Current through November 30, 2024
Section 1.45X-3 - [Effective 12/27/2024] Eligible components(a)In general. For purposes of the section 45X credit, eligible component means any solar energy component (as defined in paragraph (b) of this section), any wind energy component (as defined in paragraph (c) of this section), any inverter (as defined in paragraph (d) of this section), any qualifying battery component (as defined in paragraph (e) of this section), and any applicable critical mineral (as defined in § 1.45X-4(b)). See paragraph (f) of this section for certain phase-out rules applicable to eligible components other than applicable critical minerals.(b)Solar energy components. Solar energy component means a solar module, photovoltaic cell, photovoltaic wafer, solar grade polysilicon, torque tube, structural fastener, or polymeric backsheet, each as defined in this paragraph (b). (1)Photovoltaic cell-(i)Definition. Photovoltaic cell means the smallest semiconductor element of a solar module that performs the immediate conversion of light into electricity that is either a thin film photovoltaic cell or a crystalline photovoltaic cell.(ii)Credit amount. For a photovoltaic cell, the credit amount is equal to the product of 4 cents multiplied by the capacity of such photovoltaic cell. The capacity of each photovoltaic cell is expressed on a direct current watt basis. Capacity is the nameplate capacity in direct current watts using Standard Test Conditions (STC), as defined by the International Electrotechnical Commission (IEC). In the case of a tandem technology produced in serial fashion, such as a monolithic multijunction cell composed of two or more sub-cells, capacity must be measured at the point of sale at the end of the single cell production unit. In the case of a four-terminal tandem technology produced by mechanically stacking two distinct cells or interconnected layers, capacity must be measured for each cell at each point of sale. If a cell is sold to a customer who will use it as the bottom cell in a tandem module, its capacity should be measured with the customer's intended top cell placed between the bottom cell and the one-sun light source.(iii)Substantiation. The taxpayer must document the capacity of a photovoltaic cell in a bill of sale or design documentation, such as an IEC certification (for example, IEC 61215 or IEC 60904).(2)Photovoltaic wafer-(i)Definition. Photovoltaic wafer means a thin slice, sheet, or layer of semiconductor material of at least 240 square centimeters that comprises the substrate or absorber layer of one or more photovoltaic cells. A photovoltaic wafer must be produced by a single manufacturer by forming an ingot from molten polysilicon (for example, Czochralski method) and then subsequently slicing it into wafers, forming molten or evaporated polysilicon into a sheet or layer, or depositing a thin-film semiconductor photon absorber into a sheet or layer (that is, thin-film deposition).(ii)Credit amount. For a photovoltaic wafer, the credit amount is $12 per square meter.(3)Polymeric backsheet-(i)Definition. Polymeric backsheet means a sheet on the back of a solar module, composed, at least in part, of a polymer, that acts as an electric insulator and protects the inner components of such module from the surrounding environment. (ii)Credit amount. For a polymeric backsheet, the credit amount is 40 cents per square meter.(4)Solar grade polysilicon-(i)Definition. Solar grade polysilicon means silicon that is suitable for use in photovoltaic manufacturing and purified to a minimum purity of 99.999999 percent silicon by mass. Satisfaction of the minimum purity requirement will be determined in accordance with the standards provided in SEMI Specification PV17-1012, Category 1.(ii)Credit amount. For solar grade polysilicon, the credit amount is $3 per kilogram.(5)Solar module-(i)Definition. Solar module means the connection and lamination of photovoltaic cells into an environmentally protected final assembly that is- (A) Suitable to generate electricity when exposed to sunlight; and(B) Ready for installation without an additional manufacturing process.(ii)Credit amount. For a solar module, the credit amount is equal to the product of 7 cents multiplied by the capacity of such module. The capacity of each solar module is expressed on a direct current watt basis. Capacity is the nameplate capacity in direct current watts using STC, as defined by the IEC.(iii)Substantiation. The taxpayer must document the capacity of a solar module in a bill of sale or design documentation, such as an IEC certification (for example, IEC 61215 or IEC 61646).(6)Solar tracker. Solar tracker means a mechanical system that moves solar modules according to the position of the sun and to increase energy output. A torque tube (as defined in paragraph (b)(7) of this section) or structural fastener (as defined in paragraph (b)(8) of this section) are solar tracker components that are eligible components for purposes of the section 45X credit.