Esempi in Python per PourbaixDiagram.find_stable_entry, esempi in Python per pymatgen.analysis.pourbaix_diagram.PourbaixDiagram.find_stable_entry

Esempio n. 1

0

Mostra file

    def test_mpr_pipeline(self):
        from pymatgen import MPRester
        mpr = MPRester()
        data = mpr.get_pourbaix_entries(["Zn"])
        pbx = PourbaixDiagram(data, filter_solids=True, conc_dict={"Zn": 1e-8})
        pbx.find_stable_entry(10, 0)

        data = mpr.get_pourbaix_entries(["Ag", "Te"])
        pbx = PourbaixDiagram(data,
                              filter_solids=True,
                              conc_dict={
                                  "Ag": 1e-8,
                                  "Te": 1e-8
                              })
        self.assertEqual(len(pbx.stable_entries), 30)
        test_entry = pbx.find_stable_entry(8, 2)
        self.assertAlmostEqual(test_entry.energy, 2.3936747835000016, 3)

        # Test custom ions
        entries = mpr.get_pourbaix_entries(["Sn", "C", "Na"])
        ion = IonEntry(Ion.from_formula("NaO28H80Sn12C24+"), -161.676)
        custom_ion_entry = PourbaixEntry(ion, entry_id='my_ion')
        pbx = PourbaixDiagram(entries + [custom_ion_entry],
                              filter_solids=True,
                              comp_dict={
                                  "Na": 1,
                                  "Sn": 12,
                                  "C": 24
                              })
        self.assertAlmostEqual(
            pbx.get_decomposition_energy(custom_ion_entry, 5, 2),
            8.31202738629504, 2)

Esempio n. 2

0

Mostra file

    def test_pourbaix_mpr_pipeline(self):

        data = self.rester.get_pourbaix_entries(["Zn"])
        pbx = PourbaixDiagram(data, filter_solids=True, conc_dict={"Zn": 1e-8})
        pbx.find_stable_entry(10, 0)

        data = self.rester.get_pourbaix_entries(["Ag", "Te"])
        pbx = PourbaixDiagram(data,
                              filter_solids=True,
                              conc_dict={
                                  "Ag": 1e-8,
                                  "Te": 1e-8
                              })
        self.assertEqual(len(pbx.stable_entries), 29)
        test_entry = pbx.find_stable_entry(8, 2)
        self.assertEqual(sorted(test_entry.entry_id), ["ion-10", "mp-499"])

        # Test against ion sets with multiple equivalent ions (Bi-V regression)
        entries = self.rester.get_pourbaix_entries(["Bi", "V"])
        pbx = PourbaixDiagram(entries,
                              filter_solids=True,
                              conc_dict={
                                  "Bi": 1e-8,
                                  "V": 1e-8
                              })
        self.assertTrue(
            all([
                "Bi" in entry.composition and "V" in entry.composition
                for entry in pbx.all_entries
            ]))

Esempio n. 3

0

Mostra file

    def test_mpr_pipeline(self):
        from pymatgen.ext.matproj import MPRester

        mpr = MPRester()
        data = mpr.get_pourbaix_entries(["Zn"])
        pbx = PourbaixDiagram(data, filter_solids=True, conc_dict={"Zn": 1e-8})
        pbx.find_stable_entry(10, 0)

        data = mpr.get_pourbaix_entries(["Ag", "Te"])
        pbx = PourbaixDiagram(data, filter_solids=True, conc_dict={"Ag": 1e-8, "Te": 1e-8})
        self.assertEqual(len(pbx.stable_entries), 30)
        test_entry = pbx.find_stable_entry(8, 2)
        self.assertAlmostEqual(test_entry.energy, 2.3894017960000009, 1)

        # Test custom ions
        entries = mpr.get_pourbaix_entries(["Sn", "C", "Na"])
        ion = IonEntry(Ion.from_formula("NaO28H80Sn12C24+"), -161.676)
        custom_ion_entry = PourbaixEntry(ion, entry_id="my_ion")
        pbx = PourbaixDiagram(
            entries + [custom_ion_entry],
            filter_solids=True,
            comp_dict={"Na": 1, "Sn": 12, "C": 24},
        )
        self.assertAlmostEqual(pbx.get_decomposition_energy(custom_ion_entry, 5, 2), 2.1209002582, 1)

        # Test against ion sets with multiple equivalent ions (Bi-V regression)
        entries = mpr.get_pourbaix_entries(["Bi", "V"])
        pbx = PourbaixDiagram(entries, filter_solids=True, conc_dict={"Bi": 1e-8, "V": 1e-8})
        self.assertTrue(all(["Bi" in entry.composition and "V" in entry.composition for entry in pbx.all_entries]))

Esempio n. 4

0

Mostra file

File: test_pourbaix_diagram.py Progetto: zooks97/pymatgen

    def test_solid_filter(self):
        entries = self.test_data["Zn"]
        pbx = PourbaixDiagram(entries, filter_solids=False)
        oxidized_phase = pbx.find_stable_entry(10, 2)
        self.assertEqual(oxidized_phase.name, "ZnO2(s)")

        entries = self.test_data["Zn"]
        pbx = PourbaixDiagram(entries, filter_solids=True)
        oxidized_phase = pbx.find_stable_entry(10, 2)
        self.assertEqual(oxidized_phase.name, "ZnO(s)")

