Professor K. Sarath D. Perera

B.Sc(Sri Jayewardenepura); Ph.D(Bellfast); F. I. Chem. C

Senior Professor in Chemistry

Department of Chemistry

I earned my B. Sc. (Special) Degree in Chemistry with a Second Class Upper in 1982 from the University of Sri Jayewardenepura. I received my Ph. D. (with Prof. James Grimshaw on “Electroactive Polymer modified Electrodes”using poly(amino acids), polypyrroles, and polythiophenes) in 1989 from the Queen’s University of Belfast, UK. From September 1989 to May 1995, I was a Research Fellow at the University of Leeds where I carried out research work in the areas of Organometallic Chemistry, Catalysis (with Prof. Bernard L. Shaw, FRScomplexes of PO, PN, PP, PNP, PNN, PNS, PNO, PNC, NNC ligands, cyclometalation, agostic interaction, F coordination, CH and CX bond activation and Heck olefination) and Boron Chemistry (with Prof. John D. Kennedycomplexes of B16H20, B18H22, and B20H16 and thiaboranes).

Then, I joined the Open University of Sri Lanka as a Senior Lecturer in Chemistry (1995-2003), was appointed Head/Department of Chemistry (April 2002 to September 2004). I was promoted to Professor in Chemistry (2003-2011) and then to Senior Professor in Chemistry (November 2011 to date). I have authored over 20 Chemistry Books. I am involved in publishing over 75 Scientific Papers in International refereed Journals with over 1200 citations and I have presented about 50 papers in Conferences. I am a recipient of many Research Fellowships from University of Leeds (1989-2002) and Trinity College Dublin, Ireland (2005 to 2018), with Prof. Sylvia M. Draper – N- and S-doped graphenes, complexes of N-heterosuperbenzene, azafluoranthenes and pyridyl polyphenylenes, and inorganic polymers). I have received many Research Awards including CVCD Excellence Award in 2012 for the Most Outstanding Senior Researcher in Physical Sciences. I was the Editor-in-Chief of the OUSL Journal of The Open University of Sri Lanka for 3 years (2014-2016).

ResearchGate: https://www.researchgate.net/profile/Sarath-Perera

RI Score 419  Citations 1169; h-index 19

Google Scholar: Citations 1312; h-index 18 

https://scholar.google.com/citations?hl=en&user=YA1z0xEAAAAJ&view_op=list_works&sortby=pubdate

YouTube:

https://www.youtube.com/channel/UCgeys36Y1qm_aTf_HmgyySg

CV

Electroactive polymers
Catalysis
Organic and Inorganic Synthesis

Inorganic and Organometallic Chemistry, Use of metal complexes in organic synthesis, Boron Chemistry, N- and S-doped polyphenylenes, graphene and their complexes

Course Coordination:
Undergraduate courses
Inorganic Chemistry (CYU4300)
Organometallic Chemistry (CYU5300)
Literature Project in Chemistry (CYU5310)
Research Project in Chemistry (CYU5611)

Lecture courses for the B.Sc. Special Degree
Advanced Organometallic Chemistry (CYU6600)
Inorganic NMR Spectroscopy (CYU6304)
Structural Chemistry (CYU6304)
Chemistry of Nitrogen (CYU6301)
Inorganic polymers (CYU6301)

Supplementary online components developed, visit https://learnousl.ou.ac.lk/my/
Inorganic Chemistry (CYU4300)
Organometallic Chemistry (CYU5300)
Literature Project in Chemistry (CYU5310)
Research Project in Chemistry (CYU5611)
Understanding Law (LLU3261)
Inorganic Spectroscopy and Structural Chemistry (CYU6304)

Audio/video materials produced:
A video on “s-Block Elements” covering properties and reactions of s-block elements and also chemical tests for cations.
A video on “3d-elements” covering properties, reactions and uses of 3d-elements and also chemical tests for common cations.
A video on “Organometallic Chemistry – Catalysis” covering reaction types, common catalysts and their applications.
A video on “p-Block Elements” covering properties and reactions of p-block elements and also chemical tests for common anions.
A video on “Basic Concepts in Organometallic Chemistry” covering hapticity, types of ligands, electron count, and bonding in transition metal compounds.

82. Beverages of coffee and phytochemicals in Coffea arabica and Coffea canephora: A Review. D. T. Dulmini and S. D. Perera. OUSL Journal, 2023, 18(2), in press.

81. Syntheses of Au(III) and Au(I) Complexes of 3,4,5,6-Tetraphenyl-2,2´-bipyridine. D. Perera. OUSL Journal, 2023, 18(1), 85-98. DOI: 10.4038/ouslj.v18i1.7600

80. Synthesis of tricarbonyl Re(I) complexes of N and P donor ligands S. D. Perera.  OUSL Journal, 2022, 17(2), 7-27. DOI: 10.4038/ouslj.v17i2.7578

79.Development of mononuclear (arene)ruthenium complexes as anticancer agents: A review. U. Amarasinghe and S. D. Perera. OUSL Journal, 2022, 17(1), 65-95. DOI: http://doi.org/10.4038/ouslj.v17i1.7567

78. Overview of e-cigarettes and e-liquids.Rajarata University Journal, S. D. Perera and A. D. T. Dulmini. 2022, 7(1), 30-35. http://repository.rjt.ac.lk/handle/123456789/4727

77. Polythiophene films containing anthraquinone groups. S. D. Perera.Rajarata University Journal, 2021, 6(2),        36-40.http://repository.rjt.ac.lk/handle/123456789/3613

76. Synthesis of silver(I) complexes containing N and P donor ligands, S. D. Perera, OUSL Journal, 2021, 16(1), 55-74. DOI: http://doi.org/10.4038/ouslj.v16i1.7518

75. Synthesis of platinum(II) complexes of a pyridyl azafluoranthene ligand, S. D. Perera, Rajarata University Journal, 2021, 6(1), 29-36.

74. Synthesis of cyclometallated Pt(II) complexes of a bulky bipyridine ligand, S. D. Perera, OUSL Journal, 2020, 15(1), 27-42.  http://doi.org/10.4038/ouslj.v15i1.7486

73. Synthesis of homo and heteroleptic Cu(I) complexes with chelating N and P donor ligands, D. Perera, Rajarata University Journal, 2020, 5(1), 29-34.

72. [2+2+2] cyclotrimerisation as a convenient route to 6N-doped nanographenes: a synthetic introduction to the hexaazasuperbenzene family. L. P. Wijesinghe, S. D. Perera, E. Larkin, G. M. Ó Máille, R. Conway-kenny, B. S. Lankage, L. Wang and S. M. Draper, RSC. Adv., 2017, 7, 24163-67.  DOI: 10.1039/c7ra02648j

71. Synthesis of phenanthroline-based polyphenylenes via a Diels-Alder cycloaddition reaction. B. S. Lankage, S. D. Perera, and S. M. Draper, Rajarata University Journal, 2015, 3, 44-53.

