You have been waiting for this for a long time, we have kept you waiting for a long time, but the doors of the chemistry laboratory have opened again.

All chemical apprentices are welcome to come in and bring their periodic table NFT wallet with them.

In the chair, the professor is already explaining the topic and methods. We try to give you a brief summary to allow you to retrieve all the most important information.

He had already said that the main element of this lesson was the TIN. A few days ago the NFTs were distributed to those who participated in the two organized giveaways. You can find the article describing element 50 of the periodic table at this link.

The first element that you can compose in the new laboratory is bronze. A very simple molecule based on two single elements. We expect many of you to participate in a positive way. We wanted to choose something simple for the restart.

For the more aggressive, we have reserved a slightly more complex molecule: tin triphosphide. Again, only two different elements make up the molecule, but the required number is 7 atoms.

But let's start with two brief descriptions.

Bronze

Bronze is an alloy composed of copper and tin; sometimes it can be bonded with a metal which can be aluminum, nickel and beryllium.

It was used extensively during the Bronze Age, to build tools, weapons, armor and tools that were stronger and lighter than those of stone or copper; arsenic was added to the component metals, mostly as impurities, which contributed to making the alloy even harder.

This alloy composed mainly of copper (Cu), is enriched with tin (Sn) up to 8-9%, giving rise to alloys with good mechanical characteristics and great resistance to corrosion: these alloys are still workable plastically and can be laminated, extrude, forge, stamp and draw. By further increasing the tin content, the hardness reaches levels that allow only pieces obtained by casting, also called castings.

During the Baroque period the ornamentation of furniture and chandeliers abounded while in the subsequent Rococo and until the whole of the nineteenth century it was widely used, often using gilded bronze, to embellish porcelain.

Tin phosphide

Tin Phosphide is a semiconductor used in high power, high frequency applications and in laser and other photo diodes. technical, research and safety  information is available as is a Reference Calculator for converting relevant units of measurement.

Tin phosphide (Sn4P3) has emerged as an anode for sodium ion batteries (SIBs) due to its high reversible capacity and low redox potential.

The contest

The first thing to do to participate in this contest is to comment on this article with your wax address. The mention of some friends is appreciated to remind them of the possibility to participate.

The second thing to do is to enter the laboratory and be found at the deadline of the competition with the required elements in your wallet wax.

The contest deadline is set for Saturday 7 August at 16:00 CEST.

To win a bronze molecule NFT it is necessary to compose the molecule having in one's portfolio:

• 1 element Sn (50 - Tin) - 1 element Cu (29 - Copper).

Since the composition of the Tin phosphide molecule is more complex, more variants have been envisaged:

• 4 elements SN (50 - Tin) - 3 elements P (15 - Phosphorus)
• 2 elements SN (50 - Tin) - 2 elements P (15 - Phosphorus) - 4 celebrities (even the same)
• 2 elements SN (50 - Tin) - 2 elements P (15 - Phosphorus) - 3 different celebrities
• 2 elements SN (50 - Tin) - 1 elements P (15 - Phosphorus) - 4 different celebrities (Lavoisier, Glauber, Marggraf, Curie)

The same element of Tin can be used for the composition of both molecules.

The max supply of each molecule will be based on the number of winners + 20 NFTs.

In the next few days we will give you some information on the collection of elements.

The Periodic Table NFT project

The Periodic Table NFT project aims to raise awareness of chemical elements in a modern key, basing the approach on blockchain and Non Fungible Token.
Day after day it will be possible to know the single elements that make up the table, to collect curiosities about each of them and about the table in general.
We are working to be able to learn, in a playful way, also what happens by combining the various elements.
The whole project is based on the collection of NFTs that can be bought on the site https://wax.atomichub.io/market?collection_name=periodicelem&order=desc&sort=created&symbol=WAX or by participating in simple giveaways published on publish0x.

Elements released

• The first 30 elements
• #31 Gallium (max supply 200)
• #32 Germanium (max supply 149)
• #33 Arsenic (max supply 200)
• #34 Selenium (max supply 99)
• #35 Bromine (max supply 200)
• #36 Krypton (max supply 200)
• #37 Rubidium (max supply 249)
• #38 Strontium (max supply 200)
• #39 Yttrium (max supply 149)
• #40 Zirconium (max supply 99)
• #41 Niobium (max supply 200)
• #42 Molybdenum (max supply 200)
• #43 Technetium (max supply 200)
• #44 Ruthenium (max supply 299)
• #45 Rhodium (max supply 99)
• #46 Palladium (max supply 200)
• #47 Silver (max supply 200)
• #48 Cadmium (max supply 149)
• #49 Indium (max supply 200)
• #50 Tin (max supply 299)
• #51 Antimony (max supply 200)

Molecule released

• H2O - Water (max supply 37)
• NaCl - Salt (max supply 64)
• CaC2 - Calcium carbide (max supply 46)
• KMnO4 - Potassium permanganate (max supply 57)
• HCN - Hydrogen cyanide (max supply 59)
• CH2N2 - Diazomethane (max supply 46)
• LiCoO2 - Lithium cobalt oxide (max supply 53)
• LiBH4 - Lithium borohydride (max supply 51)
• PSYCO - Strychnine (max supply 62)

Celebrity released

• Lavoisier (max supply 149)
• Glauber (max supply 149)
• Marggraf (max supply 149)
• Curie (max supply 149)

Link to save

• Market on atomichub for the purchase of NFTs
• Blog on publish0x to be updated
• Telegram channel
• Discord: in the "all-projects" channel
• The Periodic Table of Elements WAX Book

(Photo by Roan Lavery on Unsplash)