Edmund Storms
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American nuclear chemist
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Edmund Stormschemistry Degrees
Chemistry
#3397
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#4413
Historical Rank
#840
USA Rank
Physical Chemistry
#457
World Rank
#507
Historical Rank
#87
USA Rank
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Chemistry
Edmund Storms's Degrees
- Bachelors Chemistry University of Missouri
Why Is Edmund Storms Influential?
(Suggest an Edit or Addition)According to Wikipedia, Edmund Storms is a nuclear chemist known for his work in cold fusion. Career He is a nuclear chemist who worked at Los Alamos National Lab for more than 30 years. He established Kiva Labs in Santa Fe where he continues exploration of evidence of his model of cold fusion. Storms is also a Science Advisor to Cold Fusion Now.
Edmund Storms's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- The Refractory carbides (1967) (1221)
- The crystal structure of Cr23C6 (1972) (138)
- Effect of Composition on the Superconducting Transition Temperature of Tantalum Carbide and Niobium Carbide (1962) (124)
- The Science of Low Energy Nuclear Reactions (2007) (105)
- PROPERTIES OF LITHIUM HYDRIDE. I. SINGLE CRYSTALS (1960) (101)
- Phase relationship, vaporization, and thermodynamic properties of the lanthanum-boron system (1978) (82)
- The Science of Low Energy Nuclear Reaction: A Comprehensive Compilation of Evidence and Explanations about Cold Fusion (2007) (77)
- Review of Experimental Observations About the Cold Fusion Effect (1991) (75)
- THE VANADIUM-VANADIUM CARBIDE SYSTEM1 (1962) (75)
- The crystal structures of V2C and Ta2C (1965) (71)
- THE NIOBIUM—NIOBIUM CARBIDE SYSTEM1 (1960) (67)
- A study of surface stoichiometry and thermionic emission using LaB6 (1979) (66)
- Phase relations and thermodynamic properties of transition metal borides. I. The molybdenum-boron system and elemental boron. (1977) (59)
- The Variation of Lattice Parameter with Carbon Content of Niobium Carbide (1959) (49)
- Electrolytic tritium production (1990) (46)
- Lattice Dimensions of NbC as a Function of Stoichiometry (1960) (39)
- ENTHALPY OF FORMATION OF ZIRCONIUM CARBIDE. (1969) (36)
- Work Function Measurement of Lanthanum - Boron Compounds (1978) (34)
- THE HEATS OF COMBUSTION OF NIOBIUM CARBIDES1 (1961) (29)
- Thermal expansion of some niobium carbides (1967) (29)
- An equation which describes fission gas release from UN reactor fuel (1988) (29)
- The effect of hydriding on the physical structure of palladium and on the release of contained tritium (1991) (29)
- Status of cold fusion (2010) (2010) (25)
- The status of ``Cold Fusion`` (1993) (25)
- Analytical and structural analysis of the lanthanum-deficient lanthanum hexaboride (1984) (24)
- The emissivity of LaB6 at 650 nm (1979) (23)
- Measurements of excess heat from a Pons-Fleischmann-type electrolytic cell using palladium sheet (1993) (23)
- The chemical thermodynamic properties of nuclear materials. (II) High temperature enthalpy of the uranium carbides (1973) (22)
- Low‐Energy Nuclear Reactions: Transmutations (2011) (22)
- Atom vacancies and their effects on the properties of nbn containing Carbon, Oxygen or Boron—II: Superconducting transition temperature (1975) (21)
- The heat of formation of uranium carbide (1967) (21)
- Thermal Expansion of Some Vanadium Carbides (1965) (21)
- Heat capacities of NbC0.702, NbC0.825, NbC0.980 and Nb2C below 320°K☆ (1966) (20)
- Review of the "Cold Fusion" Effect (1996) (19)
- Phase relationship, vaporization, and thermodynamic properties of neodymium hexaboride (1981) (18)
