Consolidated List of Chemicals (Alphabetized by Chemical Name)

Total Page:16

File Type:pdf, Size:1020Kb

Consolidated List of Chemicals (Alphabetized by Chemical Name) CONSOLIDATED LIST OF CHEMICALS (ALPHABETIZED BY CHEMICAL NAME) CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 3037-72-7 (4-AMINOBUTYL) DIETHOXYMETHYLSILANE X 1 1000 76-15-3 (MONIO)CHLOROPENTAFLUOROETHANE [CFC 115] X 71-55-6 1,1,1 TRICHLOROETHANE [METHYL CHLOROFORM] X X X 1000 630-20-6 1,1,1,2-TETRACHLOROETHANE X X 100 79-00-5 1,1,2 TRICHLOROETHANE [ETHANE TRICHLORIDE] X X X 100 79-34-5 1,1,2,2 -TETRACHLOROETHANE [ACETYLENE X X X 100 TETRACHLORIDE] 78-99-9 1,1,-DICHLOROPROPANE X 1000 57-14-7 1,1-DIMETHYLHYDRAZINE [N,N-DIMETHYLHYDRAZINE] X X X X 10 1000 95-50-1 1,2 DICHLOROBENZENE [O-DICHLOROBENZENE] X X X 100 78-87-5 1,2 DICHLOROPROPANE [PROPYLENE DICHLORIDE] X X X 1000 95-94-3 1,2,4,5-TETRACHLOROBENZENE X X 5000 120-82-1 1,2,4-TRICHLOROBENZENE X X 100 95-63-6 1,2,4-TRIMRTHYL BENZENE [PSEUDOCUMENE] X 218-01-9 1,2-BENZPHENANTHRENE [CHRYSENE] X X 100 106-88-7 1,2-BUTYLENE OXIDE [1,2-EPOXYBUTANE] X X 1 96-12-8 1,2-DIBROMO-3-CHLOROPROPANE [NEMABROM] X X X 1 106-93-4 1,2-DIBROMOETHANE [ETHYLENE DIBROMIDE] X X X 1 107-06-2 1,2,-DICHLOROETHANE [ETHYLENE DICHLORIDE] X X X 100 10140-87-1 1,2-DICHLOROETHANOL ACETATE X 1 1000 1 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 540-59-0 1,2-DICHLOROETHYLENE [ACETYLENE DICHLORIDE] X 156-60-5 1,2-DICHLOROETHYLENE [1,2-DICHLOROETHENE (E)] X X 1000 123-33-1 1,2-DIHYDRO-3,6-PYRIDAZINEDIONE [MALEIC HYDRAZIDE] X X 5000 540-73-8 1,2-DIMETHYLHYDRAZINE [HYDRAZOMETHANE] X X 1 122-66-7 1,2-DIPHENYLHYDRAZINE [HYDRAZOBENZENE] X X X 10 111-54-6 1,2-ETHANEDIYLBISCARBAMODITHIOIC ACID X X 5000 1464-53-5 1,2,3,4 DIEPOXYBUTANE [2,2'-BIOXIRANE] X X X X 10 500 26471-62-5 1,3 DIISOCYANATOMETHYLBENZENE [TOLUENE- X X X 100 DIISOCYANATE] 99-35-4 1,3,5-TRINITROBENZENE X X 10 108-46-3 1,3-BENZENEDIOL [RESORCINOL] X X 5000 541-73-1 1,3-DICHLOROBENZENE [M-DICHLOROBENZENE] X X X 100 142-28-9 1,3-DICHLOROPROPANE X 5000 542-75-6 1,3-DICHLOROPROPYLENE [1,3-DICHLOROPROPENE] X X X 100 764-41-0 1,4-DOCHLORO-2-BUTENE X X 1 106-46-7 1,4-DICHLOROBENZENE [P-DICHLOROBENZENE] X X X 100 123-91-1 1,4-DIOXANE [1,4-DIETHYLENEDIOXIDE] X X X 100 150-15-4 1-4-NAPHITHALENEDIONE[1,4-NAPHTHOQUINONE] X X 5000 100-14-1 1-(CHLOROMETHYL)-4-NITRO-BENZENE X 1 500 10000 5344-82-1 1[O-CHLOROPHENYL)THIOUREA [(2-CHLOROPHENYL) X X X 100 100 10000 THIOUREA] 2 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 82-28-0 1-AMINO-4-METHOXY-ANTHRAQUINONE [1-AMINO-2- X METHYLANTHRAQUINONE] 101-55-3 1-BROMO-4-PHENOXY-BENZENE [4-BROMOPHENYL PHENYL X X 100 ETHER] 504-60-9 1-METHYLBUTADIENE [1,3-PENTADIENE] X X 100 107-10-8 1-PROPANAMINE [N-PROPYLAMINE] X X 5000 58-36-6 10-10'-OXYDIPHENOXARSINE [BIS(PHENOXARSIN-10- X 