
University Hospital Erlangen
14 publications, 0.39%
|
|
University of Groningen
14 publications, 0.39%
|
|
University of Texas Southwestern Medical Center
14 publications, 0.39%
|
|
Nara Medical University
14 publications, 0.39%
|
|
National Cancer Institute
14 publications, 0.39%
|
|
Southern Medical University
13 publications, 0.36%
|
|
Chang Gung University
13 publications, 0.36%
|
|
University of Washington
13 publications, 0.36%
|
|
Thomas Jefferson University Hospital
13 publications, 0.36%
|
|
Gunma University
13 publications, 0.36%
|
|
City of Hope National Medical Center
13 publications, 0.36%
|
|
Chalmers University of Technology
12 publications, 0.34%
|
|
Chinese Academy of Medical Sciences & Peking Union Medical College
12 publications, 0.34%
|
|
University of Bergen
12 publications, 0.34%
|
|
Danish Cancer Society
12 publications, 0.34%
|
|
German Cancer Research Center
12 publications, 0.34%
|
|
University of Illinois Urbana-Champaign
12 publications, 0.34%
|
|
Kyoto Prefectural University of Medicine
12 publications, 0.34%
|
|
Hospital Del Mar
12 publications, 0.34%
|
|
University of Kentucky
12 publications, 0.34%
|
|
Sunnybrook Health Sciences Centre
12 publications, 0.34%
|
|
University of Milan
11 publications, 0.31%
|
|
Campus Bio-Medico University
11 publications, 0.31%
|
|
University of Toyama
11 publications, 0.31%
|
|
Wake Forest University
11 publications, 0.31%
|
|
Tongji University
10 publications, 0.28%
|
|
Technical University of Munich
10 publications, 0.28%
|
|
Autonomous University of Barcelona
10 publications, 0.28%
|
|
Dalian Medical University
10 publications, 0.28%
|
|
China Medical University (Liaoning)
10 publications, 0.28%
|
|
Brigham and Women's Hospital
10 publications, 0.28%
|
|
Osaka Metropolitan University
10 publications, 0.28%
|
|
Show all (70 more) | |
20
40
60
80
100
120
|
Publishing organizations in 5 years
10
20
30
40
50
60
70
80
|
|
Chongqing Medical University
75 publications, 9.12%
|
|
Sun Yat-sen University
31 publications, 3.77%
|
|
People's Liberation Army General Hospital and Medical School (301 Hospital)
31 publications, 3.77%
|
|
Capital Medical University
21 publications, 2.55%
|
|
Erasmus University Medical Center
19 publications, 2.31%
|
|
Third Xiangya Hospital of Central South University
15 publications, 1.82%
|
|
North Sichuan Medical University
15 publications, 1.82%
|
|
Peking University
14 publications, 1.7%
|
|
Fudan University
14 publications, 1.7%
|
|
China-Japan Friendship Hospital
14 publications, 1.7%
|
|
Shanghai Jiao Tong University
12 publications, 1.46%
|
|
Nankai University
12 publications, 1.46%
|
|
Eindhoven University of Technology
12 publications, 1.46%
|
|
Amsterdam University Medical Center
12 publications, 1.46%
|
|
Zhejiang University
11 publications, 1.34%
|
|
Zhengzhou University
11 publications, 1.34%
|
|
Charité - Universitätsmedizin Berlin
11 publications, 1.34%
|
|
Shandong First Medical University
10 publications, 1.22%
|
|
University of Amsterdam
