        TY  - JOUR
T1  - The Electrical Characterization Effect of Insulator Layer between Semiconductor and Metal
TT  - Metal ve Yarıiletken Arasındaki Yalıtkan Tabakanın Elektriksel karakterizasyon Etkisi
AU  - Koçyiğit, Adem
AU  - Orak, İkram
PY  - 2016
DA  - September
Y2  - 2016
JF  - Journal of the Institute of Science and Technology
JO  - J. Inst. Sci. and Tech.
PB  - Igdir University
WT  - DergiPark
SN  - 2536-4618
SP  - 57
EP  - 67
VL  - 6
IS  - 3
LA  - en
AB  - Metal-Insulator-semiconductor contacts (MIS) have been studied its importance inelectronic and optoelectronic. Their importance comes from its so high dielectric constant, storage layerproperty and effect of capacitance. For this reason, Si3N4 were deposited with PECVD technique onp-type Si about 5 nm thickness layers. The thicknesses of Si3N4 were measured with an elipsometre andobtained MIS contact with Al contact. It was researched the insulator layer effect on the Al/p-Si contact.Its electrical characterizations were inquired by use of the forward and reverse bias I-V, C–V and G-Vmeasurements and were seen that the insulator Si3N4 layer inﬂuenced characterizations of the contact.Effect of the interface states (Nss), the series resistance (Rs) and the other some electrical parameterswere investigated by calculating from I-V and C–V measurements. It was observed that from the C-Vcharacterizations at 500 kHz dual, contact behaved similarly memristor structure.&amp;nbsp;&amp;nbsp;
KW  - Al/Si3N4/p-Si
KW  - capacitance behavior
KW  - metal-insulator-semiconductor structure
KW  - Schottky diode
N2  - Metal-yalıtkan-yarıiletken (MIS) aygıtlar elektronik ve optoelektronikteki önemlerindendolayı çalışılmaktadır. Bu önem aygıtların yüksek dielektrik sabitine, depolama tabakası ve kapasitansözelliklerine sahip olmalarından kaynaklanmaktadır. Bu yüzden Si3N4 tabakası p-tipi Si üzerinePECVD tekniği kullanılarak büyütülmüş, kalınlığı elipsometre ile 5 nm olarak ölçülmüştür ve Alkontak sayesinde MIS yapısı elde edilmiştir. Elde edilen Al/p-Si yapısı üzerine Si3N4 tabakasının etkisiaraştırılmıştır. Bunun için aygıtın elektrik karakterizasyonları ileri ve ters beslem I-V, C–V ve G-Völçümleriyle yapılmış ve yalıtkan Si3N4 tabakanın diyot özelliklerini oldukça etkilediği görülmüştür. Arayüzey halleri (Nss), seri direnç (Rs) ve diğer bazı elektriksel parametrelerin aygıt üzerine etkileri I-Vve C–V ölçümlerinden hesaplanarak araştırılmıştır. C-V ölçümlerinden aygıtın memristör bir yapı gibidavrandığı tespit edilmiştir&amp;nbsp;&amp;nbsp;
CR  - Ataseven T, Tatatroğlu A, 2013. Temperature-dependent dielectric
properties of Au/Si3N4/n-Si (metal insulator semiconductor)
structures. Chin. Phys. B, 22(11): 117310-1- 117310-6.
CR  - Bilkan Ç, Zeyrek S, San SE, Altındal Ş, 2015. A compare of
electrical characteristics in Al/p-Si(MS) and Al/C20H12/pSi (MPS) type diodes using current–voltage (I–V) and
capacitance–voltage(C–V) measurements. Materials Science
in Semiconductor Processing 32: 137–144.
CR  - Bülbül MM, Zeyrek S, 2006. Frequency dependent capacitance and
conductance–voltage characteristics of Al/Si3N4/p-Si(100)
MIS diodes. Microelectronic Engineering 83: 2522–2526.
CR  - Bülbül MM, Zeyrek S, Altındal Ş, Yüzer H, 2006. On the profle
of temperature dependent series resistance in Al/Si3N4/pSi (MIS) Schottky diodes. Microelectronic Engineering 83:
577–581.
CR  - Card HC, Rhoderick EH, 1971. E. H. Studies of tunnel MOS diodes
I. Interface effects in silicon Schottky diodes. J. Phys. D: Appl.
Phys 4:1589–1601.
CR  - Cheung SK, Cheung NW, 1986. Extraction of Schottky diode
parameters from forward current‐voltage characteristics.
Appl.Phys.Lett. 49 (2): 85-88.
CR  - Demircioglu Ö, Karataş Ş, Yıldırım N, Bakkaloglu ÖF, Türüt
A, 2011. Temperature dependent current–voltage and
capacitance–voltage characteristics of chromium Schottky
contacts formed by electrodeposition technique on n-type Si
Journal of Alloys and Compounds 509: 6433- 6439.
CR  - El-Nahass NN, Metwally HS, El-Sayed HEA, Hassanien AM,
2011. Electrical and photovoltaic properties of FeTPPCl/p-Si
heterojunction. Synthetic Metals 161: 2253– 2258.