1 500 10000 YL)ETHER] 1116-54-7 2,2'-(NITROSOIMINO)BISETHANOL [N- X X 1 NITROSODIETHANOLAMINE] 4418-66-0 2,2'-THIOBIS [4 - CHLORO-6-METHYLPHENOL] X 1 100 10000 75-99-0 2,2,-DICHLOROPROPIONIC ACID [ALPHA-DICHLOROPIONIC X 5000 ACID] 540-84-1 2,2,4 - TRIMETHYLPENTANE X 1 58-90-2 2,3,4,6 - TETRACHLOROPHENOL X X 10 15950-66-0 2,3,4 - TRICHLOROPHENOL X 10 933-78-8 2,3,5 - TR ICHLOROPHENOL X 10 933-75-5 2,3,6- TRICHLOROPHENOL X 10 1746-01-6 2,3,7,8-TETRACHLORODIBENZO-P-DIOXIN (TCOD) [DIOXINE] X 1 78-88-6 2,3- DICHLOROPROPENE X X 100 93-76-5 2,4,5-T [(2,4-DICHLOROPHENOXY)-ACETIC ACID] X X 1000 2008-46-0 2,4,5-T AMINES X 5000 1319-72-8 2,4,5-T AMINES X 5000 3813-14-7 2,4,5-T AMINES X 5000 3 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 6369-97-7 2,4,5-T AMINES X 5000 6369-96-6 2,4,5-T AMINES X 5000 93-79-8 2,4,5-T ESTERS X 1000 1928-47-8 2,4,5-T ESTERS X 1000 2545-59-7 2,4,5-T ESTERS X 1000 61792-07-2 2,4,5-T ESTERS X 1000 25168-15-4 2,4,5-T ESTERS X 1000 13560-99-1 2,4,5-T SALTS X 1000 93-72-1 2,4,5-TP ACID [SILVEX] X X 100 32534-95-5 2,4,5-TP ACID ETERS X 100 95-95-4 2,4,5-TRICHLOROPHENOL X X X 10 88-06-2 2,4,6 TRICHLOROPHENOL [PHENACHLOR] X X X 10 88-05-1 2,4,6-TRIMETHYLANILINE [AMINOMESITYLENE] X 1 500 94-75-7 2,4-D ACID [ACETIC ACID, (2,4-DI-CHLOROPHENOXY)-] X X X 100 94-80-4 2,4-D ESTERS X 100 1928-38-7 2,4-D ESTERS X 100 94-79-1 2,4-D ESTERS X 100 1929-73-3 2,4-D ESTERS X 100 1928-61-6 2,4-D ESTERS X 100 94-11-1 2,4-D ESTERS X 100 1320-18-9 2,4-D ESTERS X 100 2971-38-2 2,4-D ESTERS X 100 4 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 53467-11-1 2,4-D ESTERS X 100 25168-26-7 2,4-D ESTERS X 100 615-05-4 2,4-DIAMINOANISOLE [4-METHOXY-1,3-BENZENEDIAMINE] X 39156-41-7 2,4-DIAMINOANISOLE SULFATE (4-MET-HOXY-M- X PHENYLENEDIAMINE, SULFATE) 120-83-2 2,4-DICHLOROPHENOL X X X 100 105-67-9 2,4-DIMETHYLPHENOL [2,4-DIXYLENOL] X X X 100 51-28-5 2,4-DINITROPHENOL [1-HYDROXY-2,4-DINITROBENZENE] X X X 10 121-14-2 2,4-DINITROTOLUENE [1-METHYL-2,4-DINITROBENZENE] X X X 10 329-71-5 2,5-DINITROPHENOL X 10 87-65-0 2,6-DICHLOROPHENOL X X 100 573-56-8 2,6-DINITROPHENOL X 10 606-20-2 2,6-DINITROTOLUENE [2-METHYL-1,3-DINITROBENZENE] X X X 100 87-62-7 2,6-XYLIDINE [2,6-DIMETHYLANILINE] X 53-96-3 2-ACETYLAMINOFLUORENE [ACETAMIDE, N-9H-FLUOREN-2- X X X 1 YL-] 117-79-3 2-AMINOANTHRAQUINONE [BETA-ANTHRAQUIMONYLAMINE] X 1338-23-4 2-BUTANONE PEROXIDE (METHYL ETHYL KENONE PEROXIDE) X X 10 532-27-4 2-CHLOROACETOPHENONE [PHENACYL CHLORIDE] X X 1 1622-32-8 2-CHLOROETHANESULFONYL CHLORIDE X 1 500 110-75-8 2-CHLOROETHYL VINYL ETHER [2-CHLOROETHOXYETHANE] X X 1000 95-57-8 2-CHLOROPHENOL [O-CHLOROPHENOL] X X 100 5 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 131-89-5 2-CYLOHEXYL 4,6-DINITROPHENOL X X 100 [DINITROCYCLOHEXYLPHENOL] 110-80-5 2-ETHOXYETHANOL [ETHYLENE