10 publications, 1.22%
|
|
Polytechnic University of Valencia
10 publications, 1.22%
|
|
Nanjing Medical University
9 publications, 1.09%
|
|
Chinese Academy of Medical Sciences & Peking Union Medical College
9 publications, 1.09%
|
|
Southern Medical University
9 publications, 1.09%
|
|
Zunyi Medical University
9 publications, 1.09%
|
|
Virginia Tech
9 publications, 1.09%
|
|
University of Wisconsin–Madison
9 publications, 1.09%
|
|
Delft University of Technology
7 publications, 0.85%
|
|
Duke University
7 publications, 0.85%
|
|
University of California, San Francisco
7 publications, 0.85%
|
|
University of Michigan
7 publications, 0.85%
|
|
Huazhong University of Science and Technology
6 publications, 0.73%
|
|
Tongji University
6 publications, 0.73%
|
|
Humboldt University of Berlin
6 publications, 0.73%
|
|
Free University of Berlin
6 publications, 0.73%
|
|
Chang Gung University
6 publications, 0.73%
|
|
Qingdao University
6 publications, 0.73%
|
|
University Hospital Erlangen
6 publications, 0.73%
|
|
Kansas State University
6 publications, 0.73%
|
|
University of Texas MD Anderson Cancer Center
6 publications, 0.73%
|
|
Sichuan University
5 publications, 0.61%
|
|
Chalmers University of Technology
5 publications, 0.61%
|
|
Nanjing University of Chinese Medicine
5 publications, 0.61%
|
|
Southeast University
5 publications, 0.61%
|
|
Turku University Hospital
5 publications, 0.61%
|
|
Johns Hopkins University
5 publications, 0.61%
|
|
Air Force Medical University
5 publications, 0.61%
|
|
Shandong University
5 publications, 0.61%
|
|
German Cancer Research Center
5 publications, 0.61%
|
|
Ludwig Maximilian University of Munich
5 publications, 0.61%
|
|
Dartmouth College
5 publications, 0.61%
|
|
University of Utah
5 publications, 0.61%
|
|
University of Electronic Science and Technology of China
4 publications, 0.49%
|
|
Aix-Marseille University
4 publications, 0.49%
|
|
Karolinska Institute
4 publications, 0.49%
|
|
University Hospital of Bern
4 publications, 0.49%
|
|
Autonomous University of Barcelona
4 publications, 0.49%
|
|
Shanxi Medical University
4 publications, 0.49%
|
|
Shanghai University
4 publications, 0.49%
|
|
Guangzhou Medical University
4 publications, 0.49%
|
|
Dalian Medical University
4 publications, 0.49%
|
|
Harbin Medical University
4 publications, 0.49%
|
|
Stanford University
4 publications, 0.49%
|
|
Asan Medical Center
4 publications, 0.49%
|
|
University of Ulsan
4 publications, 0.49%
|
|
Berlin Institute of Health at Charité - Universitätsmedizin Berlin
4 publications, 0.49%
|
|
Memorial Sloan Kettering Cancer Center
4 publications, 0.49%
|
|
Cleveland Clinic
4 publications, 0.49%
|
|
University of Tübingen
3 publications, 0.36%
|
|
Tsinghua University
3 publications, 0.36%
|
|
Xi'an Jiaotong University
3 publications, 0.36%
|
|
Katholieke Universiteit Leuven
3 publications, 0.36%
|
|
Wuhan University of Science and Technology
3 publications, 0.36%
|
|
University of Zurich
3 publications, 0.36%
