Bioimpact of Carbon Nanomaterials
Само за регистроване кориснике
2014
Поглавље у монографији (Објављена верзија)
,
© Scrivener Publishing LLC
Метаподаци
Приказ свих података о документуАпстракт
The unique size-dependent properties of carbon nanomaterials (CNMs)- graphene, nanotubes (CNTs) and fullerenes- make them very attractive for diagnostic and therapeutic application. This chapter presents possible application of CNMs. Graphene with extraordinary chemical and physical properties has already revealed a great number of potential applications such as environmental toxic material removal, drug delivery, tissue engineering, and fl uorescence-based biomolecular sensing. The CNT derivatives have many interesting properties which make them potentially useful in a living system as biosensors, bioelectronic devices based on enzyme-nanotube or antibody-nanotube conjugates, chemotherapeutic agents, hyperthermia therapy and immunotherapy agents, agent in treatment of central nervous system disorders, and tissue engineering agent. Fullerene C60 derivatives have been used as: drug and gene delivery vectors, magnetic resonance imaging agents, radio protectors, antioxidants, HIV-1 protea...se inhibitors, antigenotoxic agents, and phototherapy agents. Fullerenols are polyhydroxylated derivatives of fullerene (C60(OH)n) with remarkable antioxidant, xenobiotic-protective, radioprotective, nanodrug and endohedral gadolinium carrier properties.
Кључне речи:
Carbon nanotubes / Diagnostic / Drug delivery / Engineered nanomaterials / Fullerene derivatives / Fullerenol / Genotoxicity / Graphene / Malignancy / Nanoecotoxicity / Nanomedicine / NanotoxicityИзвор:
Advanced Carbon Materials and Technology, 2014, 193-271Колекције
Институција/група
VinčaTY - CHAP AU - Đorđević, Aleksandar N. AU - Injac, Rade AU - Jović, Danica AU - Mrđanović, Jasminka Ž. AU - Seke, Mariana PY - 2014 UR - https://vinar.vin.bg.ac.rs/handle/123456789/12696 AB - The unique size-dependent properties of carbon nanomaterials (CNMs)- graphene, nanotubes (CNTs) and fullerenes- make them very attractive for diagnostic and therapeutic application. This chapter presents possible application of CNMs. Graphene with extraordinary chemical and physical properties has already revealed a great number of potential applications such as environmental toxic material removal, drug delivery, tissue engineering, and fl uorescence-based biomolecular sensing. The CNT derivatives have many interesting properties which make them potentially useful in a living system as biosensors, bioelectronic devices based on enzyme-nanotube or antibody-nanotube conjugates, chemotherapeutic agents, hyperthermia therapy and immunotherapy agents, agent in treatment of central nervous system disorders, and tissue engineering agent. Fullerene C60 derivatives have been used as: drug and gene delivery vectors, magnetic resonance imaging agents, radio protectors, antioxidants, HIV-1 protease inhibitors, antigenotoxic agents, and phototherapy agents. Fullerenols are polyhydroxylated derivatives of fullerene (C60(OH)n) with remarkable antioxidant, xenobiotic-protective, radioprotective, nanodrug and endohedral gadolinium carrier properties. T2 - Advanced Carbon Materials and Technology T1 - Bioimpact of Carbon Nanomaterials SP - 193 EP - 271 DO - 10.1002/9781118895399.ch6 ER -
@inbook{ author = "Đorđević, Aleksandar N. and Injac, Rade and Jović, Danica and Mrđanović, Jasminka Ž. and Seke, Mariana", year = "2014", abstract = "The unique size-dependent properties of carbon nanomaterials (CNMs)- graphene, nanotubes (CNTs) and fullerenes- make them very attractive for diagnostic and therapeutic application. This chapter presents possible application of CNMs. Graphene with extraordinary chemical and physical properties has already revealed a great number of potential applications such as environmental toxic material removal, drug delivery, tissue engineering, and fl uorescence-based biomolecular sensing. The CNT derivatives have many interesting properties which make them potentially useful in a living system as biosensors, bioelectronic devices based on enzyme-nanotube or antibody-nanotube conjugates, chemotherapeutic agents, hyperthermia therapy and immunotherapy agents, agent in treatment of central nervous system disorders, and tissue engineering agent. Fullerene C60 derivatives have been used as: drug and gene delivery vectors, magnetic resonance imaging agents, radio protectors, antioxidants, HIV-1 protease inhibitors, antigenotoxic agents, and phototherapy agents. Fullerenols are polyhydroxylated derivatives of fullerene (C60(OH)n) with remarkable antioxidant, xenobiotic-protective, radioprotective, nanodrug and endohedral gadolinium carrier properties.", journal = "Advanced Carbon Materials and Technology", booktitle = "Bioimpact of Carbon Nanomaterials", pages = "193-271", doi = "10.1002/9781118895399.ch6" }
Đorđević, A. N., Injac, R., Jović, D., Mrđanović, J. Ž.,& Seke, M.. (2014). Bioimpact of Carbon Nanomaterials. in Advanced Carbon Materials and Technology, 193-271. https://doi.org/10.1002/9781118895399.ch6
Đorđević AN, Injac R, Jović D, Mrđanović JŽ, Seke M. Bioimpact of Carbon Nanomaterials. in Advanced Carbon Materials and Technology. 2014;:193-271. doi:10.1002/9781118895399.ch6 .
Đorđević, Aleksandar N., Injac, Rade, Jović, Danica, Mrđanović, Jasminka Ž., Seke, Mariana, "Bioimpact of Carbon Nanomaterials" in Advanced Carbon Materials and Technology (2014):193-271, https://doi.org/10.1002/9781118895399.ch6 . .