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Bibliografija osebe. Seznam zajema vsa gradiva in ne le tista, kje je oseba mentor.

Magistrska dela (2)

1. Artem Badasyan: Perehod spiral'-klubok v kol'cevyh zamkiutyh DNK
2. Lusine Arutjunjan: OMPC model' i uporjadočenija biopolimerov

Diplomska dela (1)

1. Knarik Yeritsyan: WATER-POLYPEPTIDE INTERACTION IN CLASSICAL MODELS OF HELIX-COIL TRANSITION

Druga dela (52)

1. Yevgeni S. Mamasakhlisov, Vladimir Morozov, Artem Badasyan: Heterogeneity affecting the interplay between long-range and short-range interactions in biological macromolecules
2. Artem Badasyan, Yevgeni S. Mamasakhlisov, Artem V. Tsarukyan, Arsen V. Grigoryan, Vladimir F. Morozov: The generalized model of polypeptide chain describing the helix-coil transition in biopolymers
3. Artem Badasyan, Achille Giacometti, Rudolf Podgornik, Trinh Xuan Hoang: Coil-globule transition of a homopolymer chain in a square-well potential
4. Artem Badasyan: Do we really need water models in full, when it comes to studies of biopolymer conformations?
5. Artem Badasyan: Entropic cost of folding and phase diagrams of polypeptides: Why are IDPs unfolded at room temperature?
6. Andraž Mavrič, Artem Badasyan, Mattia Fanetti, Matjaž Valant: Temperature induced de-agglomeration of the polysilane macromolecules
7. Artem Badasyan: Physics behind the Conformational Transitions in Biopolymers. Demystification of DNA melting and Protein Folding
8. Andraž Mavrič, Artem Badasyan, Gregor Mali, Matjaž Valant: Growth mechanism and structure of electrochemically synthesized dendritic polymethylsilane molecules
9. Andraž Mavrič, Artem Badasyan, Mattia Fanetti, Matjaž Valant: Efficient de-agglomeration of polysilane macromolecules in solution and their molecular size
10. Andraž Mavrič, Artem Badasyan, Gregor Mali, Matjaž Valant: The electrochemical synthesis of dendritic polymethylsilane
11. Artem Badasyan, Boštjan Mavrič, Matjaž Valant: FROM SPINODAL DECOMPOSITION AND MOLECULAR DISPERSION OF POLYSILANES TO SUPER-HARD NANOCOATING
12. Jasnamol Pezhumkattil Palakkal, Cheriyedath Raj Sankar, Ajeesh Parayancheri Paulose, Matjaž Valant, Artem Badasyan, Manoj Raama Varma: Unusual magnetodielectric effects in La2CuMnO6 induced by a dynamic crossover in dielectric relaxation at TC
13. Artem Badasyan: Potts spins, protein conformations and implicit water model
14. Artem Badasyan, Andraž Mavrič, Irena Kralj Cigić, Tim Bencik, Matjaž Valant: Polymer Nanoparticle Sizes from Dynamic Light Scattering and Size Exclusion Chromatography: The Case Study of Polysilanes.
15. Artem Badasyan, Arsen V. Grigoryan, Armen Chuhadjyan, Yevgeni S. Mamasakhlisov, Vladimir F. Morozov: Переход спираль-клубок в кольцевых замкнутых ДНК в присутствии конкурентного растворителя
16. Arsen V. Grigoryan, Artem Badasyan, Armen Chuhadjyan, Yevgeni S. Mamasakhlisov, Vladimir F. Morozov: Переход спираль-клубок в кольцевых замкнутых гетерополимерных ДНК.
17. Artem Badasyan, Arsen V. Grigoryan, Armen Chuhadjyan, Yevgeni S. Mamasakhlisov, Vladimir F. Morozov: Гамильтониан и характеристическое уравнение для обобщенной модели перехода спираль-клубок с учетом стекинга
18. Artem Badasyan: Переход спираль-клубок в гетерополимерах. Микроканонический метод.
19. Arsen V. Grigoryan, Artem Badasyan, Vladimir F. Morozov, Yevgeni S. Mamasakhlisov: Анализ перехода спираль-клубок в кольцевой замкнутой ДНК на основе статистической модели
20. Artem Badasyan, Arsen V. Grigoryan, Yevgeni S. Mamasakhlisov, Artem V. Tsarukyan, Vladimir F. Morozov: Влияние конкурентного и не конкурентного растворителей на переход спираль-клубок в биополимерах.