(7)Torque tube-(i)Definition. Torque tube means a structural steel support element (including longitudinal purlins) that- (A) Is part of a solar tracker;(B) Is of any cross-sectional shape;(C) May be assembled from individually manufactured segments;(D) Spans longitudinally between foundation posts;(E) Supports solar panels and is connected to a mounting attachment for solar panels (with or without separate module interface rails); and(F) Is rotated by means of a drive system. (ii)Credit amount. For a torque tube, the credit amount is 87 cents per kilogram.(iii)Substantiation. The taxpayer must document that a torque tube is part of a solar tracker with a specification sheet, bill of sale, or other similar documentation that explicitly describes its application as part of a solar tracker.(8)Structural fastener-(i)Definition. Structural fastener means a component that is used-(A) To connect the mechanical and drive system components of a solar tracker to the foundation of such solar tracker;(B) To connect torque tubes to drive assemblies; or(C) To connect segments of torque tubes to one another. (ii)Credit amount. For a structural fastener, the credit amount is $2.28 per kilogram.(iii)Substantiation. The taxpayer must document that a structural fastener is used in a manner described in paragraph (b)(8)(i)(A), (B), or (C) of this section with a bill of sale or other similar documentation that explicitly describes such use.(c)Wind energy components. Wind energy component means a blade, nacelle, tower, offshore wind foundation, or related offshore wind vessel, each as defined in this paragraph (c).(1)Blade-(i)Definition. Blade means an airfoil-shaped blade that is responsible for converting wind energy to low-speed rotational energy.(ii)Credit amount. For a blade, the credit amount is equal to the product of 2 cents multiplied by the total rated capacity of the completed wind turbine for which the blade is designed.(2)Offshore wind foundation-(i)Definition. Offshore wind foundation means the component (including transition piece) that secures an offshore wind tower and any above-water turbine components to the seafloor using- (A) Fixed platforms, such as offshore wind monopiles, jackets, or gravity-based foundations; or(B) Floating platforms and associated mooring systems. (ii)Credit amount. For a fixed offshore wind foundation platform, the credit amount is equal to the product of 2 cents multiplied by the total rated capacity of the completed wind turbine for which the fixed offshore wind foundation platform is designed. For a floating offshore wind foundation platform, the credit amount is equal to the product of 4 cents multiplied by the total rated capacity of the completed wind turbine for which the floating offshore wind foundation platform is designed.(3)Nacelle-(i)Definition. Nacelle means the assembly of the drivetrain and other tower-top components of a wind turbine (with the exception of the blades and the hub) within their cover housing.(ii)Credit amount. For a nacelle, the credit amount is equal to the product of 5 cents multiplied by the total rated capacity of the completed wind turbine for which the nacelle is designed.(4)Related offshore wind vessel-(i)Definition. Related offshore wind vessel means any vessel that is purpose-built or retrofitted for purposes of the development, transport, installation, operation, or maintenance of offshore wind energy components. A vessel is purpose-built for development, transport, installation, operation, or maintenance of offshore wind energy components if it is built to be capable of performing such functions and it is of a type that is commonly used in the offshore wind industry. A vessel is retrofitted for development, transport, installation, operation, or maintenance of offshore wind energy components if such vessel was incapable of performing such functions prior to being retrofitted, the retrofit causes the vessel to be capable of performing such functions, and the retrofitted vessel is of a type that is commonly used in the offshore wind industry.(ii)Credit amount. For a related offshore wind vessel, the credit amount is equal to 10 percent of the sales price of the vessel. The sales price of the vessel, determined under Federal income tax principles, does not include the price of maintenance, services, or other similar items that may be sold with the vessel. For a related offshore wind vessel with respect to which an election under section 45X(a)(3)(B)(i) has been made, such election will not cause the sale price of such vessel to be treated as having been determined with respect to a transaction between uncontrolled taxpayers for purposes of section 482 of the Code and the regulations in this chapter.(5)Tower-(i)Definition. Tower means a tubular or lattice structure that supports the nacelle and rotor of a wind turbine.(ii)Credit amount. For a tower, the credit amount is equal to the product of 3 cents multiplied by the total rated capacity of the completed wind turbine for which the tower is designed.