70. Methoxy Functionalisation: Exerting Synthetic Control of the Supramolecular and Electronic Structure of Nitrogen-doped nanographenes. L. P. Wijesinghe, B. S. Lankage, G. M. Ó Máille, S.  D. Perera, D. Nolan, L. Wang and S. M. Draper, J. Chem. Soc., Chem. Commun., 2014, 50,10637. DOI: 10.1039/C4CC03577A

69. Intriguing Diels-Alder products: chiral centres with an added twist. C. Delaney, S. D. Perera, G. M. Ó Máille and S. M. Draper, J. Chem. Soc., Chem. Commun., 2014, 50,1599. DOI: 10.1039/c3cc48641a

68. Oxidative bond formation in di-thienyl polyphenylenes: the optical and electrochemical consequences. C. J.  Matin, B. Gil, S. D. Perera and S. M. Draper, Eur. J. Org. Chem., 2011, 3491. DOI: 10.1002/ejoc.201100332

67. Synthesis and coordination chemistry of N-doped polyphenylenes. S. D. Perera, R. Quesada and S. M.Draper, OUSL Journal, 2010, 6, 57-73. DOI: 10.4038/ouslj.v6i0.4114

66. Thienyl directed polyaromatic C-C bond fusions: S-doped hexabenzocoronenes. C. J. Matin, B. Gil, S. D. Perera and S. M. Draper, J. Chem. Soc., Chem. Commun., 2011, 47, 3616. DOI: 10.1039/c0cc05231k

65. Syntheses and Characterization of the Complexes of molybdenum, tungsten and palladium with 2‑diacetylpyridine- (1R)-(-)-fenchone azine. M. Ahmad, I. M. Isa, B. L. Shaw and S. D. Perera. Jurnal Sains dan Matematik, 2010, 2(1), 56.

64. Coordination chemistry of the benzaldehyde−(1R)−(-)−fenchone azine and derivatives Fench=NN=C(H)−C6H4X (X = H, Cl, Br, OMe or NO2 in the meta or para positions) with palladium. M. Ahmad, I. M. Isa,  B. L. Shaw  and S. D. Perera, Jurnal Sains dan Matematik, 2009,  1(1), 11.

63. Rhodium and palladium complexes of a pyridyl-centred polyphenylene derivative, C. M. A. Ollangnier, S. D. Perera, C. M. Fitchett and S. M. Draper, J. Chem. Soc. Dalton Trans. 2008,  283.

DOI: 10.1039/B709818A

62. (Arene)Ru(II) complexes of P-N ligands. S. D. Perera, OUSL Journal, 2007, 4, 72-77. DOI: 10.4038/ouslj.v4i0.339

61. Macropolyhedral boron-containing cluster chemistry: The unique nido-five-vertex-<B2>-nido-ten-vertex conjuncto structure of [(h5-C5Me5)2Rh2B11H15] via an unexpected cluster-dismantling, Michael J. Carr, Sarath D. Perera, et al., J. Chem. Soc. Chem. Commun. 2007, 3559. DOI: 10.1039/b709470a

60. Macropolyhedral boron-containing cluster chemistry. Cluster opening and B-frame rearrangement in the reaction of B16H20 with [{IrCl2(5-C5Me5)}2. Synchrotron X-ray structures of [h5-C5Me5)2Ir2B16H17Cl] and  [h5-C5Me5)2Ir2B16H15Cl].  M. J. Carr, S. D. Perera, etal, J. Chem. Soc. Dalton Trans. 2006, 5221. DOI: 10.1039/B611734A

59. Macropolyhedral boron-containing cluster chemistry.  An unusual ‘neo-nido’ ten-vertex subcluster configuration in a [(PPh­3)2RuB16H20] species, M. J. Carr, S. D. Perera, etal., J. Organomet. Chem., 2005, 690, 2857. DOI: 10.1016/j.jorganchem.2005.02.027

58. Macropolyhedral boron-containing cluster chemistry: two-electron variations in intercluster bonding intimacy. Contrasting structures of 19-vertex [h5-C5Me5)HIrB18H19(PHPh2)] and [5-C5Me5)HIrB18H18 (PH2Ph)] .  S. L. Shea, T. Jelinek, S. D. Perera, B. Stibr, M. Thornton-Pett and J. D. Kennedy, Inorg. Chim. Acta., 2004, 357, 3119. DOI: 10.1016/j.ica.2004.03.041

57. Macropolyhedral boron-containing cluster chemistry: Ligand-induced two-electron variations of intercluster bonding intimacy. Structures of nineteen-vertex [h5-C5Me5)HIrB18H19(PMe2Ph)] and the related carbene compound [h5-C5Me5)HIrB18H19{C(NHMe)2}] .  S. L. Shea, T. Jelinek, S. D. Perera, B. Stibr, M. Thornton-Pett and J. D. Kennedy, J. Chem. Soc. Dalton Trans. 2004, 1521. DOI: 10.1039/B404322G

56. Intramolecular and supramolecular cluster interactions.  S. L. Shea, K. S. D. Perera, etal., Boron Chemistry at the beginning of the 21st centuary. 2003, pp 27-35 (chapter in book). DOI: 10.1002/chin.200452245

55. Polyhedral Boron-containing cluster chemistry. Aspects of architecture beyond the icosahedron: Some recent supermolecular and supramolecular developments.  S. L. Shea, J. Bould, M. G. S. Londesborough, S. D. Perera, etal., Pure Appl. Chem. 2003, 75, 1239. DOI: 10.1351/pac200375091239

54. Uni-, bi- and ter-dentate complexes formed from PPh2CH2C(R)=NNHC(=O)Ph (R = But, Ph) and Pd or Pt.Ahmad, S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc. Dalton Trans. 2002, 1594. DOI: 10.1039/B111079A

53. Aryl halide coordination to Ru(II): Crystal structure of mer,trans-[RuCl2 (PPh3){PPh2CH2C(But)=N-N=CH(C6H3F2-2,6)}]. S. D. Perera, B. L. Shaw and M. Thornton-Pett. Inorg. Chim. Acta., 2001, 325, 151.   DOI: 10.1016/S0020-1693(01)00633-8

52. Activation of C-X (X = Cl or Br) bonds in 2-halobenzaldehydes as their 2-pyridylhydrazone derivatives: Oxidative addition to tungsten(0) to give aryl-tungsten(II) complexes. S. D. Perera, J. J. F. Sanchez and B. L. Shaw. Inorg. Chim. Acta., 2001, 325, 175. DOI: 10.1016/S0020-1693(01)00644-2

51. Synthesis and spectroscopic characterization of platinum complexes of pyrrole azine phosphine. Shamsuddin, S. D. Perera and B. L. Shaw. ACGC Chem. Res. Commun., 2000, 10, 33.

50. Chelating diphosphine-palladium(II) dihalides; Outstandinly good catalysts for Heck Reactions of aryl halides. B. L. Shaw and S. D. Perera.  J. Chem. Soc., Chem. Commun., 1998, 1863. DOI:  10.1002/chin.199852119

49. Highly active, stable, catalysts for the Heck Reaction; Further speculations on the mechanism. B. L. Shaw, S. D. Perera and E. M. Staley.  J. Chem. Soc., Chem. Commun., 1998, 1361. DOI: 10.1039/a802642d

48. Synthesis and reactions of ene-hydrazone diphosphine iridium complexes and related species. L. Shaw and S. D. Perera.J. Chem. Soc., Dalton Trans., 1998, 2887. DOI: 10.1039/a802073f

47. Complexes of the (1R)-(+)-camphor azine diphosphines Z,Z-3,3′-Ph2PnC10H15=N-N=C10H15PnPh2 and Z,Z-3,3′-Ph2PxC10H15=N-N=C10H15PxPh2 (x = exo ; n = endo) with group 6 metal carbonyls: crystal structures of the ligands and fac-[W(CO)3{Ph2PxC10H15=N-N=C10H15PxPh2}] B. L. Shaw, N. Iranpoor, D. Perera, M. Thornton-Pett and J. D. Vessey. J. Chem. Soc., Dalton Trans., 1998, 1885, DOI: 10.1039/A801585F

46. Macropolyhedral boron-containing cluster chemistry. [PtMe2(PMe2Ph)2] as a cluster metallating agent. Isolation and characterisation of nineteen-vertex [(PMe2Ph)HPt-h4syn-B18H19(PMe2Ph)] and  eighteen-vertex  [(PMe2Ph)2PtS2B15H14(NHCOMe)]   P. Kaur, A. Brownless, S. D. Perera, P. A. Cooke, T. Jelinek, J. D. Kennedy, B. Stibr and M. Thornton-Pett.. J. Organomet. Chem., 1998, 557, 181.DOI: 10.1016/S0022-328X(97)00666-9