|
|
University of Geneva
3 publications, 0.36%
|
|
Istituti di Ricovero e Cura a Carattere Scientifico
3 publications, 0.36%
|
|
Soochow University (Suzhou)
3 publications, 0.36%
|
|
University of Antwerp
3 publications, 0.36%
|
|
Southwest Medical University
3 publications, 0.36%
|
|
Taipei Medical University
3 publications, 0.36%
|
|
Binzhou Medical University
3 publications, 0.36%
|
|
Pennsylvania State University
3 publications, 0.36%
|
|
Harvard University
3 publications, 0.36%
|
|
Hangzhou Medical College
3 publications, 0.36%
|
|
Wenzhou Medical University
3 publications, 0.36%
|
|
Kunming Medical University
3 publications, 0.36%
|
|
Cologne University Hospital
3 publications, 0.36%
|
|
Dartmouth–Hitchcock Medical Center
3 publications, 0.36%
|
|
University of Minnesota
3 publications, 0.36%
|
|
University Hospital Bonn
3 publications, 0.36%
|
|
University Hospital Frankfurt
3 publications, 0.36%
|
|
Innsbruck Medical University
3 publications, 0.36%
|
|
University of Texas Southwestern Medical Center
3 publications, 0.36%
|
|
Federal University of Goiás
3 publications, 0.36%
|
|
Hospital del Mar Research Institute
3 publications, 0.36%
|
|
Wake Forest University
3 publications, 0.36%
|
|
Hebrew University of Jerusalem
2 publications, 0.24%
|
|
South China University of Technology
2 publications, 0.24%
|
|
Jilin University
2 publications, 0.24%
|
|
Radboud University Nijmegen Medical Centre
2 publications, 0.24%
|
|
University of Bordeaux
2 publications, 0.24%
|
|
Show all (70 more) | |
10
20
30
40
50
60
70
80
|
Publishing countries
200
400
600
800
1000
1200
|
|
USA
|
USA, 1149, 32.12%
USA
1149 publications, 32.12%
|
China
|
China, 774, 21.64%
China
774 publications, 21.64%
|
Netherlands
|
Netherlands, 281, 7.86%
Netherlands
281 publications, 7.86%
|
Japan
|
Japan, 258, 7.21%
Japan
258 publications, 7.21%
|
Germany
|
Germany, 250, 6.99%
Germany
250 publications, 6.99%
|
United Kingdom
|
United Kingdom, 135, 3.77%
United Kingdom
135 publications, 3.77%
|
Italy
|
Italy, 133, 3.72%
Italy
133 publications, 3.72%
|
Canada
|
Canada, 105, 2.94%
Canada
105 publications, 2.94%
|
France
|
France, 98, 2.74%
France
98 publications, 2.74%
|
Republic of Korea
|
Republic of Korea, 87, 2.43%
Republic of Korea
87 publications, 2.43%
|
Spain
|
Spain, 64, 1.79%
Spain
64 publications, 1.79%
|
Switzerland
|
Switzerland, 52, 1.45%
Switzerland
52 publications, 1.45%
|
Denmark
|
Denmark, 45, 1.26%
Denmark
45 publications, 1.26%
|
Sweden
|
Sweden, 45, 1.26%
Sweden
45 publications, 1.26%
|
Norway
|
Norway, 31, 0.87%
Norway
31 publications, 0.87%
|
Russia
|
Russia, 29, 0.81%
Russia
29 publications, 0.81%
|
Israel
|
Israel, 29, 0.81%
Israel
29 publications, 0.81%
|
India
|
India, 29, 0.81%
India
29 publications, 0.81%
|
Australia
|
Australia, 27, 0.75%
Australia
27 publications, 0.75%
|
Iran
|
Iran, 24, 0.67%
Iran
24 publications, 0.67%
|
Poland
|
Poland, 23, 0.64%
Poland
23 publications, 0.64%
|
Belgium
|
Belgium, 21, 0.59%
Belgium
21 publications, 0.59%