(6)Total rated capacity of the completed wind turbine. For purposes of this section, total rated capacity of the completed wind turbine means, for the completed wind turbine for which a blade, nacelle, offshore wind foundation, or tower was manufactured and sold, the nameplate capacity at the time of sale as certified to the relevant national or international standards, such as IEC 61400, or ANSI/ACP 101-1-2021, the Small Wind Turbine Standard (Standard). Certification of the turbine to such Standards must be documented by a certificate issued by an accredited certification body. The total rated capacity of a wind turbine must be expressed in watts.(7)Substantiation. Taxpayers must maintain specific documentation regarding wind energy components for which a section 45X credit is claimed. For blades, nacelles, offshore wind foundations, or towers, a taxpayer must document the turbine model for which such component is designed and the total rated capacity of the completed wind turbine in technical documentation associated with the sale of such component. For related offshore wind vessel, such documentation could include the contract to construct or retrofit (along with retrofit plans), sales contract, U.S. Coast Guard bill of sale, U.S. Coast Guard Certificate of Documentation (COD), and U.S. Coast Guard Certificate of Inspection (COI).(d)Inverters-(1)In general. Inverter means an end product that is suitable to convert direct current (DC) electricity from one or more solar modules or certified distributed wind energy systems into alternating current electricity. An end product is suitable to convert DC electricity from one or more solar modules or certified distributed wind energy systems into alternating current electricity if, in the form sold by the manufacturer, it is able to connect with such modules or systems and convert DC electricity to alternating current electricity from such connected source. The term inverter includes a central inverter, commercial inverter, distributed wind inverter, microinverter, or residential inverter. Only an inverter that meets at least one of the requirements in paragraphs (d)(2) through (7) of this section is an eligible component for purposes of the section 45X credit.(2)Central inverter-(i)Definition. Central inverter means an inverter that is suitable for large utility-scale systems and has a capacity that is greater than 1,000 kilowatts. The capacity of a central inverter is expressed on an alternating current watt basis. An inverter is suitable for large utility-scale systems if, in the form sold by the manufacturer, it is capable of serving as a component in a large utility-scale system and meets the core engineering specifications for such application.(ii)Credit amount. For a central inverter the total rated capacity of which is expressed on an alternating current watt basis, the credit amount is equal to the product of 0.25 cents multiplied by the total rated capacity of the central inverter.(iii)Substantiation. The taxpayer must document that a central inverter meets the core engineering specifications for use in a large utility-scale system and has a capacity that is greater than 1,000 kilowatts with a specification sheet, bill of sale, or other similar documentation that explicitly describes such specifications and capacity.(3)Commercial inverter-(i)Definition. Commercial inverter means an inverter that- (A) Is suitable for commercial or utility-scale applications;(B) Has a rated output of 208, 480, 600, or 800 volt three-phase power; and(C) Has a capacity expressed on an alternating current watt basis that is not less than 20 kilowatts and not greater than 125 kilowatts. (ii)Suitable for commercial or utility-scale applications. An inverter is suitable for commercial or utility-scale applications if, in the form sold by the manufacturer, it is capable of serving as a component in commercial or utility-scale systems and meets the core engineering specifications for such application.(iii)Credit amount. For a commercial inverter the total rated capacity of which is expressed on an alternating current watt basis, the credit amount is equal to the product of 2 cents multiplied by the total rated capacity of the commercial inverter.(iv)Substantiation. The taxpayer must document that a commercial inverter meets the core engineering specifications for use in commercial or utility-scale applications, the inverter's rated output, and the inverter's capacity in a specification sheet, bill of sale, or other similar documentation.(4)Distributed wind inverter-(i)In general. Distributed wind inverter means an inverter that is used in a residential or non-residential system that utilizes one or more certified distributed wind energy systems and has a total rated output, expressed on an alternating current watt basis, of not greater than 150 kilowatts.