GLYCOL MONOETHYL X 1000 ETHER] 98-01-1 2-FURANCARBOXYLALDEHYDE [FURFURAL] X X 5000 109-86-4 2-METHOXYETHANOL [ETHYLENE GLYCOL MONOMETHYL X ETHER] 99-55-8 2-METHYL-5-NITRO-BENZENAMINE [5-NITRO-O-TOLUIDINE] X X 100 140-76-1 2-METHYL-5-VINYL-PYRIDINE [5-VINYL-2-PICOLINE] X 1 500 88-75-5 2-NITROPHENOL [O-NITROPHENOL] X X 100 79-46-9 2-NITROPROPANE [DIMETHYLNITROMETHANE] X X X 10 90-43-7 2-PHENYLPHENOL (2 -BIPHENYLOL) [2-HYDROXYBIPHENYL] X 109-06-8 2-PICOLINE [2-METHYLPYRIDINE] X X 5000 91-94-1 3,3-DICHLOROBENZIDINE (3,3'-DI-CHLORO[1,1'-BIPHENYL)-4,4' X X X 1 DIAMINE] 119-90-4 3,3' -DIMETHOXYBENZIDINE [3,3'-DI-METHOXY [1,1'- X X X 100 BIPHENYL]-4,4'DIAMINE] 119-93-7 3,3' DIMETHYLBENZIDINE [3,3'-DI-METHYL [1,1'-BIPHENYL]- X X X 10 4,4'DIAMINE] 78-71-7 3,3-BIS[CHLOROMETHYL] OXETANE X 1 500 609-19-8 3,4,5-TRICHLOROPHENOL X 10 225-51-4 3,4 -BENZ[C]ACRIDINE [ALPHA-CHRYSIDINE] X X 100 102-36-3 3,4-DICHLOROPHENYL ISOCYANATE X 1 500 10000 610-39-9 3,4-DINITROTOLUENE [4-METHYL-1,2-DINITROBENZENE] X 10 6 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 23950-58-5 3,5-DICHLORO-N-(1,1-DIMETHYL-2-PRO-PYNYL)BENZAMIDE X X 5000 (PRONAMIDE) 64-00-6 3-1-METHYLETHYL)-PHENOL, METHYL - CARBAMATE X 1 500 10000 98-16-8 3-(TRIFLUOROMETHYL)-BENZENAMINE [M-AMINOBENZAL X 1 500 FLOURIDE] 542-76-7 3-CHLOROPROPIONITRILE X X X 1000 1000 3569-57-1 3-CHLOROPROPYL OCTYSULFOXIDE X 1 500 56-49-5 3-METHYLCHOLANTHRENE [BENZ [J]ACE-ANTHRYLENE, 1,2- X X 10 DIHYDRO-3-METHYL-] 70-69-9 4'-AMINOPROPIOPHENONE X 1 100 10000 101-61-1 4,4'METHYLENE BIS(N,N-DIMETHYL) BENZENEAMINE X 101-80-4 4,4'-DIAMINODIPHENYL ETHER [4,4-OXYDIANILINE] X 80-05-7 4,4'-ISOPROPYLIDENEDIPHENOL [P,P’- X DIHYDROXYDIPHENYLPROPANE] 101-77-9 4,4' - METHYLENE DIANILINE [4-(4-AMINOBENZYL)ANILINE] X X 1 101-14-4 4,4' - METHYLENEBIS(2-CHLOROANILINE) X X X 10 139-65-1 4,4' THIODIANILINE [BIS(P-AMINOPHENYL) SULFIDE] X 3615-21-2 4,5-DICHLOROBENZIMIDAZOLE 2-(TRIFLUOROMETHYL)- X 1 500 10000 534-52-1 4,6-DINITRO-O-CRESOL [2-METHYL-4,6-DINITROPHENOL] X X X X 10 10 10000 60-09-3 4-AMINOAZOBENZENE [P-(PHENYLAZO)ANILINE] X 92-67-1 4-AMINOBIPHENYL [4-BIPHENYLAMINE] [P-PHENYLANILINE] X X [XENYLAMINE] 1 504-24-5 4-AMINOPYRIDINE [4-PYRIDINAMINE] X X X 1000 500 10000 59-50-7 4-CHLORO-M-CRESOL [4-CHLORO-3-METHYL-PHENOL] X X 5000 7 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 3165-93-3 4-CHLORO-O-TOLUIDINE, HYDROCHLORIDE X X 100 106-47-8 4-CHLOROBENZENAMINE [P-CHLOROANILINE] X X 1000 [4-CHLOROPHENYL AMINE] 7005-72-3 4-CHLOROPHENYL PHENYL ETHER X 5000 60-11-7 4-DIMETHYLAMINOAZOBENZENE {BENZEN-AMINE, N,N X X X 10 DIMETHYL - 4 - (PHENYLAZO)] 106-49-0 4-METHYLBENZENAMINE [P-TOLUIDINE] X 100 5254-63-5 4-METHYLTHIOPHENYL DIMETHYL PHOSPHATE X 1 500 100-01-6 4-NITRO BENZENAMINE [P-NITROANILINE] X X 5000 92-93-3 4-NITROBIPHENYL [4 PHINYL NITROBENZENE] X