-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Investgation on the reaction mechanism of lysozyme with metronidazole by improved spectroscopy
Rong Han, Baosheng Liu, Gaixia Li, Qiuju Zhang Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Urbach and dispersion parameters characterization of NiO doped Fe2O3 thin films.
Sami Salmann Chiad Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Solubility and conductivity study of Li-Picrate in (PC+THF) mixture in different temperature
Ashoke Hazra Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Entropy of the transition state for formation of the peptide bond in the ribosome
Lou Massa#, Asta Gindulyte, Jerome Karle Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Study the electrical resistivity and knight shift of liquid metals
Jayprakash Yadav*, S.M.Rafique Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Molecular Interactions Of Aqueous Formic Acid
Narain Datt Kandpal, B.K.Joshi Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Dissociation Constant Of Methyl Orange In Water Pools Of Reverse Micelles
Deepa Sarkar, P.V.SubbaRao Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal
-
Theoretical Study On Intermolecular Interactions Of Uracil With H2O, H2S And H2Se
Guoyong Fang, Lina Xu, Xingen Hu, Xinhua Li Original Article: Physical Chemistry: An Indian Journal