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Fullerene-C60 - sublimed, 99.9%, high purity , CAS No.99685-96-8

12 Citations

sublimed grade

≥99.9%

CAS#: 99685-96-8
Formula: C₆₀
Molecular Weight: 720.64
Beilstein Registry Number: 5901022
PubChem CID: 123591

Item Number

F434635

Grouped product items
SKU	Size	Availability	Price
F434635-250mg	250mg	Available within 8-12 weeks(?) Production requires sourcing of materials. We appreciate your patience and understanding.	$350.90
F434635-1g	1g	Available within 8-12 weeks(?) Production requires sourcing of materials. We appreciate your patience and understanding.	$1,654.90
F434635-5g	5g	Available within 8-12 weeks(?) Production requires sourcing of materials. We appreciate your patience and understanding.	$2,743.90

Basic Description

Synonyms	Buckminsterfullerene \| 99685-96-8 \| Fullerene \| Fullerene-C60 \| Fullerene C60 \| C60 Fullerene \| Buckyball \| Footballene \| Fullerite \| Fullerene 60 \| 131159-39-2 \| [5,6]fullerene-C60-Ih \| [60]fullerene \| C60 Compound \| (C60-Ih)[5,6]fullerene \| soccerballene \| C60 \| Fullerene powder \| buckmin
Specifications & Purity	sublimed, 99.9%
Grade	sublimed grade
Product Description	Fullerene-C 60 (C 60 ) has a closed-cage structure that is icosachedrally shaped with 60 sp 2 hybridized carbon. It is majorly utilized in the development of novel materials for a wide range of energy based applications. We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product has been enhanced for energy efficiency. Find details here . C 60 is an n -channel organic semiconductor. High reactivity of fullerenes is attributed to its characteristic pyramidalization of the sp 2 carbons. C 60 is purified by column chromatography in toluene, then heat-treated under vacuum to remove solvent residue. Highly crystalline sublimed material with low solvent and metal content was recovered. Application Fullerene-C 60 (sublimed, 99.9%) belongs to the class of carbonaceous materials. It can be used for a variety of alternative energy applications, which include lithium-ion batteries, organic photovoltaic cells (OPV), heterojunction solar cells, polymeric photodetectors, photodiodes, and photocatalysis. An n -channel organic semiconductor. Water suspension of C 60 was studied for its effect on the growth, cell viability and membrane integrity of Escherichia coli B23. C 60 can be used for a wide range of applications, such as anode materials for lithium (Li)-ion batteries, and pentacene-C 60 based solar cells with high quantum efficiency. It can be incorporated in (1,4-phenylene vinylene) (PPV) matrix for applications in photovoltaics.

Names and Identifiers

IUPAC Name	(C60-Ih)[5,6]fullerene
INCHI	InChI=1S/C60/c1-2-5-6-3(1)8-12-10-4(1)9-11-7(2)17-21-13(5)23-24-14(6)22-18(8)28-20(12)30-26-16(10)15(9)25-29-19(11)27(17)37-41-31(21)33(23)43-44-34(24)32(22)42-38(28)48-40(30)46-36(26)35(25)45-39(29)47(37)55-49(41)51(43)57-52(44)50(42)56(48)59-54(46)53(45)58(55)60(57)59
InChi Key	XMWRBQBLMFGWIX-UHFFFAOYSA-N
Canonical SMILES	C12=C3C4=C5C6=C1C7=C8C9=C1C%10=C%11C(=C29)C3=C2C3=C4C4=C5C5=C9C6=C7C6=C7C8=C1C1=C8C%10=C%10C%11=C2C2=C3C3=C4C4=C5C5=C%11C%12=C(C6=C95)C7=C1C1=C%12C5=C%11C4=C3C3=C5C(=C81)C%10=C23
Isomeric SMILES	C12=C3C4=C5C6=C1C7=C8C9=C1C%10=C%11C(=C29)C3=C2C3=C4C4=C5C5=C9C6=C7C6=C7C8=C1C1=C8C%10=C%10C%11=C2C2=C3C3=C4C4=C5C5=C%11C%12=C(C6=C95)C7=C1C1=C%12C5=C%11C4=C3C3=C5C(=C81)C%10=C23
WGK Germany	3
PubChem CID	123591
Molecular Weight	720.64
Beilstein	5901022
Reaxy-Rn	5901022

Certificates

Certificate of Analysis(COA)