X 1 100-02-7 4-NITROPHENOL [P-NITROPHENOL] X X X 100 1124-33-0 4-NITROPYRIDINE, 1-OXIDE [4-NITROPYRIDINE-N-OXIDE] X 1 500 10000 99-59-2 5-NITRO-O-ANISIDINE [2-AMINO-4-AMINOANISOLE] X 57-97-6 7,12-DIMETHYLBENZ [A] ANTHRACENE X X 1 83-32-9 ACENAPHTHENE X 100 208-96-8 ACENAPHYLENE X 5000 75-07-0 ACETALDEHYDE [ETHANAL] [ETHYL ALDEHYDE] X X X 1000 60-35-5 ACETAMIDE [ACETIC ACID AMIDE][ACETIMIDIC ACID] X X 1 64-19-7 ACETIC ACID[ETHANOIC ACID] [ETHYLIC ACID] X 5000 141-78-6 ACETIC ACID, ETHYL ESTER [ETHYL ACETATE] X X 5000 301-04-2 ACETIC ACID, LEAD (2+) SALT [LEAD ACETATE] X X 5000 108-24-7 ACETIC ANHYDRIDE [ACETIC OXIDE] [ACETYL ETHER] X 5000 ACETYL OXIDE] 8 CAS CHEMICAL NAME 302 CERCLA 313 RCRA RQ TPQ1 TPQ2 NUMBER 67-64-1 ACETONE [2-PROPANONE [PYROACETICACID] [DIMETHYL X X X 5000 KETONE] 75-86-5 ACET0NE CYANOHYDRIN [2-METHYLLACTONITRILE] X X X 10 1000 1752-30-3 ACETONE THIOSEMICARBAZIDE X 1 1000 10000 75-05-8 ACETONITRILE [CYANOMETHANE] [ETHANENITRILE] X X X 5000 [METHYL CYANIDE] 98-86-2 ACETOPHENONE [1-PHENYL-ETHANONE] [ACETYLBENZENE] X X 5000 [BENZOYL METHIDE] 900-95-8 ACETOXYTRIPHENYLSTANNANE [FENTIN ACETATE] X 1 500 10000 506-96-7 ACETYL BROMIDE X 5000 75-36-5 ACETYL CHLORIDE [ETHANOYL CHLORIDE] [ACETIC ACID, X X 5000 CHLORIDE] 107-02-8 ACROLEIN [2-PROPENAL] [ACRALDE-HYDE] [ETHYLENE X X X X 1 500 ALDEHYDE]
Recommended publications
  • Ri Wkh% Lrorjlfdo (Iihfwv Ri 6Hohfwhg &Rqvwlwxhqwv
    Guidelines for Interpretation of the Biological Effects of Selected Constituents in Biota, Water, and Sediment November 1998 NIATIONAL RRIGATION WQATER UALITY P ROGRAM INFORMATION REPORT No. 3 United States Department of the Interior Bureau of Reclamation Fish and Wildlife Service Geological Survey Bureau of Indian Affairs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ntroduction The guidelines, criteria, and other information in The Limitations of This Volume this volume were originally compiled for use by personnel conducting studies for the It is important to note five limitations on the Department of the Interior's National Irrigation material presented here: Water Quality Program (NIWQP). The purpose of these studies is to identify and address (1) Out of the hundreds of substances known irrigation-induced water quality and to affect wetlands and water bodies, this contamination problems associated with any of volume focuses on only nine constituents or the Department's water projects in the Western properties commonly identified during States. When NIWQP scientists submit NIWQP studies in the Western United samples of water, soil, sediment, eggs, or animal States—salinity, DDT, and the trace tissue for chemical analysis, they face a elements arsenic, boron, copper, mercury, challenge in determining the sig-nificance of the molybdenum, selenium, and zinc.