CR  - Gökçen M, Altuntaş H, Altındal Ş, Özçelik S, 2012. Frequency
and voltage dependence of negative capacitance in Au/
SiO2/n-GaAs structures. Materials Science in Semiconductor
Processing 15: 41–46.
CR  - Güllü Ö, Türüt A, 2010. Electrical analysis of organic dye-based
MIS Schottky contacts. Microelectronic Engineering 87:
2482-2487.
CR  - Güllü Ö, Aydoğan Ş, Türüt A, 2012. High barrier Schottky diode
with organic interlayer. Solid State Communications 152:
381-385.
CR  - Karataş Ş, Yildirim N, Türüt A, 2013. Electrical properties and
interface state energy distributions of Cr/n-Si Schottky barrier
diode. Superlattices and Microstructures 64: 483-494.
CR  - Korucu D, Duman S, 2015. Frequency and Temperature Dependent
Interface States and Series Resistance in Au/SiO2/p-Si (MIS)
Diode. Science of advanced materials 7(7): 1291-1297.
CR  - Lee J, Uhrmann T, Dimopoulos T, Bruckl H, Fidler J, 2010. TEM
Study on Diffusion Process of NiFe Schottky and MgO/
NiFe Tunneling Diodes for Spin Injection in Silicon. IEEE
Transactions on Magnetics 46(6): 2067-2069.
CR  - Markvart T, 2000. Solar Electricity, Baffns Lane; John Wiley &amp;
Sons, Chichester, England.
CR  - Nasim F, Bhatt AS, 2013. Inﬂuence of different metal over-layers
on the electrical behaviour of the MIS Schottky diodes.
International Journal of Electronics 100 (9): 1228-1239.
CR  - Orak I, Toprak M, Türüt A, 2014. Illumination impact on the electrical
characterizations of an Al/Azure A/p-Si heterojunction. Phys.
Scr. 89(115810): 1-5.
CR  - Orak I, Ejderha K, Türüt A, 2015. The electrical characterizations
and illumination response of Co/N-type GaP junction device.
Current Applied Physics 15: 1054-1061.
CR  - Orak I, Ürel M, Bakan G, Dana A, 2015. Memristive behavior in
a junctionless ﬂash memory cell. Applied physics letters 106
(233506):1-5.
CR  - Rajesh KR, Menon CS, 2007. Study on the device characteristics of
FePc and FePcCl organic thin flm Schottky diodes: Inﬂuence
of oxygen and post deposition annealing. Journal of NonCrystalline Solids 353(4): 398-404.
CR  - Roul B, Mukundan S, Chandan G, Mohan L, Krupanidhi SB,
2015. Barrier height inhomogeneity in electrical transport
characteristics of InGaN/GaN heterostructure interfaces. AIP
Advances 5(037130): 1-12.
CR  - Sharma GD, Sharma SK, Roy MS, 2004. Photovoltaic properties of
Schottky device based on dye sensitized poly (3-phenyl azo
methine thiophene) thin flm. Thin Solid Films 468(1–2): 208-
215
CR  - Sharma SC, Tewari A, 2011. Field emission of electrons from
spherical conducting carbon nanotube tip including the effect
of image force. Canadian Journal of Physics 89(8): 875-881.
CR  - Sönmezoğlu S, Akın S, 2011. The Determination of Series
Resistance Parameter of Sb‐Doped TiO2/n‐Si MIS Structure
by Capacitance‐Voltage (C‐V) Method. AKU‐J. Sci.
11(011101): 1‐8
CR  - Sze SM, Kwok KN, 2006. Physics of Semiconductor Devices, John
Wiley &amp; Sons,Inc, Third edition New Jersey, USA. 832 p.
CR  - Sze SM, 1981. Physics of Semiconductor Devices, second Ed.
Willey &amp; Sons, NewYork, USA. 815 p.
CR  - Sztkowski J and Sieranski K, 1992. Simple interface-layer model
for the nonideal characteristics of the Schottky-barrier diode.
Solid State Electron. 35(7): 1013-1015.
CR  - Tatar B, Bulgurcuoglu AE, Gokdemir P, Aydogan P, Yılmazer
S, Ozdemir O, Kutlu K, 2009. Electrical and photovoltaic
properties of Cr/Si Schottky diodesInt. J. Hydrogen Energy
34: 5208- 5212.
CR  - Turut A, Karabulut A, Ejderha K, Bıyıklı N, 2015. Capacitance–
conductance–current–voltage characteristics of atomic layer
deposited Au/Ti/Al2O3/n-GaAs MIS structures. Materials
Science in Semiconductor Processing 39: 400–407.
CR  - Yahia IS, Farag AAM, Yakuphanoğlu F, Farooq WA 2011.
Temperature dependence of electronic parameters of organic
Schottky diode based on ﬂuorescein sodium salt. Synthetic
Metals 161 (9-10): 881-887.
CR  - Zeyrek S, Altındal Ş, Yüzer H, Bülbül MM, 2006. Current transport
mechanism in Al/Si3N4/p-Si (MIS) Schottky barrier diodes at
low temperatures. Applied Surface Science 252: 2999–3010.
UR  - https://dergipark.org.tr/en/pub/jist/issue//387528
L1  - https://dergipark.org.tr/en/download/article-file/415855
ER  -