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Ferroelectrics Volume 54, 1984 - Issue 1
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Original Articles

Pyroelectric properties of the modified triglycine sulphate (TGS) single crystals

A. S. Bhalla Materials Research Laboratory, The Pennsylvania State University, University Park, 16802, PA
,
C. S. Fang Materials Research Laboratory, The Pennsylvania State University, University Park, 16802, PA
,
L. E. Cross Materials Research Laboratory, The Pennsylvania State University, University Park, 16802, PA
&
Yao Xi Materials Research Laboratory, The Pennsylvania State University, University Park, 16802, PA
Pages 151-154 | Published online: 08 Feb 2011

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S.N. Drozhdin, O.M. Golitsyna, A.I. Nikishina & A.M. Kostsov. (2008) Pyroelectric and Dielectric Properties of Triglycine Sulphate with an Impurity of Phosphorus (TGSP). Ferroelectrics 373:1, pages 93-98.
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N.N. Bolshakova, T.B. Maltseva, V.M. Rudyak, V.I. Fomina & N.N. Chereshneva. (1998) Characteristics of pyroelectric materials for pyrovidicon targets. Integrated Ferroelectrics 19:1-4, pages 179-192.
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S. Erdei, B. M. Jin, A. S. Bhalla & F. W. Ainger. (1995) Growth and characterization of l-valine doped tgs single crystals. Ferroelectrics 174:1, pages 289-301.
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B.M. Jin, S. Erdei & A.S. Bhalla. (1995) Pyroelectric properties of valine doped TGS single crystals. Ferroelectrics Letters Section 19:5-6, pages 119-124.
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B.M. Jin, S. Erdei & A.S. Bhalla. (1995) Dielectric properties of valine doped tgs single crystals. Ferroelectrics 173:1, pages 105-110.
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R. Sreekumar & J. Philip. (1994) Ultrasonic study of the para-ferroelectric phase transition in phosphate doped TGS crystals. Ferroelectrics 160:1, pages 23-33.
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R.B. Lal & A.K. Batra. (1993) Growth and properties of triglycine sulfate (TGS) crystals: Review. Ferroelectrics 142:1, pages 51-82.
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M. Koralewski, W. Jachnik & T. Jasiński. (1992) Optical activity of L-α-alanine doped TGS crystals. Ferroelectrics 129:1, pages 165-173.
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Zhang Peilin, Zhong Weilie, Fang Changshui, Zhao Huansui & Li Cuiping. (1990) Low temperature pyroelectric properties of modified TGS single crystals. Ferroelectrics 101:1, pages 179-183.
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Articles from other publishers (19)

Rajib Mondal, Md Al Mahadi Hasan, Jeong Min Baik & Ya Yang. (2023) Advanced pyroelectric materials for energy harvesting and sensing applications. Materials Today 66, pages 273-301.
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Ranu, Uthra B, Rahul Sinha & Pankaj B. Agarwal. (2022) CMOS compatible pyroelectric materials for infrared detectors. Materials Science in Semiconductor Processing 140, pages 106375.
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Hongying He, Xin Lu, Emil Hanc, Chao Chen, Hao Zhang & Li Lu. (2020) Advances in lead-free pyroelectric materials: a comprehensive review. Journal of Materials Chemistry C 8:5, pages 1494-1516.
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V. Ganesh, T. Bhaskar Rao, K. Kishan Rao, G. Bhagavannarayana & Mohd. Shkir. (2012) Effect of l-alanine, Mn(II) and glycine dopants on the structural, crystalline perfection, second harmonic generation (SHG), dielectric and mechanical properties of BTCA single crystals. Materials Chemistry and Physics 137:1, pages 276-281.
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V. KRISHNAKUMAR, M. RAJABOOPATHI & R. NAGALAKSHMI. (2012) OPTICAL AND MECHANICAL PROPERTIES OF MgCl 2 ADDED TRIGLYCINE SULPHATE SINGLE CRYSTALS . International Journal of Modern Physics B 26:09, pages 1250038.
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Chitharanjan Rai, B. Narayana Moolya & S.M. Dharmaprakash. (2011) Iminodiacetic acid doped ferroelectric triglycine sulphate crystal: Crystal growth and characterization. Physica B: Condensed Matter 406:1, pages 1-7.
Crossref
N. Theresita Shanthi, P. Selvarajan & C.K. Mahadevan. (2009) Growth, structural, mechanical, spectral and dielectric characterization of NaCl-added Triglycine sulfate single crystals. Current Applied Physics 9:5, pages 1155-1159.
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V. K. Yarmarkin, S. G. Shul’man, G. A. Pankova, N. V. Zaĭtseva & V. V. Lemanov. (2008) Dielectric relaxation in TGS crystals doped with orthophosphoric and phosphorous acids. Physics of the Solid State 50:5, pages 937-940.
Crossref
N. Nakatani. 2006. Organic crystals, liquid crystals and polymers. Organic crystals, liquid crystals and polymers 1 44 .
Aparna Saxena, Vinay Gupta & K. Sreenivas. (2001) Dielectric and ferroelectric properties of phosphoric acid doped triglycine sulfate single crystals. Materials Science and Engineering: B 79:2, pages 91-97.
Crossref
B.M. Jin, S. Erdei & A.S. Bhalla. (1994) Pyroelectric measurements on various kinds of doped TGS single crystals. Pyroelectric measurements on various kinds of doped TGS single crystals.
B.M. Jin, S. Erdei & A.S. Bhalla. (1994) Dielectric properties and low temperature relaxation studies of doped TGS single crystals. Dielectric properties and low temperature relaxation studies of doped TGS single crystals.
A. S. Bhalla & S. T. Liu. 1993. Piezoelectric, Pyroelectric, and Related Constants. Piezoelectric, Pyroelectric, and Related Constants 386 399 .
A. S. Bhalla & S. T. Liu. 1993. Piezoelectric, Pyroelectric, and Related Constants. Piezoelectric, Pyroelectric, and Related Constants 425 435 .
M. S. Tsedrik, G. I. Rosenman, I. S. Rez, S. A. Vasilevsky & Yu. L. Chepelev. (2006) Exoelectron emission and defects in ferroelectric crystals. Crystal Research and Technology 24:11, pages 1137-1141.
Crossref
M A Gaffar, A A El-Fadl & S A Mansour. (1989) Ferroelectric behaviour of triglycine sulphate crystals containing low concentrations of metal ions near the transition temperature. Journal of Physics D: Applied Physics 22:2, pages 327-336.
Crossref
M A Gaffar, L I Al-Houty, M Al-Muraikhi & A A Mohamed. (1988) Investigations on the existence of a low-temperature phase transition in triglycine sulphate single crystals. Journal of Physics C: Solid State Physics 21:9, pages 1831-1838.
Crossref
A. K. Batra, R. B. Lal & M. D. Aggarwal. (1985) Electrical properties of TGS crystals grown by a new technique. Journal of Materials Science Letters 4:11, pages 1415-1418.
Crossref
A.S. Bhalla, C.S. Fang & L.E. Cross. (1985) Pyroelectric properties of alanine and deuterium substituted TGSP and TGSAs single crystals. Materials Letters 3:12, pages 475-477.
Crossref

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