    [Show full text]
  • Carpenter Ants and Control in Homes Page 1 of 6
    Carpenter Ants and Control in Homes Page 1 of 6 Carpenter Ants and Control in Homes Fact Sheet No. 31 Revised May 2000 Dr. Jay B Karren, Extension Entomologist Alan H. Roe, Insect Diagnostician Introduction Carpenter ants are members of the insect order Hymenoptera, which includes bees, wasps, sawflies, and other ants. Carpenter ants can be occasional pests in the home and are noted particularly for the damage they can cause when nesting in wood. In Utah they are more of a nuisance rather than a major structural pest. Carpenter ants, along with a number of other ant species, utilize cavities in wood, particularly stumps and logs in decayed condition, as nesting sites. They are most abundant in forests and can be easily found under loose bark of dead trees, stumps, or fallen logs. Homeowners may bring them into their homes when they transport infested logs from forests to use as firewood. Description Carpenter ants include species that are among the largest ants found in the United States. They are social insects with a complex and well-defined caste system. The worker ants are sterile females and may occur in different sizes (majors and minors). Members of the reproductive caste (fertile males and females) are usually winged prior to mating. All ants develop from eggs deposited by a fertilized female (queen). The eggs hatch into grub-like larvae (immatures) which are fed and cared for by the workers. When fully grown, the larvae spin a cocoon and enter the pupal stage. The pupal stage is a period of transformation from the larva to adult.
    [Show full text]
  • Opinion & Information on Boric Acid
    Opinion & Information on Boric Acid By Michael R. Cartwright, Sr. (Michael R. Cartwright, Sr. is a third generation licensed professional in the fields of structural pest control and building construction and is also licensed in agriculture pest control. His qualifications are too extensive to print but are available on request from The Reporter.) Over the past years I have seen, in many homes and restaurants, boric acid covering everything. Carpets, floors, toys and furniture, in kitchen cabinets, on counter tops and tables, in refrigerators, clothing, etc. Why? Because environmentalists, helped by an uninformed news media, tell them to. Why don't the news media also explain the possible dangers of applying something not normally found in the home environment, that you or your animals will come in direct contact with? I'm writing this article even though a California environmentalist group advised me not to say anything against boric acid and that I would pay dearly for only trying to mislead the public. My company uses a lot of boric acid, but not as described above. Under an OSHA Hazard Communication Standard, based on animal chronic toxicity studies of inorganic borate chemicals, boric acid and/or borates are Hazardous Materials. California has identified boric acid as a hazardous waste. The above information is taken from Material Safety Data Sheet (MSDS) 25-80-2320 (Section 2 and 13) supplied by U.S. Borax Inc. (the major supplier of borax to many industries). The National Academy of Sciences reports that children may be uniquely sensitive to chemicals and pesticide residues because of their rapid tissue growth and development.