45. Some chlorocarbonylruthenium(II) complexes of P,N-donor ligands: Crystal structures of  [RuCl(CO) {PPh2CH2C(But)=NNH2}2]Cl and fac,cis-[RuCl2(CO){PPh2CH2C(But)=N-N=C(But)CH2PPh2}] U. Ike, S. D. Perera, B. L. Shaw and M. Thornton-Pett. Inorg. Chim. Acta., 1998, 279, 95. DOI: 10.1016/S0020-1693(98)00045-0

44. Chemistry of the azine phosphine ligand Z,E-PPh2CH2C(But)=N-N=CMe(C6H4NO2-4): Crystal structure of  [Mo(CO)4{PPh2CH2C(But)=N-N=CMe(C6H4NO2-4)}].  S. D. Perera, B. L. Shaw, D. J. Shenton and Thornton-Pett. Inorg. Chim. Acta., 1998, 270, 312. DOI: 10.1016/S0020-1693(97)05864-7

43. Novel chemistry of rhodium induced by a new type of ligand, a phosphino-N-benzoylhydrazone: Crystal structure of  [Rh(CO)(C{CO2Me}=CHCO2Me {PPh2CH(C{CO2Me}=CCO2Me)C(But)=N-N=C(Ph)O}, Ahmad, S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc. Dalton Trans. 1997, 2607. DOI: 10.1039/a702196h

42. Macropolyhedral boron-containing cluster chemistry. Isolation and characterization of twenty-one-vertex [(PMe2Ph)3HReB20H15Ph(PHMe2)]. P. Kaur, S. D. Perera, T. Jelinek, B. Stibr, J. D. Kennedy, W. Clegg and  M. Thornton-Pett. J. Chem. Soc., Chem. Commun., 1997, 217. DOI: 10.1039/a607112k

41. Complexes of Cu, Ag and Au with Z,Z-PPh2CH2C(But)=N-N=C(But)CH2PPh2 containing nine-membered rings:crystal structure of [AuCl{Z,Z-PPh2CH2C(But)=N-N=C(But)CH2PPh2}]. P. A. Cooke, S. D. Perera, L. Shaw, M. Thornton-Pett and J. D. Vessey. J. Chem. Soc. Dalton Trans. 1997, 435. DOI: 10.1039/a606000e

40. A new method of creating coordinative unsaturation: synthesis and reactions of a reactive iridium(I) complex [Ir(CO){PPh2CH2C(But)=N-N=C(But)CH2PPh2}]PF6: structures of [Ir(CO)(h2-L){PPh2CH2C(But)=N-N=C(But)CH2PPh2}]PF6(L = MeO2CCºCCO2Me or N-Methylmaleamide). D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc. Dalton Trans. 1996, 3111. DOI: 10.1039/DT9960003111

39. Complexes of tert-butyl dipheylphosphinomethyl ketone N-phenylhydrazone, Z-PPh2CH2C(But)=NNHPh with Mo, Pd or Pt. Crystal structure of cis-[PdCl2{Z-PPh2CH2C(But)=NNHPh}2]. Ahmad, S. D. Perera, B. L. Shaw and M. Thornton-Pett. Inorg. Chim. Acta., 1996, 245, 59. DOI: 10.1016/0020-1693(95)04806-5

38. p-2-Methylallylpalladium(II) complexes of an azine diphosphine containing nine-membered chelate rings: crystal structure of [(h3-2-MeC3H4)Pd{E,Z-PPh2CH2C(But)=N N=C(But)CH2PPh2}]. Cermak, S. D. Perera, B. L. Shaw and M. Thornton-Pett. Inorg. Chim. Acta., 1996, 244, 115. DOI: 10.1016/0020-1693(95)04761-1

37. A General method of generating agostic interaction between Ru(II) and C-H bonds of tert-butyl, methyl, aryl, heterocyclic or alkenyl groups using azine phosphines. S. D. Perera and B. L. Shaw.  J. Chem. Soc., Dalton Trans., 1995, 3861. DOI: 10.1039/DT9950003861

36. Syntheses and crystal structures of Mo(0) and Pd(II) complexes of 4-tert-butyl-2-diphenylphosphinocyclohexanone N,N-dimethylhydrazone. S. D. Perera, B. L. Shaw and M. Thornton-Pett. Inorg. Chim. Acta., 1995, 242, 7. DOI: 10.1016/0020-1693(95)04618-J

35. Bi- and ter-dentate (P-N-S) complexes of a new thioether azine-phosphine PPh2CH2C(But)=N-N=C(Me)CH2S(C6H4Me-4) with Mo, W or Pt. S. D. Perera, M. Shamsuddin and B. L. Shaw. Can. J. Chem., 1995, 73, 1010. DOI: 10.1139/v95-125

34. Highly selective mono- and di-alkylation of the backbone of  complexes of type fac-[M(CO)3{E,Z-PPh2CH2C(But)=N-N=C(But)CH2PPh2}] (M = Mo or W): U. U. Ike, S. D. Perera, L. Shaw and M. Thornton-Pett. J. Chem. Soc. Dalton Trans. 1995, 2057. DOI: 10.1039/dt9950002057

33. A general strategy for inducing C-H bond fission (cycloiridation) in some aryl, heterocyclic, alkenyl or   alkyl groups in azines derived from aldehydes or methyl ketones: S. D. Perera, B. L. Shaw and M. Thornton- Pett. J. Chem. Soc., Dalton Trans., 1995, 1689. DOI: 10.1039/DT9950001689

32. Crystal structure of [{Mo(=O)Cl2(O=PPh2C10H15=NH)} 2O]. A binuclear oxygen bridged oxomolybdenum(V) complex containing chelating imino-phosphine oxide ligands.  S. D. Perera, B. L. Shaw and M. Thornton-Pett. Inorg. Chim. Acta., 1995, 234, 185. DOI: 10.1016/0020-1693(95)04492-R

31. Novel iridium complexes of an azine diphosphine: Reactive Ir(I) species formed by a unique isomerisation of an Ir(III) hydride. A new method of creating coordinative unsaturation. S. D. Perera and B. L. Shaw. J. Chem. Soc., Chem. Commun., 1995, 865. DOI: 10.1039/c39950000865

30. Cyclometallation of a pentafluorobenzaldehyde azine phosphine via a C-F bond fission by Ir(I): Crystal stucture of [IrCl2(CO){PPh2CH2C(But)=N­-N=CH(C6F4)}]. S. D. Perera, B. L. Shaw and M. Thornton-Pett. Inorg. Chim. Acta., 1995, 233, 103. DOI: 10.1016/0020-1693(95)04457-K

29. A systematic method of promoting an aryl fluoride to coordinate to Ru(II). S. D. Perera and B. L. Shaw. Inorg. Chim. Acta., 1995, 228, 127. DOI: 10.1016/0020-1693(94)04156-P

28. Cyclometallation of azine phosphines of type Z,E-PPh2CH2C(But)=N-N=CHR (R = an aromatic or heterocyclic group) involving X-Y (X = C, N or O; Y = H, I or Br)  bond fission by Pt(II). D. Perera and B. L. Shaw. J. Chem. Soc., Dalton Trans., 1995, 641. DOI: 10.1039/DT9950000641

27. Complexes of the bidentate ligands  Z-PPh2CH2C(But)=NNR2 (R = Hor Me) with Rh and Ir, D. Perera and B. L. Shaw. J. Chem. Soc., Dalton Trans., 1995, 633. DOI: 10.1039/DT9950000633

