Mendeleev's Periodic Table > I - Iodine

I - Iodine

The solid halogen was discovered in 1811 by Bernard Courtois in seaweed. Iodine has been used for its antibacterial qualities. Leonard Cohen wrote a song named "Iodine" that describes the effect of iodine on the senses.
Iodine is a bluish-black, lustrous solid. It volatilises at ambient temperatures into a pretty blue-violet gas with an irritating odour. It forms compounds with most elements, but is less reactive than the other halogens, which displace it from iodides. Iodine exhibits some metallic-like properties. It dissolves readily in chloroform, carbon tetrachloride, or carbon disulphide to form beautiful purple solutions. It is only slightly soluble in water. Iodine compounds are important in organic chemistry and very useful in medicine and photography. Lack of iodine is the cause of goitre (Derbyshire neck). The deep blue colour with starch solution is characteristic of the free element. It is assimilated by seaweeds from which it may be recovered, and is found in Chilean saltpetre, caliche, old salt brines, and salt wells.

Atomic number	-	53		Density	g/mL	4	.92
Atomic weight	u	126	.9045	Melting point	K	386	.7
Bonding radius	A	1	.33	Boiling point	K	458	.4
Atomic radius	A	1	.32	Heat of vaporization	kJ/mol	20	.752
Ionization Potential	V	10	.451	Heat of fusion	kJ/mol	7	.824
Electronegativity	-	2	.66	Specific heat	J/gK	0	.214
The oxide is a strong acid.				Crystal are orthorhombic.
Electron config. : [Kr] 4d¹⁰ 5s² 5p⁵

Isotopes of I (Iodine):

MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	108 36 msec a,4.030 MeV Sb-104 107.94353	109 100 usec p,3.230 MeV Te-108 108.93819	110 0.65 sec a/EC/ECa/ECp,11.900 Sb-106/Te-110/Sn-106/Sb-109 109.93526	111 2.5 sec a/EC,8.500 Sb-107/Te-111 110.93032
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	112 3.42 sec a/EC,10.200 Sb-108/Te-112 111.92796	113 6.6 sec a/EC,7.200 Sb-109/Te-113 112.92364	114 2.1 sec EC/ECp,9.100 Te-114/Sb-113 113.92184	115 1.3 min EC,5.900 MeV Te-115 114.91787
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	116 2.91 sec EC,7.750 MeV Te-116 115.91673	117 2.22 min EC,4.670 MeV Te-117 116.91364	118 13.7 min EC,7.040 MeV Te-118 117.91339	119 19.1 min EC,3.510 MeV Te-119 118.91017
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	120 81.0 min EC,5.615 MeV Te-120 119.91005	121 2.12 hr EC,2.270 MeV Te-121 120.90737	122 3.63 min EC,4.234 MeV Te-122 121.90760	123 13.27 hr EC,1.242 MeV Te-123 122.90560
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	124 4.1760 da EC,3.160 MeV Te-124 123.90621	125 59.408 da EC,2.392 MeV Te-125 124.90462	126 13.11 da B-/EC,2.155 Xe-126/Te-126 125.90561	127 100% Stable 126.90446
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	128 24.99 min B-/EC,2.118 Xe-128/Te-128 127.90580	129 1.57E+7 yr B-,1.604 MeV Xe-129 128.90498	130 12.36 hr B-,2.949 MeV Xe-130 129.90667	131 8.02070 da B-,2.415 MeV Xe-131 130.90612
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	132 2.295 hr B-,3.577 MeV Xe-132 131.90799	133 20.8 hr B-,1.770 MeV Xe-133 132.90780	134 52.5 min B-,4.170 MeV Xe-134 133.90987	135 6.57 hr B-,2.648 MeV Xe-135 134.91005
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	136 83.4 sec B-,6.930 MeV Xe-136 135.91465	137 24.5 sec B-/B-n,5.880 Xe-137/Xe-136 136.91787	138 6.49 sec B-/B-n,7.820 Xe-138/Xe-137 137.92238	139 2.280 sec B-/B-n,6.806 Xe-139/Xe-138 138.92609
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	140 0.86 sec B-/B-n,8.760 Xe-140/Xe-139 139.93103	141 0.43 sec B-/B-n,7.800 Xe-141/Xe-140 140.93505	142 0.2 sec B-,6.150 MeV Xe-142 142.0

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