    [Show full text]
  • COMBINED LIST of Particularly Hazardous Substances
    COMBINED LIST of Particularly Hazardous Substances revised 2/4/2021 IARC list 1 are Carcinogenic to humans list compiled by Hector Acuna, UCSB IARC list Group 2A Probably carcinogenic to humans IARC list Group 2B Possibly carcinogenic to humans If any of the chemicals listed below are used in your research then complete a Standard Operating Procedure (SOP) for the product as described in the Chemical Hygiene Plan. Prop 65 known to cause cancer or reproductive toxicity Material(s) not on the list does not preclude one from completing an SOP. Other extremely toxic chemicals KNOWN Carcinogens from National Toxicology Program (NTP) or other high hazards will require the development of an SOP. Red= added in 2020 or status change Reasonably Anticipated NTP EPA Haz list COMBINED LIST of Particularly Hazardous Substances CAS Source from where the material is listed. 6,9-Methano-2,4,3-benzodioxathiepin, 6,7,8,9,10,10- hexachloro-1,5,5a,6,9,9a-hexahydro-, 3-oxide Acutely Toxic Methanimidamide, N,N-dimethyl-N'-[2-methyl-4-[[(methylamino)carbonyl]oxy]phenyl]- Acutely Toxic 1-(2-Chloroethyl)-3-(4-methylcyclohexyl)-1-nitrosourea (Methyl-CCNU) Prop 65 KNOWN Carcinogens NTP 1-(2-Chloroethyl)-3-cyclohexyl-1-nitrosourea (CCNU) IARC list Group 2A Reasonably Anticipated NTP 1-(2-Chloroethyl)-3-cyclohexyl-1-nitrosourea (CCNU) (Lomustine) Prop 65 1-(o-Chlorophenyl)thiourea Acutely Toxic 1,1,1,2-Tetrachloroethane IARC list Group 2B 1,1,2,2-Tetrachloroethane Prop 65 IARC list Group 2B 1,1-Dichloro-2,2-bis(p -chloropheny)ethylene (DDE) Prop 65 1,1-Dichloroethane
    [Show full text]
  • PLEASE CHECK for LATEST PART INFORMATION 0386006603 Active
    This document was generated on 07/30/2021 PLEASE CHECK WWW.MOLEX.COM FOR LATEST PART INFORMATION Part Number: 0386006603 Status: Active Overview: Beau Barrier Strips Description: 6.35mm Pitch Beau PCB Tri-Barrier Terminal Strip, without Mounting Ends, 300V, 3 Circuits Documents: 3D Model 3D Model (PDF) Drawing (PDF) RoHS Certificate of Compliance (PDF) General Series image - Reference only Product Family Terminal Blocks Series 38600 EU ELV Application N/A Not Relevant Component Type One Piece Overview Beau Barrier Strips EU RoHS China RoHS Product Name Fixed Mount Barrier Compliant Type Barrier Strip REACH SVHC UPC 800756242606 Contained Per - D(2020)4578-DC (25 Physical June 2020) Circuits (Loaded) 3 henicosafluoroundecanoic Circuits (maximum) 3 acid Color - Resin Black disodium 4- Entry Angle Horizontal amino-3-[[4'-[(2,4- Lock to Mating Part None diaminophenyl)azo] Material - Metal Brass chromium trioxide Material - Plating Mating Tin 1,3-propanesultone Material - Plating Termination Tin 1-vinylimidazole Material - Resin Polyester Alloy 4,4'-methylenedi-o- Number of Rows 1 toluidine Orientation Horizontal dibutyltin dichloride PC Tail Length 5.10mm methoxyacetic acid PCB Thickness - Recommended 3.18mm 1,2- Panel Mount No Benzenedicarboxylic Pitch - Mating Interface 6.35mm acid, bis(3- Pitch - Termination Interface 6.35mm methylbutyl) Polarized to Mating Part No disodium 3,3'-[[1,1'- Shrouded Tri-Barrier biphenyl]-4,4'- Stackable No diylbis(azo) Surface Mount Compatible (SMC) No octamethylcyclotetrasiloxane Temperature Range - Operating
    [Show full text]
  • 540.14Pri.Pdf
    Index Element names, parent hydride names and systematic names derived using any of the nomenclature systems described in this book are, with very few exceptions, not included explicitly in this index. If a name or term is referred to in several places in the book, the most informative references appear in bold type, and some of the less informative places are not cited in the index. Endings and suffixes are represented using a hyphen in the usual fashion, e.g. -01, and are indexed at the place where they would appear ignoring the hyphen. Names of compounds or groups not included in the index may be found in Tables P7 (p. 205), P9 (p. 232) and PIO (p. 234). ~, 3,87 acac, 93 *, 95 -acene, 66 \ +, 7,106 acetals, 160-161 - (minus), 7, 106 acetate, 45 - (en dash), 124-126 acetic acid, 45, 78 - (em dash), 41, 91, 107, 115-116, 188 acetic anhydride, 83 --+, 161,169-170 acetoacetic acid, 73 ct, 139, 159, 162, 164, 167-168 acetone, 78 ~, 159, 164, 167-168 acetonitrile, 79 y, 164 acetyl, III, 160, 163 11, 105, 110, 114-115, 117, 119-128, 185 acetyl chloride, 83, 183 K, 98,104-106,117,120,124-125, 185 acetylene, 78 A, 59, 130 acetylide, 41 11, 89-90,98, 104, 107, 113-116, 125-126, 146-147, acid anhydrides, see anhydrides 154, 185 acid halides, 75,83, 182-183 TC, 119 acid hydrogen, 16 cr, 119 acids ~, 167 amino acids, 25, 162-163 00, 139 carboxylic acids, 19,72-73,75--80, 165 fatty acids, 165 A sulfonic acids, 75 ct, 139,159,162,164,167-168 see also at single compounds A, 33-34 acrylic acid, 73, 78 A Guide to IUPAC Nomenclature of Organic actinide, 231 Compounds, 4, 36, 195 actinoids (vs.