26. Terdentate (P­-N-N) complexes of a new pyridyl azine phosphine Z,E-PPh2CH2C(But)=N-N=C(Me)C5H2N and its deprotonated derivative (an azo-phosphine) with transition metals. K. K. Hii, S. D. Perera and B. L. Shaw. J. Chem. Soc., Dalton Trans., 1995, 624. DOI: 10.1039/dt9950000625

25. Terdentate (P­-N-O) Complexes formed from Z,E-PPh2CH2C(But)=N-N=CH(C6H4OH-2) or Z,E-PPh2CH2C(But)=N-N=CH{C6H4(OH-2)(OMe)2-4,6} with Ni, Pd, Pt, Rh or Ir. K. K. Hii, S. D. Perera and B. L. Shaw. J. Chem. Soc., Dalton Trans., 1994, 3589. DOI: 10.1039/DT9940003589

24. Deprotonation, deuteriation and substitution of the backbone of some azine diphosphine complexes of Pd and Pt: Structures of [PtI{PPh2CH=C(But)N-N=C(But)CH2PPh2}] and [PtCl{PPh2CH2C(But)=N-N=C(But)CH2PPh2}][picrate]. S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc., Dalton Trans., 1994, 3311. DOI: 10.1039/DT9940003311

23. Cyclometallation of 2-halogeno-mixed azine phosphines of  type PPh2CH2C(But)=N-N=CH(C6H4X-2) (X = I, Br, or Cl) involving a facile C-X bond fission at W(0). S. D. Perera and B. L. Shaw. J. Organomet. Chem., 1994, 479, 117. DOI: 10.1016/0022-328X(94)84098-9

22. A general method of promoting oxidative addition of C-H bonds to Ir(I) using azine phosphines, D. Perera and B. L. Shaw. J. Chem. Soc., Chem. Commun., 1994, 1203. DOI: 10.1039/C39940001203

21. A general method of promoting agostic interactions (Ru-H-C) using azine phosphines. D. Perera and B. L. Shaw. J. Chem. Soc., Chem. Commun., 1994, 1201. DOI: 10.1039/C39940001201

20. Some chemistry with a chiral phosphine generated from fenchone-pinacolone mixed azine: Crystal structure of Z,E-PPh2CH2C(But)=N-N=C10H16. S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc., Dalton Trans., 1994, 713. DOI: 10.1039/DT9940000713

19. Complexes of the bidentate ligands  PPh2CH2C(But)=NNR2 (R = H or Me) and PPh2CH2C(But)=N-N=CHPh  with Pd(II) and Pt(II). Crystal structure of cis-[Pt{PPh2CH2C(But)=NNH}2]. K.K. Hii, D. Perera, B. L. Shaw and M. Thornton-Pett.J. Chem. Soc., Dalton Trans., 1994, 103. DOI: 10.1039/DT9940000103

18. Reactions of an azine diphosphine with  Pt(II) and Pd(II) and the formation of a novel heterocyclic diphosphine ligand. Structure of [PdI2{PPh2CH=C(But)N-N=C(But)CH2PPh}]. S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc., Dalton Trans., 1993, 3653. DOI: 10.1039/DT9930003653

17. Crystal structure, and variable temperature proton and  carbon-13 NMR spectra  of the 9-membered ring complex  cis-[Cr(CO)4{PPh2CH2C(But)=N-N=C(But)CH2PPh2}]. S. D. Perera, B. L. Shaw, M. Thornton- Pett and J. D.Vessey.  J. Organomet. Chem., 1993, 462, 221. DOI: 10.1016/0022-328X(93)83361-X

16. A seven bond coupling, 7J(PP) or through space coupling in  the azine diphosphine Z,Z-PPh­2CH2­C(But)=N-N=C(But)CH2PPh2: Structure of Z,Z-P(=O)Ph­2CH2C(But)=N N=C(But)CH2P(=O)Ph2. S. D. Perera, B. L. Shaw, M. Thornton-Pett and J. D. Vessey.  Inorg. Chim. Acta., 1993, 207, 175. DOI: 10.1016/S0020-1693(00)90707-2

15. The synthesis of endo-3-diphenylphosphino-(1R)-(+)-camphor (L) and some of its complexes with Pd(II),  Pt(II) and Rh(I):  Crystal structures of L and of cis-[PdCl2L2]. S. D. Perera, B. L. Shaw, M. Thornton-Pett and J. D. Vessey.  Inorg. Chim. Acta., 1992, 198-200, 149. DOI: 10.1016/S0020-1693(00)92356-9

14. New bidentate ligands of the types PPh2CH2C(But)=NNR2 (R = H or Me) and PPh2CH2C(But)=N-N=CHPh and their complexes with group 6 metal carbonyls. K. K. Hii, S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc., Dalton Trans., 1992, 2361.  DOI: 10.1039/DT9920002361

13. Complexes of an azine diphosphine with group 6 metalcarbonyls. Crystal structures of Z,Z‑PPh2CH2C(But)=N-N=C(But)CH2PPh2 and fac-[Mo(CO)3{E,Z-PPh2CH2C(But)=N-N=C(But)CH2PPh2}]. D. Perera, B. L. Shaw and M. Thornton-Pett. Dalton Trans., 1992, 1469. DOI: 10.1039/DT9920001469

12. 3-Diphenylphosphino-(1R)-(+)-camphor dimethylhydrazone complexes of Pt(II) and Pd(II); Crystal structure of [PdCl2(PPh2C10H15=NNMe2)]. S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc., Dalton Trans., 1992, 999. DOI: 10.1039/dt9920000999

11. A novel redox/fission reaction of the molybdenum tetracabonyl complex of 3-diphenylphosphino-(1R)-(+)-camphor dimethylhydrazone: Structure of [Mo(CO)4(PPh2C10H15=NH)]. S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Organomet. Chem., 1992, 428, 59. DOI: 10.1016/0022-328X(92)83219-8

10. Polypyrrole as a support for electrocatalytic materials. D. Curran, J. Grimshaw and S. D. Perera. Chem. Soc. Rev., 1991, 20, 391. DOI: 10.1039/cs9912000391

9. 3-Diphenylphosphino-(1R)-(+)-camphor dimethylhydrazone and its complexes with group 6 metal carbonyl: Crystal structures of the hydrazone and [Mo(CO)4(PPh2C10H15=NNMe2)]. S. D. Perera, B. L. Shaw and M. Thornton-Pett. J. Chem. Soc., Dalton Trans., 1991, 1183. DOI: 10.1039/dt9910001183

8. Complexes including acetylides formed from 3-diphenyl-phosphinocamphor and Pt or Pd. D. Perera and B. L. Shaw. J. Organomet. Chem., 1991, 402, 133. DOI: 10.1016/0022-328X(91)80089-3

7. Electroactive poly(amino acids) Part 3. Ferrocene-doped poly(L-lysine) as an electroactive layer on platinum. A. M. Abeysekera, J. Grimshaw and S. D. Perera. J. Chem. Soc., Perkin Trans. 2, 1990, 1797. DOI: org/10.1039/p29900001797

6. Redox behaviour of polypyrrole film containing naphthoquinone and  benzoquinone groups. Grimshaw and S. D. Perera.J. Electroanal. Chem., 1990, 281, 125. DOI: 10.1016/0022-0728(90)87034-H

5. Electrochemical behaviour of poly(thiophene-benzoquinone) films. Grimshaw and S. D. Perera.J. Electroanal. Chem., 1990, 278, 287. DOI: 10.1016/0022-0728(90)85140-Z

4. Poly(pyrrole-pyromellitimide) modified electrodes. Grimshaw and S. D. Perera. J. Electroanal. Chem., 1990, 278, 279. DOI: 10.1016/0022-0728(90)85139-V

3. Redox behaviour of a polypyrrole modified electrode where the pyrrole has N-substituted 9-cyanoanthracene groups. J. Grimshaw and S. D. Perera.  J. Electroanal. Chem., 1989, 265, 335.