(ii)Certified distributed wind energy system. Certified distributed wind energy system means a wind energy system that is certified by an accredited certification agency to meet Standard 9.1-2009 of the American Wind Energy Association; IEC 61400-1, 61400-2, 61400-11, 61400-12; or ANSI/ACP 101-1-2021, the Standard, including any subsequent revisions to or modifications of such Standard that have been approved by ANSI.(iii)Credit amount. For a distributed wind inverter the total rated capacity of which is expressed on an alternating current watt basis, the credit amount is equal to the product of 11 cents multiplied by the total rated capacity of the distributed wind inverter.(iv)Substantiation. The taxpayer must document that a distributed wind inverter is used in a residential or non-residential system that utilizes one or more certified distributed wind energy systems with a specification sheet, bill of sale, or other similar documentation that explicitly describes such use and the total rated output of the inverter on an alternating current watt basis.(5)Microinverter-(i)Definition. Microinverter means an inverter that- (A) Is suitable to connect with one solar module;(B) Has a rated output described in paragraph (d)(5)(ii) of this section; and(C) Has a capacity, expressed on an alternating current watt basis, that is not greater than 650 watts. (ii)Rated output. For purposes of paragraph (d)(5)(i)(B) of this section, for an inverter to be a microinverter, the inverter must have a rated output of- (A) 120 or 240 volt single-phase power; or(B) 208 or 480 volt three-phase power.(iii)Suitable to connect to one solar module - (A)In general. An inverter is suitable to connect to one solar module if, in the form sold by the manufacturer, it is capable of connecting to one or more solar modules and regulating the DC electricity from each module independently before that electricity is converted into alternating current electricity. (B)Application to direct current (DC) optimized inverter systems. A DC optimized inverter system means an inverter that is comprised of an inverter connected to multiple DC optimizers that are each designed to connect to one solar module. A DC optimized inverter system is suitable to connect with one solar module if, in the form sold by the manufacturer, it is capable of connecting to one or more solar modules and regulating the DC electricity from each module independently before that electricity is converted into alternating current electricity.(C)Application to multi-module inverters. A multi-module inverter means an inverter that is comprised of an inverter with independent connections and DC optimizing components for two or more modules. A multi-module microinverter is suitable to connect with one solar module if it is capable of connecting to one or more solar modules and regulating the DC electricity from each module independently before that electricity is converted into alternating current electricity.(iv)Credit amount-(A)In general. For a microinverter the total rated capacity of which is expressed on an alternating current watt basis, the credit amount is equal to the product of 11 cents multiplied by the total rated capacity of the microinverter. (B)DC optimized inverter systems. A DC optimized inverter system qualifies as a microinverter if it meets the requirements of paragraph (d)(5)(i) of this section. For purposes of paragraph (d)(5)(i)(C) of this section, a DC optimized inverter system's capacity is determined separately for each DC optimizer paired with the inverter in a DC optimized inverter system. If each DC optimizer paired with the inverter in a DC optimized inverter system meets the requirements of paragraph (d)(5)(i) of this section, then the DC optimized inverter system qualifies as a microinverter. The credit amount for a DC optimized inverter system that qualifies as a microinverter is equal to the product of 11 cents multiplied by the lesser of the sum of the alternating current capacity of each DC optimizer when paired with the inverter in the DC optimized inverter system or the alternating current capacity of the inverter in the DC optimized inverter system. For purposes of this paragraph (d)(5)(iv)(B), capacity must be measured in watts of alternating current converted from DC electricity by the inverter in a DC optimized inverter system. For a DC optimized inverter system to qualify as a microinverter, a taxpayer must produce and sell the inverter and the DC optimizers in the DC optimized inverter system together as a combined end product.(C)Multi-module inverters. A multi-module inverter qualifies as a microinverter if it meets the requirements of paragraph (d)(5)(i) of this section. For purposes of paragraph (d)(5)(i)(C) of this section, a multi-module inverter's capacity is determined separately for each internal DC optimizer paired with the inverter. The credit amount for a multi-module inverter is equal to the product of 11 cents multiplied by the total alternating current capacity of the DC optimizers in the multi-module inverter when paired with the inverter in the system. For purposes of this paragraph (d)(5)(iv)(C), capacity must be measured in watts of alternating current converted from DC electricity by the inverter in a multi-module microinverter.