- An Explanation of Low-energy Nuclear Reactions (Cold Fusion) (2012) (18)
- Thermionic emission and atom vaporization of the Gd-B system (1981) (16)
- How to produce the Pons-Fleischmann effect (1996) (16)
- MOSSBAUER HYPERFINE SPECTRA OF Ta$sup 181$ IN Ta AND IN W METALS (1965) (15)
- Thermionic emission and vaporization behavior of the ternary systems of lanthanum hexaboride containing molybdenum boride, molybdenum diboride, zirconium diboride, gadolinium hexaboride, and neodymium hexaboride (1983) (15)
- Thermal conductivity of substoichiometric ZrC and NbC (1973) (15)
- Formation of β-PdD Containing High Deuterium Concentration Using Electrolysis of Heavy-Water (1998) (15)
- Sublimation thermodynamics of UO2 − x (1985) (14)
- A STUDY OF THOSE PROPERTIES OF PALLADIUM THAT INFLUENCE EXCESS ENERGY PRODUCTION BY THE “PONS-FLEISCHMANN” EFFECT Edmund Storms (1996) (14)
- A Critical Evaluation of the Pons-Fleischmann Effect (2000) (14)
- Vaporization thermodynamics of Ni-B(liquid) and Ni-B-C(liquid) (1987) (14)
- Cold Fusion: An Objective Assessment (2002) (12)
- Carbide fuels for nuclear thermal propulsion (1991) (12)
- The actinide carbides (1984) (11)
- SOME CHARACTERISTICS OF HEAT PRODUCTION USING THE " COLD FUSION " EFFECT (2002) (11)
- Thermodynamics and phase equilibria in the vanadium-silicon system (1985) (11)
- Thermal Transport in Refractory Carbides (1976) (11)
- Introduction to the Main Experimental Findings of the LENR Field (2015) (10)
- Investigation of Ta 2 C, Nb 2 C, and V 2 C for Superconductivity (1963) (10)
- A contribution to the theory of high‐temperature vaporization and electron emission: Application to neodymium hexaboride and lanthanum hexaboride (1981) (10)
- Comment on papers by K. Shanahan that propose to explain anomalous heat generated by cold fusion (2006) (10)
- Relationship between Open-circuit-voltage and Heat Production in a Pons-fleischmann Cell (10)
- How Basic Behavior of LENR can Guide A Search for an Explanation (2016) (9)
- The enthalpies of formation of Mo2C(c) and Mo3C2(c) by fluorine bomb calorimetry (1977) (9)
- What is real about cold fusion and what explanations are plausible (2010) (8)
- Effect of fuel geometry on the lifetime-temperature performance of advanced nuclear propulsion reactors (1991) (8)
- Ways to Initiate a Nuclear Reaction in Solid Environments (2001) (8)
- A Student's Guide to Cold Fusion (2012) (7)
- THE VAPORIZATION BEHAVIOR OF THE DEFECT CARBIDES. PART I. THE Nb--C SYSTEM. (1969) (7)
- Vaporization thermodynamics of Pd-B (liquid) and Pd-B-C (liquid) (1987) (7)
- The Nature of the Energy-Active State in PdD (2012) (7)
- What Conditions are Required to Initiate the Lenr Effect (2005) (7)
- Use Of A Very Sensitive Seebeck Calorimeter To Study The Pons- Fleischmann And Letts Effects (2005) (7)
- How the Explanation of LENR can be made Consistent with Observed Behaviour and Natural Laws (2015) (6)
- The Gibbs energy of formation for URe2 obtained from the interaction between UN and Re (1989) (6)
- The Nature of the Nuclear-Active-Environment Required for Low Energy Nuclear Reactions (2002) (6)
- Some Thoughts on the Nature of the Nuclear-Active Regions in Palladium (1996) (6)
- Explaining Cold Fusion (2013) (6)
- Crystallographic Data. 194. Niobium Monocarbide (1960) (5)
- Anomalous Energy Produced by PdD (2016) (5)
- My life with cold fusion as a reluctant mistress (2002) (5)
- a Very Accurate Pyrometer for General Laboratory Use (1979) (5)
- Detection of Radiation Emitted from LENR (2008) (5)
- COLD FUSION FROM A CHEMIST ’ S POINT OF VIEW (2015) (5)