DOI: 10.1016/0022-0728(89)80204-9

2. Electroactive poly(amino acids) Part 2. Copolymers of N-4-nitrobenzoyl-L-lysine with inactive amino acids. Modified electrodes with these polymers and polypyrrole and with poly{1-[2-(4-nitrobenzoyl)aminoethyl] pyrrole}.  J. Grimshaw and S. D. Perera. J. Chem. Soc., Perkin Trans. 2, 1989, 1711.DOI: 10.1039/P29890001711

1. Electroactive poly(amino acids) Part 1. Modified electrodes from Pt with an adsorbed film of  poly(N-4-nitrobenzoyl-L-lysine). A. M. Abeysekera, J. Grimshaw, S. D. Perera and D. Vipond, Chem. Soc., Perkin Trans. 2, 1989, 43. DOI: 10.1039/P29890000043

Open Educational Materials authored in English and Sinhala Media, visit

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  1. Biomolecules & Biopolymers (ffcj uyd wKq iy ffcj nyqwjhúl)

English:https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/Biomolecules%20and%20Biopolymers.pdf

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  1. Fats, Oils & Detergents (fïo” f;,a iy CId,l)

English: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/fats%20oils%20and%20detergents.pdf

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  1. Food Additives (wdydr wdl,k øjH)

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  1. Health and Medicine (fi!LHh iy fnfy;a)

English: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/Health%20and%20medicine.pdf

Sinhala: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/Sinhala/Health%20and%20medicine.pdf

  1. Synthetic Polymers (lD;%su nyqwjhúl yd tajdfha fh§ï)

English:https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/synthetic%20polymer%20and%20their%20application.pdf

Sinhala: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/Sinhala/synthetic%20polymer.pdf

  1. The Periodic Table and Periodicity (wdj¾;s;d j.=j iy tys .=K)

English: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/Periodic%20Table.pdf

Sinhala: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/Sinhala/Periodic%20table.pdf

  1. Descriptive Chemistry of Elements: s-Block (s-dkqj )

English: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/s-block.pdf

  1. Descriptive Chemistry of Elements: d-Block (d-dkqj)

English: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/OER%20d-Block%20Final%20(English).pdf

Sinhala: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/Sinhala/OER%20d-Bolck%20(Sinhala)%20Final.pdf

  1. Descriptive Chemistry of Elements: p-Block (p-dkqj)

English: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/p-Block.pdf

  1. Hydrogen (yhsv%cka)

English: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/Hydrogen.pdf

Sinhala: https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/Sinhala/Hydrogen.pdf

  1. Safety and Good Laboratory Practices (iqrlaIl iy hym;a úoHd.dr ms<sfj;a)

English:https://www.ou.ac.lk/home/images/OER/pdf/Chemistry/English/Lab.%20Safety.pdf

 

Articles in Newsletters

Open Quarterly

 

27. Soft Drinks -Thirst quenchers. A. D. T. Dulmini and K. Sarath D. Perera, The OPEN       QUARTERLY, 2023, I-II, 44-46.

26. Ceylon Cinnamon (in Sinhala). A. D. T. Dulmini and K. Sarath D. Perera, The OPEN       QUARTERLY, 2023, I-II, 5-8.

25. Elephant: The giant in the wild. A. D. T. Dulmini and K. Sarath D. Perera, The OPEN       QUARTERLY, 2022, III-IV, 34-36. http://repository.ou.ac.lk/handle/94ousl/2392

24. Electronic cigarette (in Sinhala). A. D. T. Dulmini and K. Sarath D. Perera, The OPEN       QUARTERLY, 2022, III-IV, 30-33. http://repository.ou.ac.lk/handle/94ousl/2391

23. Sri Lankan curry powder (in Sinhala). A. D. T. Dulmini and K. Sarath D. Perera,

      The OPEN QUARTERLY, 2022, III-IV, 24-28.        http://repository.ou.ac.lk/handle/94ousl/2390

22. Genetically modified foods, D. T. Dulmini and K. Sarath D. Perera, The OPEN QUARTERLY, 2022, I-II, 36-38. http://repository.ou.ac.lk/handle/94ousl/2177

21. Tattoos: Artwork on skin, M. Qader and K. Sarath D. Perera, The OPEN   QUARTERLY, 2022, I-II, 30-32. http://repository.ou.ac.lk/handle/94ousl/2176

20. Aflatoxin: The green toxin found in food (in Sinhala). D. T. Dulmini and K. Sarath D. Perera, The OPEN QUARTERLY, 2022, I-II, 25-27.         http://repository.ou.ac.lk/handle/94ousl/2175

19. Angampora: Ancient Sri Lankan martial art (in Sinhala). D. T. Dulmini and K. Sarath D. Perera, The OPEN QUARTERLY, 2022, I-II, 15-18. http://repository.ou.ac.lk/handle/94ousl/2174

18. How to minimise the adverse effects of pesticide? (in Sinhala). D. T. Dulmini and K. Sarath D. Perera, The OPEN QUARTERLY, 2020, IV, 15-19.

17. Miraculous murunga tree, Sarath D. Perera, The OPEN QUARTERLY, 2020, IV, 12-14. http://repository.ou.ac.lk/handle/94ousl/2076

16. Love and hate of chocolates, A. D. T. Dulmini and K. Sarath D. Perera, The OPEN QUARTERLY, 2020, III, 26-27. http://repository.ou.ac.lk/handle/94ousl/2078

15. Are alcoholic beverages good for you? (in Sinhala). D. T. Dulmini and K. Sarath D.Perera, The OPEN QUARTERLY, 2020, I, 22-23.

14. Change your plate & change your fate: Ayurvedic diet, D. T. Dulmini and K. Sarath D. Perera, The OPEN QUARTERLY, 2020, I, 19-21.       http://repository.ou.ac.lk/handle/94ousl/2069

13. Alcoholic beverages: Devils in disguise, Sarath D. Perera, CCS Newsletter, 2019, 18(3), 2-3. http://www.ichemc.edu.lk/wp-content/uploads/2019/02/Vol-18-No.-3.pdf

12. The sense of wonders of perfumes, M. Qader and K. Sarath D. Perera, The OPEN QUARTERLY, 2019, III, 15-16. http://repository.ou.ac.lk/handle/94ousl/2068

11. E-numbers or hidden chemicals, De Silva and K. Sarath D. Perera, The OPEN QUARTERLY, 2019, II, 21-23. http://repository.ou.ac.lk/handle/94ousl/1531

10. Artificial sweeteners, De Silva and K. Sarath D. Perera, The OPEN QUARTERLY, 2019, I, 22-24. http://repository.ou.ac.lk/handle/94ousl/2066

9. The magic of coconut oil. De Silva and K. Sarath D. Perera, The OPEN   QUARTERLY, 2018, IV, 16. http://repository.ou.ac.lk/handle/94ousl/2065

8. Vitamins: Micronutrients for good health. De Silva and K. Sarath D. Perera,

The OPEN QUARTERLY, 2018, III, 23-24. http://repository.ou.ac.lk/handle/94ousl/2067

7. Tea: A treasure for health and wealth. De Silva and K. Sarath D. Perera, The OPEN QUARTERLY, 2018, II, 24-25. http://repository.ou.ac.lk/handle/94ousl/399

6. Spices for taste, health & wealth. De Silva and K. Sarath D. Perera, The OPEN QUARTERLY, 2017, III, 11-12. http://repository.ou.ac.lk/handle/94ousl/379