Esempio n. 5

0

Mostra file

File: test_pourbaix_diagram.py Progetto: adengz/pymatgen

    def test_multicomponent(self):
        # Assure no ions get filtered at high concentration
        ag_n = [e for e in self.test_data['Ag-Te-N']
                if not "Te" in e.composition]
        highconc = PourbaixDiagram(ag_n, filter_solids=True,
                                   conc_dict={"Ag": 1e-5, "N": 1})
        entry_sets = [set(e.entry_id) for e in highconc.stable_entries]
        self.assertIn({"mp-124", "ion-17"}, entry_sets)

        # Binary system
        pd_binary = PourbaixDiagram(self.test_data['Ag-Te'], filter_solids=True,
                                    comp_dict={"Ag": 0.5, "Te": 0.5},
                                    conc_dict={"Ag": 1e-8, "Te": 1e-8})
        self.assertEqual(len(pd_binary.stable_entries), 30)
        test_entry = pd_binary.find_stable_entry(8, 2)
        self.assertTrue("mp-499" in test_entry.entry_id)

        # Find a specific multientry to test
        self.assertEqual(pd_binary.get_decomposition_energy(test_entry, 8, 2), 0)
        self.assertEqual(pd_binary.get_decomposition_energy(
            test_entry.entry_list[0], 8, 2), 0)

        pd_ternary = PourbaixDiagram(self.test_data['Ag-Te-N'], filter_solids=True)
        self.assertEqual(len(pd_ternary.stable_entries), 49)

        ag = self.test_data['Ag-Te-N'][30]
        self.assertAlmostEqual(pd_ternary.get_decomposition_energy(ag, 2, -1), 0)
        self.assertAlmostEqual(pd_ternary.get_decomposition_energy(ag, 10, -2), 0)

        # Test invocation of pourbaix diagram from ternary data
        new_ternary = PourbaixDiagram(pd_ternary.all_entries)
        self.assertEqual(len(new_ternary.stable_entries), 49)
        self.assertAlmostEqual(new_ternary.get_decomposition_energy(ag, 2, -1), 0)
        self.assertAlmostEqual(new_ternary.get_decomposition_energy(ag, 10, -2), 0)

Esempio n. 6

0

Mostra file

    def test_multicomponent(self):
        # Assure no ions get filtered at high concentration
        ag_n = [e for e in self.test_data['Ag-Te-N']
                if not "Te" in e.composition]
        highconc = PourbaixDiagram(ag_n, filter_solids=True,
                                   conc_dict={"Ag": 1e-5, "N": 1})
        entry_sets = [set(e.entry_id) for e in highconc.stable_entries]
        self.assertIn({"mp-124", "ion-17"}, entry_sets)

        # Binary system
        pd_binary = PourbaixDiagram(self.test_data['Ag-Te'], filter_solids=True,
                                    comp_dict={"Ag": 0.5, "Te": 0.5},
                                    conc_dict={"Ag": 1e-8, "Te": 1e-8})
        self.assertEqual(len(pd_binary.stable_entries), 30)
        test_entry = pd_binary.find_stable_entry(8, 2)
        self.assertTrue("mp-499" in test_entry.entry_id)

        # Find a specific multientry to test
        self.assertEqual(pd_binary.get_decomposition_energy(test_entry, 8, 2), 0)
        self.assertEqual(pd_binary.get_decomposition_energy(
            test_entry.entry_list[0], 8, 2), 0)

        pd_ternary = PourbaixDiagram(self.test_data['Ag-Te-N'], filter_solids=True)
        self.assertEqual(len(pd_ternary.stable_entries), 49)

        ag = self.test_data['Ag-Te-N'][30]
        self.assertAlmostEqual(pd_ternary.get_decomposition_energy(ag, 2, -1), 0)
        self.assertAlmostEqual(pd_ternary.get_decomposition_energy(ag, 10, -2), 0)

        # Test invocation of pourbaix diagram from ternary data
        new_ternary = PourbaixDiagram(pd_ternary.all_entries)
        self.assertEqual(len(new_ternary.stable_entries), 49)
        self.assertAlmostEqual(new_ternary.get_decomposition_energy(ag, 2, -1), 0)
        self.assertAlmostEqual(new_ternary.get_decomposition_energy(ag, 10, -2), 0)

Esempio n. 7

0

Mostra file

File: test_pourbaix_diagram.py Progetto: kjappelbaum/pymatgen

    def test_multicomponent(self):
        # Assure no ions get filtered at high concentration
        ag_n = [e for e in self.test_data["Ag-Te-N"] if "Te" not in e.composition]
        highconc = PourbaixDiagram(
            ag_n, filter_solids=True, conc_dict={"Ag": 1e-5, "N": 1}
        )
        entry_sets = [set(e.entry_id) for e in highconc.stable_entries]
        self.assertIn({"mp-124", "ion-17"}, entry_sets)