- VAPORIZATION BEHAVIOR OF THE DEFECT CARBIDES. PART II. THE Y--C SYSTEM. (1971) (4)
- A study of electrolytic tritium production (1990) (4)
- Nature of energetic radiation emitted from a metal exposed to H 2 (2012) (4)
- Anomalous Heat Generated by Electrolysis Using a Palladium Cathode and Heavy Water (2002) (3)
- High‐temperature mixed carbide fuels for space propulsion reactors (2008) (3)
- Cold fusion: A challenge to modern science? (1995) (3)
- The Present Status of Cold Fusion and its Expected Influence on Science and Technology (2015) (3)
- Vaporization behavior of the defect carbides. III. The vanadium--carbon system (1973) (3)
- A new look at low-energy nuclear reaction (LENR) research: a response to Shanahan (2010) (3)
- High temperature-low density ZrC insulators made by chemical vapor deposition (1973) (3)
- How to Make a Cheap and Effective Seebeck Calorimeter (2005) (3)
- How to Explain Cold Fusion (2008) (3)
- Description of a Dual Calorimeter (2000) (3)
- A MASS SPECTROMETRIC STUDY OF THE VAPOR PRESSURE OF U(g) AND UC$sub 2$(g) OVER VARIOUS COMPOSITIONS IN THE URANIUM-CARBON SYSTEM (1965) (3)
- Efforts to explain low-energy nuclear reactions (2013) (3)
- Warming up to cold fusion (1994) (2)
- URANIUM--CARBON AND PLUTONIUM--CARBON SYSTEMS. (1969) (2)
- Vaporization thermodynamics of PdAsx (liquid), Pd0.75(As1 − xBx)0.25 (liquid) and elemental arsenic (1987) (2)
- Uranium nitride/rhenium compatibility studies applied to the SP-100 fuel system (1992) (2)
- Atom vacancies and their effects on the properties of NbN containing carbon, oxygen, or boron. I. Phase boundary, thermodynamics, and lattice parameter (1975) (2)
- Role of cluster formation in the LENR process (2009) (2)
- A New Source of Energy using Low-Energy Fusion of Hydrogen (2017) (2)
- SOME EXPERIMENTS ON ELECTRICAL CONDUCTION IN VACUUM (1957) (2)
- RADIATION PRODUCED BY GLOW DISCHARGE IN A DEUTERIUM CONTAINING GAS (Part 2) (2008) (2)
- Anomalous Heat Produced by Electrolysis of Palladium using a Heavy-Water Electrolyte (2006) (2)
- Why Cold Fusion Has Been So Hard to Explain and Duplicate (2003) (2)
- Anomalous Radiation Produced by Glow Discharge in Deuterium Containing Oxygen (2008) (1)
- What is Cold Fusion and Why Should You Care? (2012 John Chappell Memorial Paper) (2012) (1)
- Thermodynamics and Phase Equilibria in the Vandium-Silicon System. (1984) (1)
- Formation of β‐PdD Containing High Deuterium Concentration Using Electrolysis of Heavy‐Water. (1998) (1)
- SOME OBSERVATIONS CONCERNING THE MAXIMUM IN THE LATTICE PARAMETER VS COMPOSITION CURVE OF THE GROUP 4A CARBIDES (1964) (1)
- Why You Should Believe Cold Fusion is Real (2005) (1)
- What is Known or Believed (2007) (1)
- What Should Happen Next (2007) (1)
- THE LENR-CANR.ORG WEBSITE, ITS PAST AND FUTURE (2005) (1)
- Work function determination of promising electrode materials for thermionic energy converters. Semiannual report, Jul. 1975--Jan. 1976 (1976) (1)
- AN UPDATE OF LENR FOR ICCF-11 (SHORT COURSE, 10/31/04) (2006) (1)
- The enthalpy of formation of PdH as a function of H / Pd atom ratio and treatment (2018) (1)
- A RESPONSE TO THE REVIEW OF COLD FUSION BY THE DOE (2004) (1)
- ACTINIDE CARBIDES: A REVIEW OF THERMODYNAMIC PROPERTIES. (1967) (1)
- Formation of Group‐IIIb Carbides (2007) (1)
- What Is Now Known about Cold Fusion? (addendum to the Student's Guide) (2011) (1)
- An Analytical Representation of the Thermal Conductivity and Electrical Resistivity of UC 1 (2007) (1)
- Potassium, Rubidium and Cesium Carbides (2007) (0)
- 5.10.2.3.1. Boron Carbides (2007) (0)
- 5.10.2.5.3. Lanthanum Carbides (2007) (0)
- Cold Fusion for Dummies (2006) (0)