5. The disaster of drugs: What is the way out? G. G. R, Pradeep and K. Sarath D. Perera, The OPEN QUARTERLY, 2017, II, 25-27. 10.13140/RG.2.2.16411.77603

4. Some food for thought about the food you eat. De Silva and K. Sarath D. Perera, The OPEN QUARTERLY, 2017, I, 7-9. http://repository.ou.ac.lk/handle/94ousl/376

3. The green is the new red: Better chemistry for greener world. Amith and K. Sarath D. Perera, The OPEN QUARTERLY, 2016, II, 27-28.                                                           http://repository.ou.ac.lk/handle/94ousl/348

2. Drug abuse, addiction, and the magic of “getting high”. G. G. R. Pradeep and K. Sarath D. Perera, The OPEN QUARTERLY, 2016, I, 30-32.    10.13140/RG.2.2.33188.99203

1. The good, the bad and the ugly of cosmetics. J. P. Thilakarathna and K. Sarath D. Perera, The OPEN QUARTERLY, 2016, I, 20-21. http://repository.ou.ac.lk/handle/94ousl/346

Articles published in chemistry in Sri Lanka

http://ichemcdr.com:8080/xmlui/handle/123456789/1

Search for Perera Sarath D 

http://www.ichemc.edu.lk/publications/chemistry-in-sri-lanka/

 

45. Elements in biology, K. Sarath D. Perera, Chemistry in Sri Lanka, 2023, 40(3), 37-40.

       http://ichemcdr.com:8080/xmlui/handle/123456789/269

44. Introduction to organometallic chemistry, K. Sarath D. Perera, Chemistry in Sri Lanka, 2023, 40(3), 32-36. http://ichemcdr.com:8080/xmlui/handle/123456789/268

43. 11B NMR spectroscopy, K. Sarath D. Perera, Chemistry in Sri Lanka, 2023, 40(3), 29-32.

       http://ichemcdr.com:8080/xmlui/handle/123456789/267

42. Importance of Garlic (Allium sativum), K. Sarath D. Perera and A. D. T. Dulmini, Chemistry in Sri Lanka, 2023, 40(3), 21-24. http://ichemcdr.com:8080/xmlui/handle/123456789/272

41. Styx numbers and rules of boron hydrides, K. Sarath D. Perera, Chemistry in Sri Lanka,       2023, 40(2), 54-57. http://ichemcdr.com:8080/xmlui/handle/123456789/242

40. Agostic interactions and metallacycles, K. Sarath D. Perera, Chemistry in Sri Lanka,       2023, 40(2), 52-53. http://ichemcdr.com:8080/xmlui/handle/123456789/244

39. Diels-Alder reaction, K. Sarath D. Perera, Chemistry in Sri Lanka, 2023, 40(2), 50-51.

      http://ichemcdr.com:8080/xmlui/handle/123456789/239

38. Phytochemical aspects of onions – Allium cepa L., K. Sarath D. Perera A. D. T. Dulmini Chemistry in Sri Lanka, 2023, 40(2), 45-49.  http://ichemcdr.com:8080/xmlui/handle/123456789/238

37. Palladium catalyzed coupling reactions, K. Sarath D. Perera, Chemistry in Sri Lanka,       2023, 40(1), 50-52. http://ichemcdr.com:8080/xmlui/handle/123456789/230

36. Alkyl metal complexes, K. Sarath D. Perera, Chemistry in Sri Lanka, 2023, 40(1), 48-49.

      http://ichemcdr.com:8080/xmlui/handle/123456789/229

35. Chemistry of radicals, K. Sarath D. Perera, Chemistry in Sri Lanka, 2023, 40(1), 44-48.

      http://ichemcdr.com:8080/xmlui/handle/123456789/228

34. Chemical constituents of the golden spice – Turmeric, K. Sarath D. Perera A. D. T. Dulmini Chemistry in Sri Lanka, 2023, 40(1), 34-37.       http://ichemcdr.com:8080/xmlui/handle/123456789/233

33. Metathesis and polymerization of olefins, K. Sarath D. Perera, Chemistry in Sri Lanka,  2022, 39(2), 65-68. http://ichemcdr.com:8080/xmlui/handle/123456789/201

32. Introduction to polymer chemistry, K. Sarath D. Perera, Chemistry in Sri Lanka, 2022, 39(2), 60-65. http://ichemcdr.com:8080/xmlui/handle/123456789/200

31. Introduction to coordination chemistry, K. Sarath D. Perera, Chemistry in Sri Lanka, 2022, 39(2), 57-60.http://ichemcdr.com:8080/xmlui/handle/123456789/199

30. Phytochemicals in Sri Lankan Curry Powder, K. Sarath D. Perera and A. D. T. Dulmini, Chemistry in Sri Lanka, 2022, 39(2), 48-51.

      http://ichemcdr.com:8080/xmlui/handle/123456789/202

29. UV-visible spectroscopy, K. Sarath D. Perera, Chemistry in Sri Lanka, 2022, 39(1),

      70-74. http://ichemcdr.com:8080/xmlui/handle/123456789/161

28. IR spectroscopy, K. Sarath D. Perera, Chemistry in Sri Lanka, 2022, 39(1), 66-70.

       http://ichemcdr.com:8080/xmlui/handle/123456789/155

27. Introduction to heterocyclic chemistry, K. Sarath D. Perera, Chemistry in Sri Lanka, 2022, 39(1), 62-65. http://ichemcdr.com:8080/xmlui/handle/123456789/154

26. Defense and destruction: Insight into chemical weapons, K. Sarath D. Perera and O. N. Malawalaarachchi, Chemistry in Sri Lanka, 2022, 39(1), 57-61. http://ichemcdr.com:8080/xmlui/handle/123456789/156

25. Nucleophilic substitution reactions, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(3), in press.

24. Arene metal complexes, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(3), in press.

23. Introduction to NMR spectroscopy, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(3), in press.

22. Phytochemicals and importance of cinnamon, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(3), in press.

21. Mass spectrometry, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(2), 58-62.

20. Monsanto and Cativa processes of acetic acid synthesis, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(2), 62-63.

19. Aromaticity and reactions of aromatic molecules/ions, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(2), 64-66.

18. Introduction to radiochemistry, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021,  38(1), 58-61.

17. Hydrogenation of olefins, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(1), 56-58.

16. Metal hydrides, K. Sarath D. Perera, Chemistry in Sri Lanka, 2021, 38(1), 54-56.

15. Chemical constituents of murunga tree, K. Sarath D. Perera and A. D. T. Dulmini, Chemistry in Sri Lanka, 2021, 38(1), 41-45.

14. Aflatoxins, K. Sarath D. Perera and A. D. T. Dulmini, Chemistry in Sri Lanka, 2021, 38(1), 32-36.

13. Metal carbonyls, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(3), 62-64.

12. Reductive elimination reactions, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(3), p 61-62.

11. Insertion and deinsertion reactions, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(3), p 60-61.

10. Biotoxins: Invisible threat to mankind, K, Sarath D. Perera and O. N. Malawalaarachchi, Chemistry in Sri Lanka, 2020, 37(3), 34-39.

9.   Water – The life saver, K, Sarath D. Perera and O. N. Malawalaarachchi, Chemistry in Sri Lanka, 2020, 37(3), 50-53.

8.   Oxidative addition reactions, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(2), 60-61.

7.    Substitution reactions, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(2), 58-59.

6.    Crystal Field Theory, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(2), 55-57.

5.    Chemical nature of pesticides, K, Sarath D. Perera and A. D. T. Dulmini, Chemistry in Sri Lanka, 2020, 37(2), 45-49.