|
Greece
|
Greece, 18, 0.5%
Greece
18 publications, 0.5%
|
Singapore
|
Singapore, 18, 0.5%
Singapore
18 publications, 0.5%
|
Czech Republic
|
Czech Republic, 17, 0.48%
Czech Republic
17 publications, 0.48%
|
Austria
|
Austria, 16, 0.45%
Austria
16 publications, 0.45%
|
Brazil
|
Brazil, 16, 0.45%
Brazil
16 publications, 0.45%
|
Ireland
|
Ireland, 15, 0.42%
Ireland
15 publications, 0.42%
|
Finland
|
Finland, 15, 0.42%
Finland
15 publications, 0.42%
|
Argentina
|
Argentina, 11, 0.31%
Argentina
11 publications, 0.31%
|
Egypt
|
Egypt, 11, 0.31%
Egypt
11 publications, 0.31%
|
Malaysia
|
Malaysia, 9, 0.25%
Malaysia
9 publications, 0.25%
|
Saudi Arabia
|
Saudi Arabia, 8, 0.22%
Saudi Arabia
8 publications, 0.22%
|
Turkey
|
Turkey, 8, 0.22%
Turkey
8 publications, 0.22%
|
Mexico
|
Mexico, 7, 0.2%
Mexico
7 publications, 0.2%
|
Bulgaria
|
Bulgaria, 6, 0.17%
Bulgaria
6 publications, 0.17%
|
Lithuania
|
Lithuania, 6, 0.17%
Lithuania
6 publications, 0.17%
|
UAE
|
UAE, 5, 0.14%
UAE
5 publications, 0.14%
|
Croatia
|
Croatia, 5, 0.14%
Croatia
5 publications, 0.14%
|
Jordan
|
Jordan, 4, 0.11%
Jordan
4 publications, 0.11%
|
Thailand
|
Thailand, 4, 0.11%
Thailand
4 publications, 0.11%
|
Ukraine
|
Ukraine, 3, 0.08%
Ukraine
3 publications, 0.08%
|
Portugal
|
Portugal, 3, 0.08%
Portugal
3 publications, 0.08%
|
Hungary
|
Hungary, 3, 0.08%
Hungary
3 publications, 0.08%
|
New Zealand
|
New Zealand, 3, 0.08%
New Zealand
3 publications, 0.08%
|
Slovakia
|
Slovakia, 3, 0.08%
Slovakia
3 publications, 0.08%
|
South Africa
|
South Africa, 3, 0.08%
South Africa
3 publications, 0.08%
|
Vietnam
|
Vietnam, 2, 0.06%
Vietnam
2 publications, 0.06%
|
Georgia
|
Georgia, 2, 0.06%
Georgia
2 publications, 0.06%
|
Qatar
|
Qatar, 2, 0.06%
Qatar
2 publications, 0.06%
|
Colombia
|
Colombia, 2, 0.06%
Colombia
2 publications, 0.06%
|
Kuwait
|
Kuwait, 2, 0.06%
Kuwait
2 publications, 0.06%
|
Lebanon
|
Lebanon, 2, 0.06%
Lebanon
2 publications, 0.06%
|
Romania
|
Romania, 2, 0.06%
Romania
2 publications, 0.06%
|
Serbia
|
Serbia, 2, 0.06%
Serbia
2 publications, 0.06%
|
Philippines
|
Philippines, 2, 0.06%
Philippines
2 publications, 0.06%
|
USSR
|
USSR, 2, 0.06%
USSR
2 publications, 0.06%
|
Yugoslavia
|
Yugoslavia, 2, 0.06%
Yugoslavia
2 publications, 0.06%
|
Bosnia and Herzegovina
|
Bosnia and Herzegovina, 1, 0.03%
Bosnia and Herzegovina
1 publication, 0.03%
|
Venezuela
|
Venezuela, 1, 0.03%
Venezuela
1 publication, 0.03%
|
Iraq
|
Iraq, 1, 0.03%
Iraq
1 publication, 0.03%
|
Nigeria
|
Nigeria, 1, 0.03%
Nigeria
1 publication, 0.03%
|
Oman
|
Oman, 1, 0.03%
Oman
1 publication, 0.03%
|
Pakistan
|
Pakistan, 1, 0.03%
Pakistan
1 publication, 0.03%
|
Puerto Rico
|
Puerto Rico, 1, 0.03%
Puerto Rico
1 publication, 0.03%
|
Syria
|
Syria, 1, 0.03%
Syria
1 publication, 0.03%
|
Slovenia
|
Slovenia, 1, 0.03%
Slovenia
1 publication, 0.03%
|
Tunisia
|
Tunisia, 1, 0.03%
Tunisia
1 publication, 0.03%
|
Show all (38 more) | |
200
400
600
800
1000
1200
|
Publishing countries in 5 years
50
100
150
200
250
300
350
