С п и с ъ к на научните трудове на доц д-р пенка личева



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С П И С Ъ К

на научните трудове на доц. д-р ПЕНКА ЛИЧЕВА

за периода 2007-12 г.

Общ брой

В български издания

В български списания с импакт фактор и в чужди издания

В материали от конференции

В България

В чужбина

3

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1

2

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Учебни помагала

Сортове и патенти

Учебници

Ръководства

Други

Защитени

Внедрени

1

-

-

-

-

Участие в научни форуми

В България

В чужбина

Устни доклади

Постери

Устни доклади

Постери

-

2

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I. НАУЧНИ ПУБЛИКАЦИИ пълен текст


  1. Z.Parisheva, P.Litcheva, Effect of MnO2 and MoO3 on ozonation of aqueous solution of some organic compounds J. Oxidation Communications 30,1,165-171 (2007).

  2. Z.Parisheva, P.Litcheva, Catalytic ozonation of aqueous solution formaldehyde and salicylic acid,Ecology 2007 Scientific articles ,part 2, p.348-353 (2007).

  3. P.Litcheva, Z.Parisheva, N.Panayotov, Possibilities for the reduction of formaldehyde concentration and its influence on the biological characteristics of pepper, Ecology & Safety, International Scientific Publications, Vol.2, Part 1, 2008.


II. УЧЕБНИ ПОМАГАЛА
1. К. Иванов, С. Кръстев, М. Камбурова, П. Личева, Курс по аналитична химия, Пловдив, 2007.
III. ДОКЛАДИ НА НАУЧНИ ФОРУМИ В БЪЛГАРИЯ

Б. Постерни доклади


  1. Z.Parisheva, P.Litcheva, Catalytic ozonation of aqueous solution formaldehyde and salicylic acid,Ecology 2007 Scientific articles ,part 2, p.348-353 (2007).

  2. P.Litcheva, Z.Parisheva, N.Panayotov, Possibilities for the reduction of formaldehyde concentration and its influence on the biological characteristics of pepper, Ecology & Safety, International Scientific Publications, Vol.2, Part 1, 2008.




С П И С Ъ К

на забелязаните цитати на доц. д-р ПЕНКА ЛИЧЕВА

Общ брой

В български издания

В български списания с импакт фактор и в чужди издания

В дисертации

34







2




На работата




K. Ivanov, T. Popov, P. Litcheva , D. Klissurski “Preparation and reactivity of MnMoO4 - MoO3 catalysts”, Bulg. Acad. Sci. Commun Dept. Chem., v. 21, 4, p. 615, (1988).

1.

(1)

Pernicone N, Advances and trends in the catalysis of formaldehyde production over Fe-Mo catalysts, Meeting on Industrial and Environmental Catalysis, Lisbon, May 15-19, 1995.




На работата




K. Ivanov, P. Litcheva, D. Klissurski, T. Popov, ”Thermal stability of MnMoO4-MoO3 catalysts for methanol oxidation”, J. Therm. Anal., 36, p. 1361, (1990).

2.

(1)

Pernicone N, Advances and trends in the catalysis of formaldehyde production over Fe-Mo catalysts, Meeting on Industrial and Environmental Catalysis, Lisbon, May 15-19, 1995.

3.

(2)

St. G. Christoskova, M. Stoyanova, M. Georgieva, D. Mehandzhiev, Low-temperature methanol oxidation on a higher nickel oxide in gaseous and aqueous phase. Part I, Proc. VII Int. Symp. Heterog. Catal., part 1, p. 389, Varna, 1996.

4.

(3)

St. Krustev, Methanol oxidation over sodium containing tungstates of iron and chromium, Proc. VII Int. Symp. Heterog. Catal., part 2, p. 577, Varna, 1996.

5.

(4)

Hung MH, Rao MVM, Tsai DS, Microstructures and electrical properties of calcium substituted LaFeO3 as SOFC cathode , MATERIALS CHEMISTRY AND PHYSICS 101 (2-3): 297-302 FEB 15 2007 .