(v)Substantiation. The taxpayer must document that a microinverter meets the core engineering specifications to be suitable to connect with one solar module, the inverter's rated output, and the inverter's capacity in a specification sheet, bill of sale, or other similar documentation. In the case of a DC optimized inverter system, the taxpayer must also document that the DC optimizers and the inverter in such system were sold as a combined end product.(6)Residential inverter-(i)Definition. Residential inverter means an inverter that-(A) Is suitable for a residence;(B) Has a rated output of 120 or 240 volt single-phase power; and(C) Has a capacity expressed on an alternating current watt basis that is not greater than 20 kilowatts.(ii)Suitable for a residence. An inverter is suitable for a residence if, in the form sold by the manufacturer, it is capable of serving as a component in a residential system and meets the core engineering specifications for such application.(iii)Credit amount. For a residential inverter the total rated capacity of which is expressed on an alternating current watt basis, the credit amount is equal to the product of 6.5 cents multiplied by the total rated capacity of the residential inverter.(iv)Substantiation. The taxpayer must document that a residential inverter meets the core engineering specifications for use in a residence, the inverter's rated output, and the inverter's capacity in a specification sheet, bill of sale, or other similar documentation.(7)Utility inverter - (i)Definition. Utility inverter means an inverter that- (A) Is suitable for commercial or utility-scale systems;(B) Has a rated output of not less than 600 volt three-phase power; and(C) Has a capacity expressed on an alternating current watt basis that is greater than 125 kilowatts and not greater than 1000 kilowatts. (ii)Suitable for commercial or utility-scale systems. An inverter is suitable for commercial or utility-scale systems if, in the form sold by the manufacturer, it is capable of serving as a component in such systems and meets the core engineering specifications for such application.(iii)Credit amount. For a utility inverter the total rated capacity of which is expressed on an alternating current watt basis, the credit amount is equal to the product of 1.5 cents multiplied by the total rated capacity of the utility inverter.(iv)Substantiation. The taxpayer must document that a utility inverter meets the core engineering specifications for use in commercial or utility-scale systems, the inverter's rated output, and the inverter's capacity in a specification sheet, bill of sale, or other similar documentation.(e)Qualifying battery component-(1)In general. Qualifying battery component means electrode active materials, battery cells, or battery modules, each as defined in this paragraph (e).(2)Electrode active materials -(i)Definitions -(A)Electrode active materials. Electrode active materials means cathode electrode materials, anode electrode materials, and electrochemically active materials that contribute to the electrochemical processes necessary for energy storage. Electrode active materials do not include battery management systems, terminal assemblies, cell containments, gas release valves, module containments, module connectors, compression plates, straps, pack terminals, bus bars, thermal management systems, and pack jackets. (B)Cathode electrode materials. Cathode electrode materials means the materials that comprise the cathode of a commercial battery technology, such as binders, and current collectors (for example, cathode foils).(C)Anode electrode materials. Anode electrode materials means the materials that comprise the anode of a commercial battery technology, including anode foils.(D)Electrochemically active materials. Electrochemically active materials that contribute to the electrochemical processes necessary for energy storage means battery-grade materials that enable the electrochemical storage within a commercial battery technology. In addition to solvents, additives, and electrolyte salts, electrochemically active materials that contribute to the electrochemical processes necessary for energy storage may include electrolytes, catholytes, anolytes, separators, and metal salts and oxides.(E)Example. A commercial battery technology contains Cathode Active Material (CAM), which is a powder used in the battery that is made by processing and combining Battery-Grade Materials A and B. Battery-Grade Material A is a derivative of Material C, which has been refined to the necessary level to enable electrochemical storage. The production costs for CAM and its direct inputs (Battery-Grade Material A and Battery-Grade Material B) are eligible for the section 45X credit for electrode active materials, but the unrefined Material C is not.(F)Battery-grade materials. Battery-grade materials means the processed materials found in a final battery cell or an analogous unit, or the direct battery-grade precursors to those processed materials.