Komparativno istraživanje klasičnih i nanofotonskih materijala za RGP kontaktna sočiva skenirajućom sondnom mikroskopijom
Comparative study of classical and nanophotonic materials for RGP contact lenses by scanning probe microscopy
Abstract
U ovom radu izvršena su komparativna istraživanja klasičnog materijala za tvrda (gas propusna sočiva) sočiva i dva nova nanofotonska materijala za kontaktna sočiva. Fotonični nanomaterijali su dobijeni dodavanjem fulerena C60 i fulerola C60(OH)24 osnovnom materijalu SP40 (Soleko SP40TM ) na bazi polimeta-metakrilata (PMMA). Nanomaterijali se dodaju osnovnom materijalu da bi se promijenila transmisiona karakteristika svjetlosti zbog drugačijih elektormagnetnih karakteristika samih materijala. Osnovni i dva nanofotonična nanomatepijala su ispitivani metodama skenirajuće sondne mikroskopije: metoda mikroskopije atomskih sila (Atomic Force Microscopy, AFM) i metoda mikroskopije magnetnih sila (Magnetic Force Microscopy, MFM). Ispitivane su i određene razlika u elektromagnetnim svojstvima materijala, a statičkim određivanjem sile, u funkciji rastojanja sonde od uzorka, prikazane su mehaničke karakteristike materijala. U ovom radu su međusobno upoređeni i prikazani rezultati istraživanja i a...nalize ovih triju materijala.
In this paper comparative study of the classical (Soleko SP40TM) and new nanophotonic materials for contact lenses was conducted. Two photonic nanomaterials were made by adding fullerene (C60) and fullerol (C60OH24) to the classic, commercially available, base material (PMMApolymethylmethacrylate). Nanomaterials are added to the base material to change the transmission characteristics of light, because of different electromagnetic properties of the materials. Two new nanophotonic nanomaterials, along with the base material were investigated with Scanning Probe Microscopy methods of Atomic Force Microscopy and Magnetic Force Microscopy (AFM/MFM) to determine roughness, electromagnetic properties of materials, and static Force-distance curve for investigating materials mechanical characteristics. Results and analysis of investigations for all three materials are compared and presented in the paper.
Keywords:
PMMA / nanofotonika / MFM / kontaktna sočiva / fuleren / AFM / PMMA / nanophotonic / MFM / fullerene / contact lenses / AFMSource:
Contemporary materials, 2013, 4, 1, 46-52Funding / projects:
- Functionalization of Nanomaterials for obtaining new contact lenses, and early diagnostics of diabetes (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-45009)
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Mašinski fakultetTY - JOUR AU - Đuričić, Ivan AU - Mileusnić, Ivana AU - Stamenković, Dragomir AU - Matija, Lidija AU - Koruga, Đuro PY - 2013 UR - https://machinery.mas.bg.ac.rs/handle/123456789/1612 AB - U ovom radu izvršena su komparativna istraživanja klasičnog materijala za tvrda (gas propusna sočiva) sočiva i dva nova nanofotonska materijala za kontaktna sočiva. Fotonični nanomaterijali su dobijeni dodavanjem fulerena C60 i fulerola C60(OH)24 osnovnom materijalu SP40 (Soleko SP40TM ) na bazi polimeta-metakrilata (PMMA). Nanomaterijali se dodaju osnovnom materijalu da bi se promijenila transmisiona karakteristika svjetlosti zbog drugačijih elektormagnetnih karakteristika samih materijala. Osnovni i dva nanofotonična nanomatepijala su ispitivani metodama skenirajuće sondne mikroskopije: metoda mikroskopije atomskih sila (Atomic Force Microscopy, AFM) i metoda mikroskopije magnetnih sila (Magnetic Force Microscopy, MFM). Ispitivane su i određene razlika u elektromagnetnim svojstvima materijala, a statičkim određivanjem sile, u funkciji rastojanja sonde od uzorka, prikazane su mehaničke karakteristike materijala. U ovom radu su međusobno upoređeni i prikazani rezultati istraživanja i analize ovih triju materijala. AB - In this paper comparative study of the classical (Soleko SP40TM) and new nanophotonic materials for contact lenses was conducted. Two photonic nanomaterials were made by adding fullerene (C60) and fullerol (C60OH24) to the classic, commercially available, base material (PMMApolymethylmethacrylate). Nanomaterials are added to the base