4.    Valence Bond Theory, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(1), 31-32.

3.    Isomerism in coordination compounds, K. Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(1), 29-31.

2.    Chemistry of perfumes, M. M. Qader and K, Sarath D. Perera, Chemistry in Sri Lanka, 2020, 37(1), 26-29.

1.    Synthetic analogues of cannabinoids and cathinones, R. G. G. Roshan Pradeep and K. Sarath D. Perera, Chemistry in Sri Lanka, 2016, 33(1), 28-31.

  1. Complexes of [M(ppy)2Cl]2 (M = Ir, Rh) with N and P donor ligands. S. D. Perera, Ruhuna International Science and Technology Conference (RISTCON), 2023, 10, 9.
  1. Gold complexes of a bulky bipyridine ligand. S. D. Perera, Ruhuna International Science and Technology Conference (RISTCON), 2022, 9, 12.
  2. Synthesis of pyrrole derivatives with pendant anthracene groups. S. D. Perera, The Open University Research Sessions (OURS), 2021, 142.
  3. Synthesis of Pt(II) complexes of an pyridylazafluoranthene ligand. S. D. Perera, Ruhuna International Science and Technology Conference(RISTCON), 2020, 7, 13.
  4. Synthesis of hexabenzocoronene based (NNC) Pt(II) acetylides. S. D. Perera, Ruhuna International Science and Technology Conference(RISTCON), 2019, 6, 7.
  5. Coordination chemistry of a (N^N^C) palladacycle. S. D. Perera, International Open University Research Session (iOURS), 2018, p-86.
  6. Synthesis of homo and heteroleptic Ag(I) complexes based on N and P donor ligands. S. D. Perera, Chemistry in Sri Lanka, 2018, 35 (2), p-44.
  7. Syntheses of [Re(CO)3(NN)Cl] complexes of bulky N,N‑donor ligands. S. D. Perera, Ruhuna International Science and Technology Conference (RISTCON) , 2017, 4, p-15.
  1. Electrochemical behaviour of polythiophene films containing anthraquinone groups. S. D. Perera, Ruhuna International Science and Technology Conference (RISTCON), 2016, 3, 52.
  1. Synthesis of some Cu(I) complexes with bidentate N and P donors. S. D. Perera,Chemistry in Sri Lanka, 2015, 32 (2), p15
  2. Synthesis of cyclometallated Pt(II) complexes of a bipyridyl ligand. S. D. Perera,Chemistry in Sri Lanka, 2013, 30 (2), p34.
  3. Hexa-substituted benzene derivatives containing heteroaromatic groups via cyclotrimerization. S. D. Perera and S. M. Draper, Annual Academic Sessions, The Open University of Sri Lanka, 2011, 228.
  4. Synthesis and metal complexes of a novel polyphenylene with a fused phenanthroline moiety. S. D. Perera and S. M. Draper, Annual Academic Sessions, The Open University of Sri Lanka, 2011, 224.

      http://repository.ou.ac.lk/handle/94ousl/2103

  1. Synthesis of cyclometallated palladium(II) complexes derived from 3,4,5,6-tetraphenyl-2,2’-bipyridine.
  2. D. Perera and S. M. Draper, Annual Academic Sessions, The Open University of Sri Lanka, 2009, 153-6.
  3. Synthesis of an octasubstituted hexabenzoperylene derivative via cyclodehydrogenation of hexaarylbenzene.
  4. D. Perera and S. M. Draper, Annual Academic Sessions, The Open University of Sri Lanka, 2008, p-59.
  5. Synthesis of 7,8,9,10-tetrasubstituted fluoranthenes. S. D. Perera and S. M. Draper, Annual Academic Sessions, The Open University of Sri Lanka, 2008, p-41.
  1. Thiophene containing polyaromatic hydrocarbons, C. J. Martin, S. D. Perera and S. M. Draper, Advance in Sciences and Technology, 2008, 54, 120. 3rd International Conference on Smart materials, Structures & Systems, Sicily, Italy, 8-13, June, 2008. http://repository.ou.ac.lk/handle/94ousl/223
  1. Chemistry of 5,8-diphenyl-6,7-di(3-thienyl)-1,12-diazatriphenylene. S. D. Perera, C. M. Fitchett and S. M. Draper, Annual Academic Sessions, The Open University of Sri Lanka, 2007, p116.        http://repository.ou.ac.lk/handle/94ousl/228
  1. Synthesis of a large polyaromatic hydrocarbon with 23-fused rings. S. D. Perera and S. M. Draper, Annual Academic Sessions, The Open University of Sri Lanka, 2007, p-113.         http://repository.ou.ac.lk/handle/94ousl/226
  1. Metal complexes of 3,4,5,6-tetraphenyl-2,2’-bipyridine. S. D. Perera and S. M. Draper, Proc. Sri Lanka Assoc. Adv. Sci., (63rd Annual Session), 2007, 120. http://repository.ou.ac.lk/handle/94ousl/220
  2. Photophysical properties of novel fluoranthenes: A theoretical and experimental study. O. Rubio-Pons, P Fernandez, S. D. Perera, S. M. Draper and G. W. Watson, Photochemistry and Photophysics of Coordination Compounds, University of Dublin, Trinity College, Ireland, 24th-28th June, 2007, p-200.
  1. Coordination chemistry of an aryl(5-pyrimidyl) acetylene. S. D. Perera and S.M. Draper, Chemtech 2007, An International Conference, organised by Institute of Chemistry Ceylon, 20-23 June, 2007, p-59.       http://repository.ou.ac.lk/handle/94ousl/224
  1. Complexes of pyridyl azafluoranthenes with Mo and Pd. S. D. Perera, R. Quesada , and S. M. Draper, Chemtech 2007, An International Conference, organised by Institute of  Chemistry Ceylon, 20-23 June, 2007, p-58.  http://repository.ou.ac.lk/handle/94ousl/222
  1. S-Doped graphenes: Thieno-analogue of heterosuperbenzene. S. D. Perera, and S. M. Draper, Chemtech 2007, An International Conference, organized by Institute of Chemistry Ceylon, 20-23 June, 2007, p-57.

           http://repository.ou.ac.lk/handle/94ousl/179

  1. Synthesis and properties of a new N-heterosuperbenzene. S. D. Perera , and S. M. Draper, Chemtech 2007, An International Conference, organised by Institute of Chemistry, Ceylon, 20-23 June, 2007, p-32.         http://repository.ou.ac.lk/handle/94ousl/219
  1. Facile Synthesis of a highly fluorescent substituted derivative of twisted hexabenzoperylene. S. D. Perera       and S. M. Draper, Joint RSC meeting of UK Macrocycles & Supramolecular Chemistry Group and Coordination Chemistry Group, Queen’s University Belfast, 19-21st December 2006, page 105.