400
|
|
China
|
China, 375, 45.62%
China
375 publications, 45.62%
|
USA
|
USA, 120, 14.6%
USA
120 publications, 14.6%
|
Germany
|
Germany, 38, 4.62%
Germany
38 publications, 4.62%
|
Netherlands
|
Netherlands, 33, 4.01%
Netherlands
33 publications, 4.01%
|
Spain
|
Spain, 20, 2.43%
Spain
20 publications, 2.43%
|
Italy
|
Italy, 20, 2.43%
Italy
20 publications, 2.43%
|
Switzerland
|
Switzerland, 16, 1.95%
Switzerland
16 publications, 1.95%
|
United Kingdom
|
United Kingdom, 13, 1.58%
United Kingdom
13 publications, 1.58%
|
Republic of Korea
|
Republic of Korea, 13, 1.58%
Republic of Korea
13 publications, 1.58%
|
France
|
France, 12, 1.46%
France
12 publications, 1.46%
|
Sweden
|
Sweden, 11, 1.34%
Sweden
11 publications, 1.34%
|
Belgium
|
Belgium, 8, 0.97%
Belgium
8 publications, 0.97%
|
Ireland
|
Ireland, 8, 0.97%
Ireland
8 publications, 0.97%
|
Canada
|
Canada, 8, 0.97%
Canada
8 publications, 0.97%
|
Japan
|
Japan, 8, 0.97%
Japan
8 publications, 0.97%
|
Austria
|
Austria, 6, 0.73%
Austria
6 publications, 0.73%
|
Poland
|
Poland, 6, 0.73%
Poland
6 publications, 0.73%
|
Israel
|
Israel, 5, 0.61%
Israel
5 publications, 0.61%
|
Finland
|
Finland, 5, 0.61%
Finland
5 publications, 0.61%
|
Brazil
|
Brazil, 4, 0.49%
Brazil
4 publications, 0.49%
|
Argentina
|
Argentina, 3, 0.36%
Argentina
3 publications, 0.36%
|
Denmark
|
Denmark, 3, 0.36%
Denmark
3 publications, 0.36%
|
Egypt
|
Egypt, 3, 0.36%
Egypt
3 publications, 0.36%
|
Saudi Arabia
|
Saudi Arabia, 3, 0.36%
Saudi Arabia
3 publications, 0.36%
|
Singapore
|
Singapore, 3, 0.36%
Singapore
3 publications, 0.36%
|
Czech Republic
|
Czech Republic, 3, 0.36%
Czech Republic
3 publications, 0.36%
|
Australia
|
Australia, 2, 0.24%
Australia
2 publications, 0.24%
|
Bulgaria
|
Bulgaria, 2, 0.24%
Bulgaria
2 publications, 0.24%
|
Greece
|
Greece, 2, 0.24%
Greece
2 publications, 0.24%
|
Lithuania
|
Lithuania, 2, 0.24%
Lithuania
2 publications, 0.24%
|
Russia
|
Russia, 1, 0.12%
Russia
1 publication, 0.12%
|
Portugal
|
Portugal, 1, 0.12%
Portugal
1 publication, 0.12%
|
Hungary
|
Hungary, 1, 0.12%
Hungary
1 publication, 0.12%
|
Georgia
|
Georgia, 1, 0.12%
Georgia
1 publication, 0.12%
|
India
|
India, 1, 0.12%
India
1 publication, 0.12%
|
Jordan
|
Jordan, 1, 0.12%
Jordan
1 publication, 0.12%
|
Colombia
|
Colombia, 1, 0.12%
Colombia
1 publication, 0.12%
|
Mexico
|
Mexico, 1, 0.12%
Mexico
1 publication, 0.12%
|
UAE
|
UAE, 1, 0.12%
UAE
1 publication, 0.12%
|
Romania
|
Romania, 1, 0.12%
Romania
1 publication, 0.12%
|
Slovakia
|
Slovakia, 1, 0.12%
Slovakia
1 publication, 0.12%
|
Thailand
|
Thailand, 1, 0.12%
Thailand
1 publication, 0.12%
|
Turkey
|
Turkey, 1, 0.12%
Turkey
1 publication, 0.12%
|
Philippines
|
Philippines, 1, 0.12%
Philippines
1 publication, 0.12%
|
South Africa
|
South Africa, 1, 0.12%
South Africa
1 publication, 0.12%
|
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3 profile journal articles
Chandrakumaran Kandiah
53 publications,
2 628 citations
h-index: 24
Research interests
Clinical trials