material to change the transmission characteristics of light, because of different electromagnetic properties of the materials. Two new nanophotonic nanomaterials, along with the base material were investigated with Scanning Probe Microscopy methods of Atomic Force Microscopy and Magnetic Force Microscopy (AFM/MFM) to determine roughness, electromagnetic properties of materials, and static Force-distance curve for investigating materials mechanical characteristics. Results and analysis of investigations for all three materials are compared and presented in the paper. T2 - Contemporary materials T1 - Komparativno istraživanje klasičnih i nanofotonskih materijala za RGP kontaktna sočiva skenirajućom sondnom mikroskopijom T1 - Comparative study of classical and nanophotonic materials for RGP contact lenses by scanning probe microscopy EP - 52 IS - 1 SP - 46 VL - 4 DO - 10.7251/COMEN1301046DJ ER -
@article{ author = "Đuričić, Ivan and Mileusnić, Ivana and Stamenković, Dragomir and Matija, Lidija and Koruga, Đuro", year = "2013", abstract = "U ovom radu izvršena su komparativna istraživanja klasičnog materijala za tvrda (gas propusna sočiva) sočiva i dva nova nanofotonska materijala za kontaktna sočiva. Fotonični nanomaterijali su dobijeni dodavanjem fulerena C60 i fulerola C60(OH)24 osnovnom materijalu SP40 (Soleko SP40TM ) na bazi polimeta-metakrilata (PMMA). Nanomaterijali se dodaju osnovnom materijalu da bi se promijenila transmisiona karakteristika svjetlosti zbog drugačijih elektormagnetnih karakteristika samih materijala. Osnovni i dva nanofotonična nanomatepijala su ispitivani metodama skenirajuće sondne mikroskopije: metoda mikroskopije atomskih sila (Atomic Force Microscopy, AFM) i metoda mikroskopije magnetnih sila (Magnetic Force Microscopy, MFM). Ispitivane su i određene razlika u elektromagnetnim svojstvima materijala, a statičkim određivanjem sile, u funkciji rastojanja sonde od uzorka, prikazane su mehaničke karakteristike materijala. U ovom radu su međusobno upoređeni i prikazani rezultati istraživanja i analize ovih triju materijala., In this paper comparative study of the classical (Soleko SP40TM) and new nanophotonic materials for contact lenses was conducted. Two photonic nanomaterials were made by adding fullerene (C60) and fullerol (C60OH24) to the classic, commercially available, base material (PMMApolymethylmethacrylate). Nanomaterials are added to the base material to change the transmission characteristics of light, because of different electromagnetic properties of the materials. Two new nanophotonic nanomaterials, along with the base material were investigated with Scanning Probe Microscopy methods of Atomic Force Microscopy and Magnetic Force Microscopy (AFM/MFM) to determine roughness, electromagnetic properties of materials, and static Force-distance curve for investigating materials mechanical characteristics. Results and analysis of investigations for all three materials are compared and presented in the paper.", journal = "Contemporary materials", title = "Komparativno istraživanje klasičnih i nanofotonskih materijala za RGP kontaktna sočiva skenirajućom sondnom mikroskopijom, Comparative study of classical and nanophotonic materials for RGP contact lenses by scanning probe microscopy", pages = "52-46", number = "1", volume = "4", doi = "10.7251/COMEN1301046DJ" }
Đuričić, I., Mileusnić, I., Stamenković, D., Matija, L.,& Koruga, Đ.. (2013). Komparativno istraživanje klasičnih i nanofotonskih materijala za RGP kontaktna sočiva skenirajućom sondnom mikroskopijom. in Contemporary materials, 4(1), 46-52. https://doi.org/10.7251/COMEN1301046DJ
Đuričić I, Mileusnić I, Stamenković D, Matija L, Koruga Đ. Komparativno istraživanje klasičnih i nanofotonskih materijala za RGP kontaktna sočiva skenirajućom sondnom mikroskopijom. in Contemporary materials. 2013;4(1):46-52. doi:10.7251/COMEN1301046DJ .
Đuričić, Ivan, Mileusnić, Ivana, Stamenković, Dragomir, Matija, Lidija, Koruga, Đuro, "Komparativno istraživanje klasičnih i nanofotonskih materijala za RGP kontaktna sočiva skenirajućom sondnom mikroskopijom" in Contemporary materials, 4, no. 1 (2013):46-52, https://doi.org/10.7251/COMEN1301046DJ . .