    [Show full text]
  • Phosphorus and Sulfur Cosmochemistry: Implications for the Origins of Life
    Phosphorus and Sulfur Cosmochemistry: Implications for the Origins of Life Item Type text; Electronic Dissertation Authors Pasek, Matthew Adam Publisher The University of Arizona. Rights Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. Download date 07/10/2021 06:16:37 Link to Item http://hdl.handle.net/10150/194288 PHOSPHORUS AND SULFUR COSMOCHEMISTRY: IMPLICATIONS FOR THE ORIGINS OF LIFE by Matthew Adam Pasek ________________________ A Dissertation Submitted to the Faculty of the DEPARTMENT OF PLANETARY SCIENCE In Partial Fulfillment of the Requirements For the Degree of DOCTOR OF PHILOSOPHY In the Graduate College UNIVERSITY OF ARIZONA 2 0 0 6 2 THE UNIVERSITY OF ARIZONA GRADUATE COLLEGE As members of the Dissertation Committee, we certify that we have read the dissertation prepared by Matthew Adam Pasek entitled Phosphorus and Sulfur Cosmochemistry: Implications for the Origins of Life and recommend that it be accepted as fulfilling the dissertation requirement for the Degree of Doctor of Philosophy _______________________________________________________________________ Date: 04/11/2006 Dante Lauretta _______________________________________________________________________ Date: 04/11/2006 Timothy Swindle _______________________________________________________________________ Date: 04/11/2006
    [Show full text]
  • Vanadate-Molybdate Reagent Safety Data Sheet According to Federal Register / Vol
    Vanadate-Molybdate Reagent Safety Data Sheet according to Federal Register / Vol. 77, No. 58 / Monday, March 26, 2012 / Rules and Regulations Date of issue: 12/20/2013 Revision date: 05/02/2014 Supersedes: 12/20/2013 Version: 1.1 SECTION 1: Identification of the substance/mixture and of the company/undertaking 1.1. Product identifier Product form : Mixture Product name : Vanadate-Molybdate Reagent Product code : LC26600 1.2. Relevant identified uses of the substance or mixture and uses advised against Use of the substance/mixture : For laboratory and manufacturing use only. 1.3. Details of the supplier of the safety data sheet LabChem Inc Jackson's Pointe Commerce Park Building 1000, 1010 Jackson's Pointe Court Zelienople, PA 16063 - USA T 412-826-5230 - F 724-473-0647 [email protected] - www.labchem.com 1.4. Emergency telephone number Emergency number : CHEMTREC: 1-800-424-9300 or 011-703-527-3887 SECTION 2: Hazards identification 2.1. Classification of the substance or mixture GHS-US classification Skin Corr. 1B H314 Eye Dam. 1 H318 2.2. Label elements GHS-US labelling Hazard pictograms (GHS-US) : GHS05 Signal word (GHS-US) : Danger Hazard statements (GHS-US) : H314 - Causes severe skin burns and eye damage Precautionary statements (GHS-US) : P260 - Do not breathe mist, vapours, spray P264 - Wash exposed skin thoroughly after handling P280 - Wear protective gloves, eye protection, protective clothing, face protection P301+P330+P331 - IF SWALLOWED: rinse mouth. Do NOT induce vomiting P303+P361+P353 - IF ON SKIN (or hair): Remove/Take off immediately all contaminated clothing. Rinse skin with water/shower P304+P340 - IF INHALED: remove victim to fresh air and keep at rest in a position comfortable for breathing P305+P351+P338 - If in eyes: Rinse cautiously with water for several minutes.