- Description of a Sensitive Seebeck Calorimeter Used for Cold Fusion Studies (2006) (0)
- Thermionic properties of the molybdenum boron system (1980) (0)
- 5.10.2.4. Formation of Group-IVb Carbides (2007) (0)
- 5.10.2.1.2. Sodium Carbides (2007) (0)
- Formation of the Group‐II Carbides (2007) (0)
- Thermionic topping of a solar power plant using converters containing lanthanum hexaboride electrodes (1978) (0)
- The Nature of the D+D Fusion Reaction in Palladium and Nickel (2021) (0)
- Carbides of Rhodium, Palladium, Iridium, and Platinum (2007) (0)
- A PRELIMINARY STUDY OF THE EFFECT OF TEMPERATURE ON HIGH-VACUUM ELECTRICAL CONDUCTION (thesis) (1957) (0)
- Thermal transport in refractory carbides. Final technical report (1974) (0)
- An Approach to Explaining Cold Fusion (2012) (0)
- THE ENTHALPIES OF FORMATION OF MOLYBDENUM CARBIDES MO2C(C) AND MO3C2(C) BY FLUORINE BOMB CALORIMETRY (1978) (0)
- The effect of a temperature gradient on the apparent pressure in a Knudsen effusion cell (1965) (0)
- Analytical representation of the thermal conductivity and electrical resistivity of UC/sub 1 +- x/, PuC/sub 1-x/, and (U/sub y/Pu/sub 1-y/)C/sub 1 +- x/ (1982) (0)
- The Method and Results Using Seebeck Calorimetry (2009) (0)
- Succes in Making Tritium (2013) (0)
- Dance of Discovery (1990) (0)
- THERMODYNAMICS OF REFRACTORY MATERIALS. (1968) (0)
- Ruthenium and Osmium Carbide (2007) (0)
- Giving NA Carbides (2007) (0)
- Vaporization behavior of the zirconium--uranium--carbon system (1973) (0)
- The Formation of Complex Carbides (2007) (0)
- Water In Water Out Thermistor Thermistor Stirrer Teflon sheet O-ring Thermistor Recombiner Anode Fluid level to anode to cathode To pressure gauge Pyrex (2004) (0)
- Carbon‐Group‐IA Bonds (2007) (0)
- Radiation Produced By Glow Discharge In Deuterium . in 8 th International Workshop on Anomalies in Hydrogen / Deuterium Loaded Metals (2007) (0)
- What Is Detected and How Is It Measured (2007) (0)
- The basic nature of the cold fusion effect (2020) (0)
- 1 LOW ENERGY NUCLEAR REACTIONS : TRANSMUTATIONS (2011) (0)
- Formation of the Rare‐Earth Carbides (2007) (0)
- Brief Summary of Cold Fusion (2007) (0)
- Explanations, the Hopes and Dreams of Theoreticians (2007) (0)
- What Conditions Initiate Cold Fusion (2007) (0)
- Thermodynamic and phase relationships of the Zr--U--C system (1973) (0)
- Facts Being Distorted in Cold Fusion Controversy (1996) (0)
- 5.10.2.9.3. Nickel Carbides (2007) (0)
- Giving K, RB and CS Carbides (2007) (0)
- 5.10.2.9. Formation of Group-VIII Carbides (2007) (0)
- The Formation of Transition‐Metal Carbides (2007) (0)
- History as Seen from the Los Alamos National Laboratory—and Beyond (2007) (0)
- Performance of advanced high-temperature fuels for nuclear propulsion (1994) (0)
- Cold Fusion Has Now Come Out of the Cold (2003) (0)
- Efforts to explain low-energy nuclear reactions (2013) (0)
- A New Method for Initiating Nuclear Reactions (1999) (0)
- 5.10.2.7.3. Plutonium Carbides (2007) (0)
- Excess Power Using Thin Layers of Palladium on Inert Substrates (2000) (0)
- The Formation of Carbides, Silicides and Germides (2007) (0)
- Personal Experience Investigating Cold Fusion (2007) (0)
- Where Does Cold Fusion Occur and What Influences its Behavior (2007) (0)
- The crystal structure of Cr23 C6 (1972) (0)
- Vanadium, Niobium and Tantalum Carbides (2007) (0)
- What is believed about cold fusion (2009) (0)
- Titanium, Zirconium and Hafnium Carbides (2007) (0)
- 5.10.2.7. Actinide Carbides (2007) (0)
- Formation of SC, Y and LA Carbides (2007) (0)
- Cold Fusion, Continued (1991) (0)
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