21. Artem V. Tsarukyan, Sh. A. Tonoyan, Artem Badasyan, Arsen V. Grigoryan, Yevgeni S. Mamasakhlisov, Vladimir F. Morozov: Параметры порядка перехода спираль-клубок в биополимерах.
22. Artem Badasyan, Matjaž Valant: New method to process Circular Dichroism experimental data on heat and cold denaturation of polypeptides in water
23. Artem Badasyan: On spin description of water-biopolymer interactions: theory and experiment of reentrant order-disorder transition.
24. Artem Badasyan: DNA-CNT Physisorption
25. Sh. A. Tonoyan, Davit Khechoyan, Yevgeni S. Mamasakhlisov, Artem Badasyan: Statistical mechanics of DNA-nanotube adsorption
26. Sh. A. Tonoyan, Davit Khechoyan, Yevgeni S. Mamasakhlisov, Artem Badasyan: Statistical mechanics of DNA adsorption on a carbon nanotube
27. Sh. A. Tonoyan, Davit Khechoyan, Yevgeni S. Mamasakhlisov, Artem Badasyan: Statistical mechanics of DNA-nanotube adsorption
28. Artem Badasyan: Water reveals non-Arrhenius kinetics in protein folding experiments
29. Artem Badasyan: Water reveals non-Arrhenius kinetics in protein folding experiments
30. Artem Badasyan, Yevgeni S. Mamasakhlisov: Modelling DNA adsorption on CNT
31. Artem Badasyan, Matjaž Valant, Jože Grdadolnik, Vladimir N. Uversky: The finite size effects and two-state paradigm of protein folding
32. Artem Badasyan, Sh. A. Tonoyan, Matjaž Valant, Jože Grdadolnik: Implicit water model within the Zimm-Bragg approach to analyze experimental data for heat and cold denaturation of proteins
33. Artem Badasyan: System size dependence in the Zimm-Bragg model
34. Aleksander Đorđević: Least-square fit
35. Artem Badasyan: Finite size effects in the Zimm-Bragg model
36. Artem Badasyan: Presentation of University of Nova Gorica and teaching numerical methods and modelling in environmental study programmes
37. Artem Badasyan: System size dependence of the Zimm-Bragg model
38. Artem Badasyan, Matjaž Valant, Jože Grdadolnik, Vladimir N. Uversky: Finite size effects at protein folding from the two-state perspective
39. Jaka Strajn: Solutions of the Ising model
40. Bariş Kalfa: Probing the folding of hen lyzozyme through molecular dynamics simulations
41. Marko Žagar: Analysis of gambling slot machines
42. Knarik Yeritsyan, Matjaž Valant, Artem Badasyan: Helix-coil theory to process experimental data for short polypeptides in solvent
43. Knarik Yeritsyan, Matjaž Valant, Artem Badasyan: Processing helix–coil transition data
44. Knarik Yeritsyan: Analysis of CD and DSC protein folding data
45. Artem Badasyan: Describing protein conformations with Potts spins: Hamiltonian foundations of Zimm-Bragg model in water
46. Artem Badasyan, Knarik Yeritsyan: Spin Model of Protein Conformations in water: Theory vs Experiment.
47. Artem Badasyan: University of Nova Gorica: organization structure and general description
48. Artem Badasyan, Knarik Yeritsyan: Spin model of water and post-processing of protein folding experiments
49. Yevgeni S. Mamasakhlisov, Artem Badasyan, V. Stepanyan: The polyelectrolyte with a disorder over short-range interactions
50. Knarik Yeritsyan, Artem Badasyan: Modelling water for calorimetry of proteins
51. Artem Badasyan: Interview in promotional video of the A. B. Nalbandyan Institute for Chemical Physics of the National Academy of Sciences, Yerevan, Armenia, 6. 3. 2024
52. Artem Badasyan: Modeling protein conformations in water: theory and experiment

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