(ii)Credit amount. For an electrode active material, the credit amount is equal to 10 percent of the costs incurred by the taxpayer with respect to production of such materials.(iii)Production processes for electrode active materials - (A)Conversion. For purposes of section 45X, the term conversion means a chemical transformation from one species to another.(B)Purification. For purposes of section 45X, the term purification means increasing the mass fraction of a certain element.(iv)Production costs incurred-(A)In general-(1)Definition of production costs incurred. Costs incurred by the taxpayer with respect to production of an electrode active material only, includes all costs as defined in § 1.263A-1(e) that are paid or incurred within the meaning of section 461 of the Code by the taxpayer for the production of such electrode active material only, including direct materials costs as defined in § 1.263A-1(e)(2)(i)(A) , or indirect materials costs as defined in § 1.263A-1(e)(3)(ii)(E) , but does not include direct or indirect materials costs that relate to the purchase of materials that are an eligible component at the time of acquisition (for example, an electrode active material only, as defined in paragraph (e)(2)(i) of this section or applicable critical mineral as defined in § 1.45X-4(b)). This definition of production costs incurred also includes any costs incurred by the taxpayer related to the extraction, as defined in paragraph (e)(2)(iv)(B) of this section, of raw materials in the United States or a United States territory, but only if those costs are paid or incurred by the taxpayer that claims the section 45X credit with respect to the relevant electrode active material. Section 263A of the Code and the regulations in this chapter under section 263A apply solely to identify the types of costs that are includible in production costs incurred for purposes of computing the amount of the section 45X credit, but do not apply for any other purpose, such as to determine whether a taxpayer is engaged in production activities.(2)Production costs for production of incorporated eligible components. The production costs that a taxpayer pays or incurs in the production of an eligible component (whether produced domestically or not) that the taxpayer then incorporates into a further distinct electrode active material within the meaning of § 1.45X-1(f)(1) are not included in the costs incurred by the taxpayer in producing the further distinct electrode active material. A taxpayer may not include the same production costs in the calculation of the credit amount for more than one eligible component. For example, if the taxpayer pays or incurs production costs of $50X for eligible component 1 and an additional $100X of production costs for eligible component 2 that included integrating eligible component 1 within the meaning of § 1.45X-1(f)(1), then the production costs for eligible component 1 equal $50X and the production costs for eligible component 2 equal $100X.(3)Examples. The following examples illustrate the rules of this section: (i)Example 1. Taxpayers X, Y and Z are unrelated C corporations that have calendar year taxable years. In 2024, X extracts raw nickel from natural mineral deposits located in the United States and purifies the extracted material to 99% nickel by mass (qualifying nickel) as required by section 45X(c)(6)(S) and § 1.45X-4(b)(19)(ii). Y subsequently purchases the qualifying nickel and uses the material to produce battery-grade nickel salts which qualify as electrode active materials within the meaning of paragraph (e)(2) of this section. Y sells the battery-grade nickel salts to Z in tax year 2026. Y may claim a section 45X credit for the battery-grade nickel salts in tax year 2026 because Y produced, within the meaning of § 1.45X-1(c)(2), an eligible component. In calculating its production costs with respect to such credit, Y may not include the purchase price it paid to X for the qualifying nickel because the qualifying nickel met the minimum purity requirement prescribed by section 45X(c)(6)(S) such that the material constituted an applicable critical mineral (and, accordingly, an eligible component) at the time at which Y acquired the qualifying nickel.