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Chemical and Physical Properties

Solubility	organic solvents: soluble; organic solvents: soluble
Flash Point(°F)	>94 °C
Flash Point(°C)	>94°C
Boil Point(°C)	500-600°C
Melt Point(°C)	>280 °C

Safety and Hazards(GHS)

Pictogram(s)	GHS07
Signal	Warning
Hazard Statements	H315:Causes skin irritation H319:Causes serious eye irritation H335:May cause respiratory irritation
Precautionary Statements	P261:Avoid breathing dust/fume/gas/mist/vapors/spray. P305+P351+P338:IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses if present and easy to do - continue rinsing. P280:Wear protective gloves/protective clothing/eye protection/face protection. P302+P352:IF ON SKIN: wash with plenty of water. P321:Specific treatment (see ... on this label). P405:Store locked up. P501:Dispose of contents/container to ... P264:Wash hands [and …] thoroughly after handling. P271:Use only outdoors or in a well-ventilated area. P304+P340:IF INHALED: Remove person to fresh air and keep comfortable for breathing. P403+P233:Store in a well-ventilated place. Keep container tightly closed. P362+P364:Take off contaminated clothing and wash it before reuse. P264+P265:Wash hands [and …] thoroughly after handling. Do not touch eyes. P337+P317:If eye irritation persists: Get medical help. P332+P317:If skin irritation occurs: Get medical help. P319:Get medical help if you feel unwell.
WGK Germany	3
Reaxy-Rn	5901022
Merck Index	1462

FAQs and Articles

FAQ

Applications of Fullerenes in Bioscience and Optoelectronics

Categories: Technical articles

Tags:

Fullerene

Citations of This Product

1. Sherif Ismail, Chunzhen Zou, Zhibin Wang, Jinhua Zhan, Chengbo Cao, Yifeng Wang, Mohnad Abdalla, Xuming Zhuang, Shou-Qing Ni. (2023) Fullerene (C60) Supplementation Stimulated Anammox Granules at Low Doses and Inhibition Occurred at High Doses: Phenomenon and Mechanism. ACS ES&T Engineering, (21): [PMID:8278810]
2. Yaqi Chen, Xin Fan, Xinjian Li, Shan Gao, Haidong Yu, Wenting Ji, Yuewen Zhang, Hongan Ma, Xiaopeng Jia. (2023) Collaborative Optimization of Thermal Properties of S0.05Co4Sb11.6Te0.4 through the High-Pressure and High-Temperature Method and C60 Composite. ACS Applied Energy Materials, 6 (21): (11061–11069). [PMID:16519677]
3. Dongmei Peng, Zhongfeng Zhang, Jijuan Zhang, Yang Yang. (2023) Improving Photocatalytic Activity for Formaldehyde Degradation by Encapsulating C60 Fullerenes into Graphite-like C3N4 through the Enhancement of Built-in Electric Fields. MOLECULES, 28 (15): (5815). [PMID:37570785]
4. Ya Li, Yao Lu, Yang Chen, Pei Zhang, Nengqin Jia. (2023) Fullerene-promoted organic-inorganic hybrid electrochemiluminescence biosensor for sensitive detection of concanavalin A. SENSORS AND ACTUATORS B-CHEMICAL, 393 (134311). [PMID:]
5. Li Xiaochun, Li Guanli, Wu Mei, Pang Yongfeng, Nie Hui, Wu Shujie, Tang Xiaoxian, Luo Yanghe, Li Xiaolong. (2023) Study on SERS methods for detection of chlorpyrifos in tea based on aptamer controlled gold-doped fullerence carbon dots catalyzed nanogold reaction. Materials Express, 13 (4): (574-583). [PMID:]
6. Yanan Zhao, Wenjie Liu, Xiangkun Pang, Xiaohui Dai, Feng Gao, Yibin Liu, Qingxiang Wang. (2023) Electroactivated Fullerol-gold nanocluster@histidine nanocomposite for nitrite sensing with wide linear range and ultralow detection limit. DIAMOND AND RELATED MATERIALS, 136 (109874). [PMID:]
7. Huang Juan, Qian Xiuwen, Li Xuan, Hu Qian, Cao Chong, Yan Chunni. (2023) A Comparative Study on Responses of Soil under Three Typical Nanoparticles Exposure: Enzyme Activities and Microbial Community Structure. WATER AIR AND SOIL POLLUTION, 234 (4): (1-17). [PMID:]
8. Youqiang Xing, Yun Wang, Lei Liu, Ze Wu. (2023) Fabrication of MoS2/C60 Nanolayer Field-Effect Transistor for Ultrasensitive Detection of miRNA-155. Micromachines, 14 (3): (660). [PMID:36985067]
9. Wenqi Diao, Jin Yan, Xuedong Wang, Qiuhui Qian, Huili Wang. (2023) Mechanisms regarding cardiac toxicity triggered by up-regulation of miR-144 in larval zebrafish upon exposure to triclosan. JOURNAL OF HAZARDOUS MATERIALS, 443 (130297). [PMID:36368065]
10. Jin Li, Xia Long, Juexian Cao, Yong Hu. (2023) In-situ label-free single-molecule dynamic detection of thermal-reversible reactions. CHEMICAL ENGINEERING JOURNAL, 451 (138779). [PMID:]
11. Peng Zhang, Emmanuel Jacques, Laurent Pichon, Olivier Bonnaud. (2022) An organic ambipolar charge trapping non-volatile memory device based on double heterojunctions. THIN SOLID FILMS, 759 (139458). [PMID:]
12. Linjing Wu, Fangqin Fu, Wenhao Wang, Wenhua Wang, Zhengwei Huang, Ying Huang, Xin Pan, Chuanbin Wu. (2023) Plasma protein corona forming upon fullerene nanocomplex: Impact on both counterparts. Particuology, 73 (26). [PMID:]