На работата




K. Ivanov, P. Licheva, D. Klissurski, Commun. Dep. Chem. Bulg. Acad. Sci., 24 (1991) 39

6.

(1)

И. Митов, Докторска дисертация, София, 2000



На работата




K. Ivanov, P. Litcheva, D. Klissurski, “Mn-Mo-O catalysts for methanol oxidation. I. Preparation and chàracterization of the catalysts”, Collect. Czech. Chem. Commun.,57, p. 2529, (1992).

7.

(1)

St. Krustev, Methanol oxidation over sodium containing tungstates of iron and chromium, Proc. VII Int. Symp. Heterog. Catal., part 2, p. 577, Varna, 1996.

8.

(2)

Pernicone N, Advances and trends in the catalysis of formaldehyde production over Fe-Mo catalysts Meeting on Industrial and Environmental Catalysis, Lisbon, May 15-19, 1995.

9.

(3)

Hung M. H., Rao M.V.M., Tsai DS, Microstructures and electrical properties of calcium substituted LaFeO3 as SOFC cathode, Mat. Chem and Physics, 1001(2-3): 297 – 302, 9 2007).




На работата




K. Ivanov, P. Litcheva, D. Klissurski “Mn-Mo-O catalysts for methanol oxidation. II. Оxidation of methanol”, Collect. Czech. Chem. Commun., 57, p. 2539, (1992).

10.

(1)

F. Ungvary, Transition metals in organic sinthesis hydroformylation, reduction, and oxidation, Coordination chemistry reviews, v. 141, p. 371-493,( 1995).

11.

(2)

Halawy SA, Role of the fourth-period metal oxides on the pyrolysis of sodium chlorite ,JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS 38: 89-100 DEC 1996 .

12.

(3)

Halawy-SA Alshiry-SS,Role of the acidic- basic characters of some metal-oxides in the pyrolysis of ammonium-perchlorate,Journal of thermal analysis and calorimetry v.55, Iss 3, pp833-840 (1999)

13.

(4)

St. Krustev, Methanol oxidation over sodium containing tungstates of iron and chromium, Proc. VII Int. Symp. Heterog. Catal., part 2, p. 577, Varna,(1996).

14.

(5)

Pernicone N, Advances and trends in the catalysis of formaldehyde production over Fe-Mo catalysts Meeting on Industrial and Environmental Catalysis, Lisbon, May 15-19, 1995.

15.

(6)

Diaz-Real R, Mann RS, Khulbe KC, Oxidation of methanol to formaldehyde over Sb2O4-MoO3 catalyst., INDIAN JOURNAL OF CHEMICAL TECHNOLOGY 5 (6): 361-367 NOV 1998

16.

(7)

L.E.Briand,A.M.Hirt and I.E.Wachs Quantitative-determination of the number of surface-active sites and the turnover frequencies for methanol oxidation over metal-oxide catalysts-application to bulk metal molybdates and pure metal-oxide catalysts, J.Catalysis, v.202,pp268-278, 2001.




На работата




J. Macichek, K. Ivanov, P. Litcheva „Ammonium manganese molybdenum hydrogen oxide hydrate”, ICDD, Pawder Diffraction File, Sets 43, 43-516, p. 209, (1993).

17.

(1)

International Centre for Powder Diffraction Data, Inorganic Phases, USA, Sets 1-46, p. 37, 1996.

18.

(2)

Hanawalt Search Manual, Inorganic Phases, PDF, USA, Sets 1-46, p. 142, 1996.

19.

(3)

International Centre for Powder Diffraction Data, Inorganic Phases, USA, Sets 1-45, p. 35, 1995.

20.

(4)

Hanawalt Search Manual, Inorganic Phases, PDF, USA, Sets 1-45, p. 140, 1995.

21.

(5)

International Centre for Powder Diffraction Data, Inorganic Phases, USA, Sets 1-44, p. 34, 1994.

22.

