Articles published in Journal of Nanomedicine & Nanotechnology have been cited by esteemed scholars and scientists all around the world. Journal of Nanomedicine & Nanotechnology has got h-index 49, which means every article in Journal of Nanomedicine & Nanotechnology has got 49 average citations.
Following are the list of articles that have cited the articles published in Journal of Nanomedicine & Nanotechnology.
2022 | 2021 | 2020 | 2019 | 2018 | |
---|---|---|---|---|---|
Total published articles |
62 | 71 | 34 | 20 | 41 |
Conference proceedings |
53 | 21 | 0 | 44 | 369 |
Citations received as per Google Scholar, other indexing platforms and portals |
1184 | 1267 | 1095 | 929 | 906 |
Journal total citations count | 10577 |
Journal impact factor | 1.68 |
Journal 5 years impact factor | 2.78 |
Journal cite score | 25.25 |
Journal h-index | 49 |
Mescia L, Bia P, Caratelli D. Fractional derivative based FDTD modeling of transient wave propagation in Havriliak–Negami media. IEEE Transactions on Microwave Theory and Techniques. 2014 10;62(9):1920-9.
Bia P, Caratelli D, Mescia L, Cicchetti R, Maione G, Prudenzano F. A novel FDTD formulation based on fractional derivatives for dispersive Havriliak–Negami media. Signal Processing. 2015 1;107:312-8.
Chen R, Sain NM, Harlow KT, Chen YJ, Shires PK, Heller R, Beebe SJ. A protective effect after clearance of orthotopic rat hepatocellular carcinoma by nanosecond pulsed electric fields. European Journal of Cancer. 2014 1;50(15):2705-13.
Pavesi A, Adriani G, Tay A, Warkiani ME, Yeap WH, Wong SC, Kamm RD. Engineering a 3D microfluidic culture platform for tumor-treating field application. Scientific reports. 2016 24;6:26584.
Ve PI, Uygulanması İV. Bilim ve Teknoloji Dergisi.
焦晋平, 任舰, 闫大为, 顾晓峰. 氮化镓基高电åè¿ç§»çŽ‡æ™¶ä½“ç®¡æ …ç”µæµè¾“è¿æœºåˆ¶ç ”究. 固体电åå¦ç ”究与进展. 2014;34(2):106-10.
ABDLHAMED AF. GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES (Doctoral dissertation, SÜLEYMAN DEMÄ°REL UNIVERSITY).
Aldemir DA, Aldemir R, Kökce A, Duman S, Özdemir AF. The Effects of Thermal Neutron Irradiation on Current-Voltage and Capacitance-Voltage Characteristics of Au/n-Si/Ag Schottky Barrier Diodes. Silicon. 2018:1-1.
Antony BK. A. Bobby, N. Shiwakoti, PS Gupta &. Indian J Phys. 2016;90:307-12.
Asgari S. Electrical characterization of methyl-terminated n-type silicon microwire/PEDOT: PSS junctions for solar water splitting applications.
DurmuÅŸ H, KarataÅŸ Åž. The analysis of the electrical characteristics and interface state densities of Re/n-type Si Schottky barrier diodes at room temperature. International Journal of Electronics. 2019 3;106(4):507-20.
TaÅŸçıoÄŸlu Ä°, Tan SO, Altındal Åž. Frequency, voltage and illumination interaction with the electrical characteristics of the CdZnO interlayered Schottky structure. Journal of Materials Science: Materials in Electronics. 2019 30;30(12):11536-41.
Özaydın C, Güllü Ö, Pakma O, Ä°lhan S, Akkılıç K. The optical characterization of organometallic complex thin films by spectroscopic ellipsometry and photovoltaic diode application. Materials Research Bulletin. 2016 1;77:115-21.
NANDA KUMAR REDDY N, Ananda P, Verma VK, RAHIM BAKASH K. An assessment on electrical characterization of Ni/n-Si Schottky rectifiers with and without Ta2O5 interfacial oxide layer. Surface Review and Letters. 2019 18:1950073.
Tran HN, Bui TA, Reeves GK, Leech PW, Partridge JG, Alnassar MS, Holland AS. Optimising the Rectification Ratio of Schottky Diodes in n-SiC and n-Si by TCAD. MRS Advances. 2016;1(54):3655-60.
Sahar A, Ahmet K, Uslu Ä°, Åžlemsettin A. Illumination and Voltage Dependence of Electrical Characteristics of Au/0.03 Graphene-Doped PVA/n-Si Structures via Capacitance/Conductance-Voltage Measurements. Chinese Physics Letters. 2015 ;32(11):116102.
Basman N, Uzun R, Gocer E, Bacaksiz E, Kolemen U. Electrodeposition of Si–DLC nanocomposite film and its electronic application. Microsystem Technologies. 2018 1;24(5):2287-94.
Kamruzzaman M, Zapien JA. Reduction of schottky barrier height, turn on voltage, leakage current and high responsivity of li doped ZnO nanorod arrays based schottky diode. Journal of Nanoscience and Nanotechnology. 2017 1;17(7):5061-72.
Touati R, Trabelsi I, Rabeh MB, Kanzari M. Structural and electrical properties of the Al/p-Cu 2 ZnSnS 4 thin film schottky diode. Journal of Materials Science: Materials in Electronics. 2017 1;28(7):5315-22.
Çiçek O, Tan SO, Tecimer H, Altındal Åž. Role of graphene-doped organic/polymer nanocomposites on the electronic properties of Schottky junction structures for photocell applications. Journal of Electronic Materials. 2018; 1;47(12):7134-7142.