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

40 Citations COA COA
In stock
Item Number
F434635
Grouped product items
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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
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Bulk Order  SDS  DATASHEET  Specification Sheet

Basic Description

Synonyms Fullerene C60(Purity: 99.9wt%) | XMWRBQBLMFGWIX-UHFFFAOYSA-N | buckminsterfulereno | Fullerene Nanotubes, Single-Walled | fullerenes C84 | Q1075376 | D81921 | Fullerene C70(Purity: 99.5wt%) | Fullerene powder, mixed refined, typically 77% C{60}, 22% C{70}
Specifications & Purity sublimed grade, ≥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.

Taxonomic Classification

Taxonomy Tree

Kingdom Organic compounds
Superclass Benzenoids
Class Phenanthrenes and derivatives
Subclass Triphenylenes
Intermediate Tree Nodes Not available
Direct Parent Triphenylenes
Alternative Parents Chrysenes  Naphthalenes  
Molecular Framework Aromatic homopolycyclic compounds
Substituents Triphenylene - Chrysene - Naphthalene - Aromatic homopolycyclic compound
Description This compound belongs to the class of organic compounds known as triphenylenes. These are compounds containing a triphenylene moiety, which consists of four fused benzene rings forming a 9,10-benzo[l]phenanthrene.
External Descriptors fullerene

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
InChIKey XMWRBQBLMFGWIX-UHFFFAOYSA-N
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
Molecular Weight 720.64
Beilstein 5901022
Reaxy-Rn 5901022
Reaxys-RN_link_address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=5901022&ln=

Certificates(CoA,COO,BSE/TSE and Analysis Chart)

C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

Find and download the COA for your product by matching the lot number on the packaging.

3 results found

Lot Number Certificate Type Date Item
D2508006 Certificate of Analysis Apr 10, 2025 F434635
C2525125 Certificate of Analysis Apr 07, 2025 F434635
C2525130 Certificate of Analysis Mar 31, 2025 F434635

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
Molecular Weight 720.600 g/mol
XLogP3 18.300
Hydrogen Bond Donor Count 0
Hydrogen Bond Acceptor Count 0
Rotatable Bond Count 0
Exact Mass 720 Da
Monoisotopic Mass 720 Da
Topological Polar Surface Area 0.000 Ų
Heavy Atom Count 60
Formal Charge 0
Complexity 2030.000
Isotope Atom Count 0
Defined Atom Stereocenter Count 0
Undefined Atom Stereocenter Count 0
Defined Bond Stereocenter Count 0
Undefined Bond Stereocenter Count 0
The total count of all stereochemical bonds 0
Covalently-Bonded Unit Count 1