(6)

Hanawalt Search Manual, Inorganic Phases, PDF, USA, Sets 1-44, p. 138, 1994.

23.

(7)

Alphabetical Indexes Sets 1-47, ICDD, USA, p. 39, p. 425, 1997.




На работата




Кр. Иванов, Ст. Кръстев, М. Камбурова, П. Личева, Ръководство по аналитична химия, Акад. Издателство при ВСИ - Пловдив, Пловдив, (1994).

24.

(1)

Г. Рачовски, Т. Томов, С. Костадинова, И. Манолов, Ръководство за упражнения по агрохимия, Акад. Издателство при ВСИ - Пловдив, Пловдив, (1998).




На работата




K. Ivanov, P. Licheva, Z. Cherkezova, in Proc. 8th Int.Symp. heterogen. Catal., Varna 1996, p. 589.

25.

(1)

И. Митов, Докторска дисертация, София, 2000

26.

(2)

Todor Peev, 50 Years Mossbauer Efect in Bulgaria, Sofia, 2007, p.74.




На работата




Кр. Иванов, Ст. Кръстев, М. Камбурова, П. Личева, Курс по аналитична химия, Пловдив,(1997).

27.

(1)

Г. Рачовски, Т. Томов, С. Костадинова, И. Манолов, Ръководство за упражнения по агрохимия, Акад. Издателство при ВСИ - Пловдив, Пловдив, (1998).




На работата




K. Ivanov, St. Krustev, P. Litcheva, “Oxidation of methanol on sodium modified chromium - molybdenum catalists”, J. of Alloys and Compounds, 279, p. 132 – 135, (1998)

28.

(1)

Hermanowicz K., Maszka M., Wolcyrz M., Cristal structure, vibrational properties and luminiscence of NaMg3Al(MoO4)5 crystal doped with Cr3+ ions, Journal of solid state chemistry, 179, (3): 686-695, 2006.

29.

(2)

Ghorai T. K., Dhak D, Azizan A, at al., Investigated of phase formation temperature of nano sized solid solution of copper/cobalt molybdate and chromium-phosphate (MXCr1-xMoxP1-xO4)-1) [M-1=Co, Cu], Matherials science and engineering B-solid state materials for advanced technology, 121, (3): 216-223, 2005

30.

(3)

Todor Peev, 50 Years Mossbauer Efect in Bulgaria, Sofia, 2007, p.74.

31.

(4)

Riad M, Mikhail S,Dehydrogenation of cyclohexane over molybdenum/mixed oxide catalysts, CATALYSIS COMMUNICATIONS, v. 9, 6, pp. 1398-1403, 2008

32.

(5)

Ghorai TK, Dhak D, Dalai S, et al., Studies on phase formation temperature and photocatalytic properties of nano-sized solid solution of nickel molybdate and chromium-phosphate (NixCr1-xMoxP1-xO4), APPLIED CATALYSIS A-GENERAL   Volume: 339   Issue: 2   Pages: 137-144  (2008).




На работата




K. Ivanov, P. Litcheva, S. Krustev, Two-stage oxidation of methanol on iron molybdate catalysts, Oxidation Communications, 26, ¹ 4, p. 496,501, (2003).

33.

(1)

Polonamas J., Ray A.D., Watt R.K., Nanophase iron phosphate, iron arsenate, iron vanadate, and iron molybdate minerals synthesized within the protein cage of ferritin, Inorganic Chemistry, 44, (9): 3203-3209, 2005.




На работата




Mitov, I., P. Licheva, D. Paneva, S. Krustev, S. Ivanova, K. Ivanov. Reduction of Manganese-Modified Iron Molybdenum Catalysts. In.: Petrov, L., Ch.Bonev, G.Kadinov (Eds.) Proc.9th Int. Symp. Heterogen. Catal. Sept. 23-27, 2000, Varna, Bulgaria. p.p. 907-912.

34.

(1)

Todor Peev, 50 Years Mossbauer Efect in Bulgaria, Sofia, 2007, p.78.


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