References

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21. Xiaomin Liu,Min Zheng,Xianggui Kong,Youlin Zhang,Qinghui Zeng,Zaicheng Sun,Wybren Jan Buma,Hong Zhang. (2013-03-14) Separately doped upconversion-C60 nanoplatform for NIR imaging-guided photodynamic therapy of cancer cells.. Chemical communications (Cambridge, England), 49 ((31)): (3224-3226). [PMID:23482948]
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33. Atsushi Ikeda,Tomohiro Hida,Jun-ichi Kikuchi,Kazuyuki Nobusawa,Takashi Matsuo. (2013-11-26) NMR spectroscopic study of the complexation behaviors of deuterated cyclodextrins and [60]fullerene.. Organic letters, 15 ((24)): (6194-6197). [PMID:24266835]
34. Shinya Kato,Hisae Aoshima,Yasukazu Saitoh,Nobuhiko Miwa. (2014-04-17) Fullerene-C60 derivatives prevent UV-irradiation/ TiO2-induced cytotoxicity on keratinocytes and 3D-skin tissues through antioxidant actions.. Journal of nanoscience and nanotechnology, 14 ((5)): (3285-3291). [PMID:24734542]
35. Zhi Li,Li-Li Pan,Fei-Long Zhang,Zhiyuan Wang,Ying-Ying Shen,Zhen-Zhong Zhang. (2014-04-18) Preparation and characterization of fullerene (C60) amino acid nanoparticles for liver cancer cell treatment.. Journal of nanoscience and nanotechnology, 14 ((6)): (4513-4518). [PMID:24738422]
36. Alina Astefanei,Oscar Núñez,Maria Teresa Galceran. (2014-09-11) Analysis of C60-fullerene derivatives and pristine fullerenes in environmental samples by ultrahigh performance liquid chromatography-atmospheric pressure photoionization-mass spectrometry.. Journal of chromatography. A, 1365 (61-71). [PMID:25204268]
37. Naohide Shinohara,Masashi Gamo,Junko Nakanishi. (2011-08-23) Fullerene c60: inhalation hazard assessment and derivation of a period-limited acceptable exposure level.. Toxicological sciences : an official journal of the Society of Toxicology, 123 ((2)): (576-589). [PMID:21856993]
38. Yongkui Yang,Norihide Nakada,Ryoji Nakajima,Makoto Yasojima,Chao Wang,Hiroaki Tanaka. (2012-11-28) pH, ionic strength and dissolved organic matter alter aggregation of fullerene C60 nanoparticles suspensions in wastewater.. Journal of hazardous materials, 244-245 (582-587). [PMID:23177247]
39. Chia-Hsiang Chen,Wen-Yann Yeh. (2012-12-06) Re-Re bond breaking of (μ-H)3Re3(CO)11(NCMe) upon reaction with PPh2(o-C6H4)(CH2NMeCH)C60 to generates monorhenium and dirhenium phosphino-fullerene complexes.. Dalton transactions (Cambridge, England : 2003), 42 ((7)): (2488-2494). [PMID:23212478]
40. Sherif Ismail, Chunzhen Zou, Zhibin Wang, Jinhua Zhan, Chengbo Cao, Yifeng Wang, Mohnad Abdalla, Xuming Zhuang, Shou-Qing Ni. (2023) Fullerene (C60) Supplementation Stimulated Anammox Granules at Low Doses and Inhibition Occurred at High Doses: Phenomenon and Mechanism. ACS ES&T Engineering, (21): [PMID:8278810]