Citations of This Product

How to Cite Aladdin Scientific Products?
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,     
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,  (21): (11061–11069). 
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). 
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). 
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). 
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). 
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). 
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). 
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). 
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). 
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). 
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). 
13. Zenghui Liu, Hesen Wang, Jinge Li, Mengli Wang, Huaixia Yang, Fuchun Si, Jinming Kong.  (2021)  Detection of exosomes via an electrochemical biosensor based on C60-Au-Tb composite.  MICROCHEMICAL JOURNAL,  170  (106772). 
14. Zhang-Na Qin, Jun Ding, Qiong-Wei Yu, Ping Zhou, Yu-Qi Feng.  (2021)  A boronic acid–modified C60 derivatization reagent for the rapid detection of 3-monochloropropane-1,2-diol using matrix-assisted laser desorption/ionization-mass spectrometry.  RAPID COMMUNICATIONS IN MASS SPECTROMETRY,  35  (19): (e9169). 
15. Wei Xiao, Xin Ji.  (2021)  Effect of nano fillers on the properties of polytetrafluoroethylene composites: Experimental and theoretical simulations.  JOURNAL OF APPLIED POLYMER SCIENCE,  138  (45): (51340). 
16. Xiao-Pan Liu, Wen-Qian Sun, Tong-Xin Liu, Bing-Bing Liu, Chang-Po Chen.  (2021)  Fullerenol as a water-soluble MALDI-MS matrix for rapid analysis of small molecules and efficient quantification of saccharin sodium in foods.  JOURNAL OF CHROMATOGRAPHY B-ANALYTICAL TECHNOLOGIES IN THE BIOMEDICAL AND LIFE SCIENCES,  1178  (122819). 
17. Yan Dong, Peng Zhen, Wang Wei, Zeng Peng, Huang Yiyin.  (2021)  Fragmenting C60 toward enhanced electrochemical CO2 reduction.  JOURNAL OF MATERIALS SCIENCE,  56  (19): (11426-11435). 
18. Siqi Sun, Min Lu, Jie Guo, William W. Yu, Zhifeng Shi, Guang Sun, Yu Zhang.  (2020)  Double Electron Transport Layer and Optimized CsPbI3 Nanocrystal Emitter for Efficient Perovskite Light-Emitting Diodes.  Journal of Physical Chemistry C,  124  (51): (28277–28284). 
19. Yuan Zhao, Xiaoliang Liu, Guangdi Feng, Lu Lyu, Lin Li, Shitan Wang, Jie Jiang, Youzhen Li, Dongmei Niu, Haipeng Xie, Yongli Gao.  (2020)  Modification of C60 nano-interlayers on organic field-effect transistors based on 2,7-diocty[1]benzothieno-[3,2-b]benzothiophene (C8-BTBT)/SiO2.  Results in Physics,  19  (103590). 
20. Hai XU, Pan ZHANG, Shao-Yan ZHOU, Qiong JIA.  (2020)  Fullerene Functionalized Magnetic Molecularly Imprinted Polymer: Synthesis, Characterization and Application for Efficient Adsorption of Methylene Blue.  CHINESE JOURNAL OF ANALYTICAL CHEMISTRY,  48  (e20107). 
21. Ying Hou, Yinxu Pan, Chunhong Dong, Bei Nie.  (2020)  Direct transformation of AgNO3 complex encapsulated Fullerene (C60) microcrystal on solid silver Nitrate Crystal without organic Ligands.  APPLIED ORGANOMETALLIC CHEMISTRY,  34  (12): (e5978). 
22. Zhang-Na Qin, Jun Ding, Qiong-Wei Yu, Chu-Bo Qi, Dong-Mei Wu, Ping Zhou, Yu-Qi Feng.  (2020)  Development of C60-based labeling reagents for the determination of low-molecular-weight compounds by matrix assisted laser desorption ionization mass spectrometry (II): Determination of thiols in human serum.  ANALYTICA CHIMICA ACTA,  1105  (112). 
23. Tian Zheng, Xinru Wan, Qingchun Zhang, Bo Jin, Ru-Fang Peng.  (2020)  Catechol amide derivatized polyhydroxylated fullerene as potential chelating agents of radionuclides: Synthesis, reactive oxygen species scavenging, and cytotoxic studies.  JOURNAL OF INORGANIC BIOCHEMISTRY,  203  (110921). 
24. Xin Wang, Yao Wu, Guanwen Li, Jun Wu, XiaoBing Zhang, Qing Li, Baoping Wang, Jing Chen, Wei Lei.  (2018)  Ultrafast Ionizing Radiation Detection by p–n Junctions Made with Single Crystals of Solution-Processed Perovskite.  Advanced Electronic Materials,  (11): (1800237). 