        # Binary system
        pd_binary = PourbaixDiagram(
            self.test_data["Ag-Te"],
            filter_solids=True,
            comp_dict={"Ag": 0.5, "Te": 0.5},
            conc_dict={"Ag": 1e-8, "Te": 1e-8},
        )
        self.assertEqual(len(pd_binary.stable_entries), 30)
        test_entry = pd_binary.find_stable_entry(8, 2)
        self.assertTrue("mp-499" in test_entry.entry_id)

        # Find a specific multientry to test
        self.assertEqual(pd_binary.get_decomposition_energy(test_entry, 8, 2), 0)

        pd_ternary = PourbaixDiagram(self.test_data["Ag-Te-N"], filter_solids=True)
        self.assertEqual(len(pd_ternary.stable_entries), 49)

        # Fetch a solid entry and a ground state entry mixture
        ag_te_n = self.test_data["Ag-Te-N"][-1]
        ground_state_ag_with_ions = MultiEntry(
            [self.test_data["Ag-Te-N"][i] for i in [4, 18, 30]],
            weights=[1 / 3, 1 / 3, 1 / 3],
        )
        self.assertAlmostEqual(
            pd_ternary.get_decomposition_energy(ag_te_n, 2, -1), 2.767822855765
        )
        self.assertAlmostEqual(
            pd_ternary.get_decomposition_energy(ag_te_n, 10, -2), 3.756840056890625
        )
        self.assertAlmostEqual(
            pd_ternary.get_decomposition_energy(ground_state_ag_with_ions, 2, -1), 0
        )

        # Test invocation of pourbaix diagram from ternary data
        new_ternary = PourbaixDiagram(pd_ternary.all_entries)
        self.assertEqual(len(new_ternary.stable_entries), 49)
        self.assertAlmostEqual(
            new_ternary.get_decomposition_energy(ag_te_n, 2, -1), 2.767822855765
        )
        self.assertAlmostEqual(
            new_ternary.get_decomposition_energy(ag_te_n, 10, -2), 3.756840056890625
        )
        self.assertAlmostEqual(
            new_ternary.get_decomposition_energy(ground_state_ag_with_ions, 2, -1), 0
        )

Esempio n. 8

0

Mostra file

File: test_pourbaix_diagram.py Progetto: mbkumar/pymatgen

    def test_mpr_pipeline(self):
        from pymatgen import MPRester
        mpr = MPRester()
        data = mpr.get_pourbaix_entries(["Zn"])
        pbx = PourbaixDiagram(data, filter_solids=True, conc_dict={"Zn": 1e-8})
        pbx.find_stable_entry(10, 0)

        data = mpr.get_pourbaix_entries(["Ag", "Te"])
        pbx = PourbaixDiagram(data, filter_solids=True,
                              conc_dict={"Ag": 1e-8, "Te": 1e-8})
        self.assertEqual(len(pbx.stable_entries), 30)
        test_entry = pbx.find_stable_entry(8, 2)
        self.assertAlmostEqual(test_entry.energy, 2.393900378500001)

        # Test custom ions
        entries = mpr.get_pourbaix_entries(["Sn", "C", "Na"])
        ion = IonEntry(Ion.from_formula("NaO28H80Sn12C24+"), -161.676)
        custom_ion_entry = PourbaixEntry(ion, entry_id='my_ion')
        pbx = PourbaixDiagram(entries + [custom_ion_entry], filter_solids=True,
                              comp_dict={"Na": 1, "Sn": 12, "C": 24})
        self.assertAlmostEqual(pbx.get_decomposition_energy(custom_ion_entry, 5, 2),
                               8.31082110278154)

Esempio n. 9

0

Mostra file

File: test_pourbaix_diagram.py Progetto: zbwang/pymatgen

    def test_multicomponent(self):
        # Binary system
        pd_binary = PourbaixDiagram(self.test_data['Ag-Te'], filter_solids=True,
                                    comp_dict={"Ag": 0.5, "Te": 0.5},
                                    conc_dict={"Ag": 1e-8, "Te": 1e-8})
        self.assertEqual(len(pd_binary.stable_entries), 30)
        test_entry = pd_binary.find_stable_entry(8, 2)
        self.assertTrue("mp-499" in test_entry.entry_id)

        # Find a specific multientry to test
        self.assertEqual(pd_binary.get_decomposition_energy(test_entry, 8, 2), 0)
        self.assertEqual(pd_binary.get_decomposition_energy(
            test_entry.entry_list[0], 8, 2), 0)

        pd_ternary = PourbaixDiagram(self.test_data['Ag-Te-N'], filter_solids=True)
        self.assertEqual(len(pd_ternary.stable_entries), 49)

        ag = self.test_data['Ag-Te-N'][30]
        self.assertAlmostEqual(pd_ternary.get_decomposition_energy(ag, 2, -1), 0)
        self.assertAlmostEqual(pd_ternary.get_decomposition_energy(ag, 10, -2), 0)