    [Show full text]
  • Substitution and Redox Chemistry of Ruthenium Complexes
    iJ il r¿ SUBSTITUTION AND REDOX CHEMISTRY OF RUTHENIUM COMPLEXES by Paul Stuaft Moritz, B. Sc. (Hons) * A Thesis submitted for the Degree of Doctor of Philosophy. The Department of Physical and lnorganic Chemistry, The University of Adelaide. JUNE 1987 lìr.+:-c{,¡l I /tz lZ]' STATEMENT. This Thesis conta¡ns no materialwhich has been accepted for the award of any other Degree or Diploma in any University and, to the best of my knowledge and belief, contains no material previously published or written by another person, except where due reference is made in the text. I give consent that, if this Thesis is accepted for the award of the Degree of Doctor of Philosophy, it may be made available for photocopying and, if applicable, loan. Moritz. SUMMARY The coordination chemislry of ruthenium is domínated by the oxidation states, +2 and +3. Within these oxidation states, the ammine complexes form a large and welt- characterized group. This thesis reports on the chemistry of lhe hitherto neglected triammine complexes, with particular reference to their redox chemistry, and the possible formation of Ru(lV) triammine complexes with terminal oxo ligands. The chemistry of the +4 oxidation state is further explored through the formation of stable chelate complexes. The salt, [Ru(NH3)3(OH2)31(CFgSO3)3, was prepared by hydrotysis of Ru(NHs)sCts in triflic acid solution. lts spectra, electrochemistry and substitution reactions are similar to those of the well-known hexa-, penta-, and tetraammine complexes. At freshly polished platinum and glassy carbon electrodes, a quasi reversible redox wave was detected, corresponding to a proton-coupled reduction involving the pu3+7pu2+ couple.
    [Show full text]
  • Argonne Report.Pdf
    CONTENTS NOTATION ........................................................................................................................... xi ABSTRACT ........................................................................................................................... 1 1 INTRODUCTION ........................................................................................................... 5 1.1 Overview of the Emergency Response Guidebook ................................................ 5 1.2 Organization of this Report ..................................................................................... 7 2 GENERAL METHODOLOGY ....................................................................................... 9 2.1 TIH List ................................................................................................................... 10 2.1.1 Background ................................................................................................. 10 2.1.2 Changes in the TIH List for the ERG2012 ................................................. 11 2.2 Shipment and Release Scenarios ............................................................................ 11 2.2.1 Shipment Profiles ........................................................................................ 12 2.2.2 Treatment of Chemical Agents ................................................................... 14 2.3 Generics, Mixtures, and Solutions .......................................................................... 17 2.4 Analysis of Water-Reactive
    [Show full text]
  • Exposure and Use Assessment for Five PBT Chemicals
    EPA Document # EPA-740-R1-8002 June 2018 United States Office of Chemical Safety and Environmental Protection Agency Pollution Prevention Exposure and Use Assessment of Five Persistent, Bioaccumulative and Toxic Chemicals Peer Review Draft June 2018 Contents TABLES ................................................................................................................................................................... 7 FIGURES ................................................................................................................................................................. 7 1. EXECUTIVE SUMMARY ................................................................................................................................ 15 2. BACKGROUND ............................................................................................................................................. 15 3. APPROACH .................................................................................................................................................. 17 4. DECABROMODIPHENYL ETHER (DECABDE) .................................................................................................. 21 4.1. Chemistry and Physical-Chemical Properties ................................................................................ 21 4.2. Uses ................................................................................................................................................ 21 4.3. Characterization of Expected Environmental Partitioning
    [Show full text]
  • Hazardous Material Inventory Statement
    City of Brooklyn Park FIRE DEPARTMENT 5200 - 85th Avenue North Brooklyn Park MN 55443 Phone: (763)493-8020 Fax: (763) 493-8391 Hazardous Materials Inventory Statement Users Guide A separate inventory statement shall be provided for each building. An amended inventory statement shall be provided within 30 days of the storage of any hazardous materials or plastics that changes or adds a hazard class or which is sufficient in quantity to cause an increase in the quantity which exceeds 5 percent for any hazard class. The hazardous materials inventory statement shall list by hazard class categories. Each grouping shall provide the following information for each hazardous material listed for that group including a total quantity for each group of hazard class. 1. Hazard class. (See attached Hazardous Materials Categories Listing) 2. Common or trade name. 3. Chemical Abstract Service Number (CAS number) found in 29 Code of Federal Regulations (C.F.R.). 4. Whether the material is pure or a mixture, and whether the material is a solid, liquid or gas 5. Maximum aggregate quantity stored at any one time. 6. Maximum aggregate quantity In-Use (Open to atmosphere) at any one time. 7. Maximum aggregate quantity In-Use (Closed to atmosphere) at any one time. 8. Storage conditions related to the storage type, high-pile, encapsulated, non-encapsulated. Attached is a listing of categories that all materials need to be organized to. Definitions of these categories are also attached for your use. At the end of this packet are blank forms for completing this project. For questions regarding Hazardous Materials Inventory Statement contact the Fire Department at 763-493-8020.
    [Show full text]