25. Minglei Chu, Huichang Gao, Sa Liu, Lin Wang, Yongguang Jia, Meng Gao, Miaojian Wan, Chengfang Xu, Li Ren.  (2018)  Functionalization of composite bacterial cellulose with C60 nanoparticles for wound dressing and cancer therapy.  RSC Advances,  (33): (18197-18203). 
26. Hongye Huang, Meiying Liu, Junyu Chen, Liucheng Mao, Guanjian Zeng, Yuanqing Wen, Jianwen Tian, Naigen Zhou, Xiaoyong Zhang, Yen Wei.  (2018)  Facile fabrication of carboxyl groups modified fluorescent C60 through a one-step thiol-ene click reaction and their potential applications for biological imaging and intracellular drug delivery.  Journal of the Taiwan Institute of Chemical Engineers,  86  (192). 
27. Peipei Chen, Ting Wang, Xiangli Zheng, Dong Tian, Fangquan Xia, Changli Zhou.  (2018)  An ultrasensitive electrochemical immunosensor based on C60-modified polyamidoamine dendrimers and Au NPs for co-catalytic silver deposition.  NEW JOURNAL OF CHEMISTRY,  42  (6): (4653-4660). 
28. Dazhuang Xu, Meiying Liu, Qiang Huang, Junyu Chen, Hongye Huang, Fengjie Deng, Jianwen Tian, Yuanqing Wen, Xiaoyong Zhang, Yen Wei.  (2018)  A Novel method for the preparation of fluorescent C60 poly(amino acid) composites and their biological imaging.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,  516  (392). 
29. Yayun Peng, Dongzhi Yang, Weifei Lu, Xiongwei Hu, Hao Hong, Ting Cai.  (2017)  Positron emission tomography (PET) guided glioblastoma targeting by a fullerene-based nanoplatform with fast renal clearance.  Acta Biomaterialia,  61  (193). 
30. Ting Song, Piyong Zhang, Jian Zeng, Tingting Wang, Atif Ali, Heping Zeng.  (2017)  Boosting the photocatalytic H2 evolution activity of Fe2O3 polymorphs (α-, γ- and β-Fe2O3) by fullerene [C60]-modification and dye-sensitization under visible light irradiation.  RSC Advances,  (46): (29184-29192). 
31. Pin Wu, Hua-Ming Xiao, Jun Ding, Qian-Yun Deng, Fang Zheng, Yu-Qi Feng.  (2017)  Development of C60-based labeling reagents for the determination of low-molecular-weight compounds by matrix assisted laser desorption ionization mass (I): Determination of amino acids in microliter biofluids.  ANALYTICA CHIMICA ACTA,  960  (90). 
32. Qiang Cai, Zhuofeng Hu, Qian Zhang, Boyuan Li, Zhurui Shen.  (2017)  Fullerene (C60)/CdS nanocomposite with enhanced photocatalytic activity and stability.  APPLIED SURFACE SCIENCE,  403  (151). 
33. Yuan Yang, Li Luo, Hai-Pu Li, Qiang Wang, Zhao-Guang Yang, Chen-Lu Long.  (2016)  Separation and determination of silver nanoparticle in environmental water and the UV-induced photochemical transformations study of AgNPs by cloud point extraction combined ICP-MS.  TALANTA,  161  (342). 
34. Ting Song, Jingpei Huo, Tian Liao, Jian Zeng, Jiayi Qin, Heping Zeng.  (2016)  Fullerene [C60] modified Cr2−xFexO3 nanocomposites for enhanced photocatalytic activity under visible light irradiation.  CHEMICAL ENGINEERING JOURNAL,  287  (359). 
35. Jin Luo, Yanhua Wang, Rong Ren, Weilin Sun, Zhiquan Shen.  (2014)  Designed magnetic multilayer thin films fabricated via the layer-by-layer assembly of polycyanofullerenes.  JOURNAL OF APPLIED POLYMER SCIENCE,  131  (17):  
36. Hongjuan Wu, Caihong Zhang, Lifeng Li, Jianbin Chao, Yujie Han, Chuan Dong, Yujing Guo, Shaomin Shuang.  (2013)  Cyclotriveratrylene–carbazole cage for self-assembly of C60.  TALANTA,  106  (454). 
37. Yan Xiao, Meng Zhang, Hao-Di Wu, Ge-Bo Pan.  (2012)  Synthesis and characterization of tri-component nanostructures of fullerene.  MATERIALS LETTERS,  89  (28). 
38. Xue Xu, Ruibin Li, Ming Ma, Xia Wang, Yonghua Wang, Hanfa Zou.  (2012)  Multidrug resistance protein P-glycoprotein does not recognize nanoparticle C60: experiment and modeling.  Soft Matter,  (10): (2915-2923). 
39. Zhengge Chen, Yi Hong, Futao Lin, Xiongfei Zha, Fengcheng Lin, Yang Li, Bin Hu, Qi Huang, Lei Li, Zhengxu Huang, Li Ding, Zhen Zhou.  (2025)  An Ultra-High-Resolution Mass Spectrometer with an Intermediate-Pressure Matrix-Assisted Laser Desorption/Ionization Source.  ANALYTICAL CHEMISTRY,  97  (13): (7369-7377). 
40. Gaofeng Chen, Zhiwei Wang, Na Guo, Lei Liu, Huina Zhu, Qun Wang, Tingzhou Lei.  (2025)  Preparation of Hydrogen Storage Liquid Fuel by Biomass-Based Syngas from Corn Straw over a C60 Modified Hydrophobic Catalyst.  ACS Sustainable Chemistry & Engineering,     

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