            http://repository.ou.ac.lk/handle/94ousl/170

  1. Polyaromatic derivatives of (3-thienyl) benzene. S. D. Perera , C. J. Martin and S. M. Draper, 1stEuropean Chemical Congress, Budapest, Hungary, 27-31st August, 2006, page 368. http://repository.ou.ac.lk/handle/94ousl/169
  1. New chemistry using phosphino-hydrazones or phosphino-azines as ligands.
  2. L. Shaw, S. D. Perera and M. Thornton-Pett, 2000 International Chemical Congress of Pacific basin Societies, Honolulu, Hawaii, December 14-29, 2000, page 62.
  1. Chelate assisted aryl C-X (X = Cl, Br) bond activation by tungsten. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (55th Annual Session), 1999, 228. http://repository.ou.ac.lk/handle/94ousl/108
  2. Rhodium complexes of an Azine diphosphine. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (55th Annual       Session), 1999, 227. http://repository.ou.ac.lk/handle/94ousl/105
  3. Relative stability of antidiabetic drug metformin with pharmaceutical excipients
  4. P. B. Herath, C. G. Hettiarachchi and S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (55th Annual Session) 1999, 217. http://repository.ou.ac.lk/handle/94ousl/107
  1. Use of palladium(II)-phosphine complexes in organic synthesis. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (54th Annual Session), 1998, 285. http://repository.ou.ac.lk/handle/94ousl/140
  2. A new synthetic route to platinaboranes. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (54th Annual       Session), 1998, 284. http://repository.ou.ac.lk/handle/94ousl/137
  3. Synthesis and reactivity of some iridium complexes of an azine diphosphine. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (54th Annual Session), 1998, 283. http://repository.ou.ac.lk/handle/94ousl/134
  1. Synthesis and chemistry of chiral diphosphines derived from camphor. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (54th Annual Session), 1998, 282. http://repository.ou.ac.lk/handle/94ousl/131
  2. Bis(phosphine)-complexes of an azine monophosphine with platinum.S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (54th Annual Session), 1998, 282. http://repository.ou.ac.lk/handle/94ousl/128
  3. Complexes of an azine diphosphine with ruthenium. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (53rd       Annual Session), 1997, 369.
  4. Cyclisation of MeO2CC≡CC O2Me at a rhodium center forming a (P-N-O-C) ligand.
  5. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (53rd Annual Session), 1997, 368.
  6. Rhodium complexes of a novel (P-N-O) ligand PPh2CH2C(But)=NNHC(=O)Ph.
  7. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (53rd Annual Session), 1997, 367.
  8. Synthesis and structure of a unique gold complex containing a 9-membered chelate ring with a large bite angle. S. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (52nd Annual Session), 1996, 195.
  1. Chelate assisted aryl halide coordination to Ru(II).
  2. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (52nd Annual Session), 1996, 194.
  3. Synthesis and chemistry of a novel hydrazone-phosphine.
  4. D. Perera, Proc. Sri Lanka Assoc. Adv. Sci., (52nd Annual Session), 1996, 193.
  5. A Novel method of creating coordinative unsaturation, S. D. Perera, B. L. Shaw, and M. Thornton-Pett XVIth International Conference, Organometallic Chemistry, University of Sussex, UK, 1994, P.246.
  1. Putting backbone into chemistry.
  2. D. Perera and B. L. Shaw, XVIth International Conference, Organometallic Chemistry, University of Sussex, UK, 1994, OA.27.
  1. Highly selective and rapid C-H activation in aliphatic, heterocyclic and aromatic groups.
  2. D. Perera and B. L. Shaw, The Chemistry of the Platinum group Metals, 5th International Conference, University of St. Andrews, UK, 1993, B65.
  1. The rapid isomerization of coordinatively saturated and coordinatively unsaturated complexes.
  2. D. Perera, B. L. Shaw and M. Thornton-Pett, The Chemistry of the Platinum group Metals, 5th International Conference, University of St. Andrews, UK, 1993, A64.
  1. New chemistry with azine diphosphine or monophosphine metal-complexes.
  2. D. Perera, B. L. Shaw and M. Thornton-Pett, Abstracts of papers of the American Chemical Society, 1992, 203, 107-IEC
  1. Chemistry of molybdenum complexes derived from exo-3-diphenylphosphino-(1R)-(+)-camphor dimethylhydrazone. S. D. Perera and B. L. Shaw, The Royal Society of Chemistry, Autumn Meeting, University of York, UK, 1991, D33.
  1.   Poly(amino acid) film electrodes with attached electroactive groups. A. M. Abeysekera,
  2. Grimshaw, S. D. Perera and D. Vipond, J. Electrochemical Society, 1987, 134, C499.

Scholarships/Prizes/Awards:

Annual Research Award – 2022 from the Open University of Sri Lanka

Annual Research Award – 2021 from the Open University of Sri Lanka

Annual Research Award – 2020 from the Open University of Sri Lanka

President’s Award for Scientific Publication – 2014

Annual Research Award – 2014 from the Open University of Sri Lanka

CVCD Excellence Award – 2012 for the Most Outstanding Senior Researcher in Physical Sciences from the Committee of Vice-Chancellors and Directors (CVCD) of Sri Lanka

President’s Award for Scientific Publication – 2011

Annual Research Award – 2010 from the Open University of Sri Lanka

Annual Research Award – 2009 from the Open University of Sri Lanka

President’s Award for Scientific Publication – 2007

Presidential Award for Research – 2006

Presidential Award for Research – 2005

Presidential Award for Research – 2004

Presidential Award for Research – 2003

Award for Excellence in Research – 2003 from the Open University of Sri Lanka

Organic Chemistry Research Prize – 1986 from the Queen’s University, Belfast, UK

ORS Award from the Queen’s University, Belfast, UK (1985-1989)

Fellowships/Academic Distinctions/Training:

Research Fellowship (April 2017 to June 2018) from Trinity College Dublin, Ireland

Research Fellowship (Sept-Nov 2014) from Trinity College Dublin, Ireland

Research Fellowship (Sept-Nov 2013) from Trinity College Dublin, Ireland

Research Fellowship (May-July 2012) from Trinity College Dublin, Ireland

Research Fellowship (Mar-May 2011) from Trinity College Dublin, Ireland

Research Fellowship (July-Sept 2009) from Trinity College Dublin, Ireland

Research Fellowship (Aug-Oct 2008) from Trinity College Dublin, Ireland

Research Fellowship (April 2005 to March 2007) from Trinity College Dublin, Ireland

Participated the program on “Good practices in open and distance learning” conducted by Open University Malaysia, Malaysia, 12-16th July, 2004

Participated the “Distance Education Training Program” conducted by

Sukhothai Thammathirat Open University, Thailand, 17-25th July, 2004

Admitted to Fellow of Institute of Chemistry, Ceylon, 2002

Research Fellowship (July to September 2002) from the University of Leeds

Visiting Scientist (June to August 2001) to the University of Leeds

Visiting Scientist (June to August 2000) to the University of Leeds

Royal Society Visiting Fellow (March to May 1999) to the University of Leeds

Senior Research Fellowship (February to April 1998) from the University of Leeds

Senior Research Fellowship (February to April 1997) from the University of Leeds

Research Fellowship (September 1989 to May 1995) from the University of Leeds

 

Research Fellowship (April 2017 to June 2018) from Trinity College Dublin, Ireland

Research Fellowship (Sept-Nov 2014) from Trinity College Dublin, Ireland

Research Fellowship (Sept-Nov 2013) from Trinity College Dublin, Ireland

Research Fellowship (May-July 2012) from Trinity College Dublin, Ireland

Research Fellowship (Mar-May 2011) from Trinity College Dublin, Ireland

Research Fellowship (July-Sept 2009) from Trinity College Dublin, Ireland

Research Fellowship (Aug-Oct 2008) from Trinity College Dublin, Ireland

Research Fellowship (April 2005 to March 2007) from Trinity College Dublin, Ireland

Participated the program on “Good practices in open and distance learning” conducted by Open University Malaysia, Malaysia, 12-16th July, 2004

Participated the “Distance Education Training Program” conducted by

Sukhothai Thammathirat Open University, Thailand, 17-25th July, 2004

Admitted to Fellow of Institute of Chemistry, Ceylon, 2002

Research Fellowship (July to September 2002) from the University of Leeds

Visiting Scientist (June to August 2001) to the University of Leeds

Visiting Scientist (June to August 2000) to the University of Leeds

Royal Society Visiting Fellow (March to May 1999) to the University of Leeds

Senior Research Fellowship (February to April 1998) from the University of Leeds

Senior Research Fellowship (February to April 1997) from the University of Leeds

Research Fellowship (September 1989 to May 1995) from the University of Leeds