41. Yaqi Chen, Xin Fan, Xinjian Li, Shan Gao, Haidong Yu, Wenting Ji, Yuewen Zhang, Hongan Ma, Xiaopeng Jia. (2023) Collaborative Optimization of Thermal Properties of S0.05Co4Sb11.6Te0.4 through the High-Pressure and High-Temperature Method and C60 Composite. ACS Applied Energy Materials, 6 (21): (11061–11069). [PMID:16519677]
42. Dongmei Peng, Zhongfeng Zhang, Jijuan Zhang, Yang Yang. (2023) Improving Photocatalytic Activity for Formaldehyde Degradation by Encapsulating C60 Fullerenes into Graphite-like C3N4 through the Enhancement of Built-in Electric Fields. MOLECULES, 28 (15): (5815). [PMID:37570785]
43. Ya Li, Yao Lu, Yang Chen, Pei Zhang, Nengqin Jia. (2023) Fullerene-promoted organic-inorganic hybrid electrochemiluminescence biosensor for sensitive detection of concanavalin A. SENSORS AND ACTUATORS B-CHEMICAL, 393 (134311). [PMID:]
44. Li Xiaochun, Li Guanli, Wu Mei, Pang Yongfeng, Nie Hui, Wu Shujie, Tang Xiaoxian, Luo Yanghe, Li Xiaolong. (2023) Study on SERS methods for detection of chlorpyrifos in tea based on aptamer controlled gold-doped fullerence carbon dots catalyzed nanogold reaction. Materials Express, 13 (4): (574-583). [PMID:]
45. Yanan Zhao, Wenjie Liu, Xiangkun Pang, Xiaohui Dai, Feng Gao, Yibin Liu, Qingxiang Wang. (2023) Electroactivated Fullerol-gold nanocluster@histidine nanocomposite for nitrite sensing with wide linear range and ultralow detection limit. DIAMOND AND RELATED MATERIALS, 136 (109874). [PMID:]
46. Huang Juan, Qian Xiuwen, Li Xuan, Hu Qian, Cao Chong, Yan Chunni. (2023) A Comparative Study on Responses of Soil under Three Typical Nanoparticles Exposure: Enzyme Activities and Microbial Community Structure. WATER AIR AND SOIL POLLUTION, 234 (4): (1-17). [PMID:]
47. Youqiang Xing, Yun Wang, Lei Liu, Ze Wu. (2023) Fabrication of MoS2/C60 Nanolayer Field-Effect Transistor for Ultrasensitive Detection of miRNA-155. Micromachines, 14 (3): (660). [PMID:36985067]
48. Wenqi Diao, Jin Yan, Xuedong Wang, Qiuhui Qian, Huili Wang. (2023) Mechanisms regarding cardiac toxicity triggered by up-regulation of miR-144 in larval zebrafish upon exposure to triclosan. JOURNAL OF HAZARDOUS MATERIALS, 443 (130297). [PMID:36368065]
49. Jin Li, Xia Long, Juexian Cao, Yong Hu. (2023) In-situ label-free single-molecule dynamic detection of thermal-reversible reactions. CHEMICAL ENGINEERING JOURNAL, 451 (138779). [PMID:]
50. Peng Zhang, Emmanuel Jacques, Laurent Pichon, Olivier Bonnaud. (2022) An organic ambipolar charge trapping non-volatile memory device based on double heterojunctions. THIN SOLID FILMS, 759 (139458). [PMID:]
51. Linjing Wu, Fangqin Fu, Wenhao Wang, Wenhua Wang, Zhengwei Huang, Ying Huang, Xin Pan, Chuanbin Wu. (2023) Plasma protein corona forming upon fullerene nanocomplex: Impact on both counterparts. Particuology, 73 (26). [PMID:]

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