(ii)Example 2. Assume the facts are the same as in paragraph (e)(2)(iv)(A)(2)(i) of this section (Example 1), except that X purifies the extracted raw nickel material to a purity of 90% nickel by mass, rather than 99% nickel by mass as required by section 45X(c)(6)(S) and § 1.45X-4(b)(19)(ii). Y may claim a section 45X credit for the battery-grade nickel salts in tax year 2026 because Y produced, within the meaning of § 1.45X-1(c)(2), an eligible component. In calculating its production costs with respect to such credit, Y may include the purchase price of the 90% nickel material among its production costs, provided that Y satisfies the substantiation requirements described in paragraph (e)(2)(iv)(C) of this section, because, at the time at which Y acquired such material, the material did not meet the minimum purity as required by section 45X(c)(6)(S) to constitute an applicable critical mineral. (B)Definition of extraction. The term extraction means the activities performed to harvest minerals or natural resources from the ground or from a body of water. Extraction includes, but is not limited to, operating equipment to harvest minerals or natural resources from mines and wells and the physical processes involved in refining. Extraction also includes operating equipment to extract minerals or natural resources from the waste or residue of prior extraction, including crude oil extraction to the extent that processes applied to that crude oil yield an applicable critical mineral or an electrode active material as a byproduct. Extraction concludes when activities are performed to convert raw mined or harvested products or raw well effluent to substances that can be readily transported or stored for direct use in critical mineral or electrode active material processing. Extraction does not include activities that begin with a recyclable commodity (as such activities are recycling). Extraction does not include the chemical and thermal processes involved in refining. (C)Substantiation. In order to include direct or indirect materials costs as defined in § 1.263A-1(e)(2)(i)(A) and (e)(3)(ii)(E) as production costs when calculating a section 45X credit for the production and sale of an electrode active material, a taxpayer, as part of filing an annual tax return (or a return for a short year within the meaning of section 443 of the Code), must include the information in paragraph (e)(2)(iv)(C)(1) of this section as an attachment to that return, prepare the information required in paragraphs (e)(2)(iv)(C)(2) through (4) of this section and maintain that information in the taxpayer's books and records under section 6001, and comply with directions for the information required in paragraph (e)(2)(iv)(C)(5) of this section as specified in guidance: (1) Certifications from any supplier, including the supplier's employer identification number and that is signed under penalties of perjury, from which the taxpayer purchased any constituent elements, materials, or subcomponents of the taxpayer's electrode active material, stating that the supplier is not claiming the section 45X credit with respect to any of the material acquired by the taxpayer, nor is the supplier aware that any prior supplier in the chain of production of that material claimed a section 45X credit for the material.(2) A document that provides an analysis of any constituent elements, materials, or subcomponents that concludes the material did not meet the definition of an eligible component (for example, did not meet the definition of applicable critical mineral or electrode active material) at the time of acquisition by the taxpayer. The document may be prepared by the taxpayer or ideally by an independent third-party.(3) A list of all direct and indirect material costs and the amount of such costs that were included within the taxpayer's total production cost for each electrode active material.(4) A document related to the taxpayer's production activities with respect to the direct and indirect material costs that establishes the materials were used in the production of the electrode active material. The document may be prepared by the taxpayer or ideally by an independent third-party.(5) Any other information related to the direct or indirect materials specified in guidance.(D) Failure to provide the documentation described in paragraph (e)(2)(iv)(C) of this section with the return filing, or providing an available upon request statement, will constitute a failure to substantiate the claim. (v)Materials that are both electrode active materials and applicable critical minerals-(A)In general. A material that qualifies as an electrode active material and an applicable critical material is eligible for the section 45X credit. A taxpayer may claim the section 45X credit with respect to such material either as an electrode active material or an applicable critical material, but not both. (B)Example. Lithium carbonate is an electrode active material because it is a direct battery-grade precursor to electrolyte salts, which are processed materials found in a final battery cell. Lithium carbonate is also eligible for the 45X critical minerals credit. A taxpayer who produces and sells lithium carbonate may claim either the electrode active material credit or the critical mineral credit for its production and sale of lithium carbonate but may not take both credits.(3)Battery cells-(i)Definition. Battery cell means an electrochemical cell -(A) Comprised of one or more positive electrodes and one or more negative electrodes;(B) With a volumetric energy density of not less than 100 watt-hours per liter; and(C) Capable of storing at least 12 watt-hours of energy. (ii)Capacity measurement. Taxpayers must measure the capacity of a battery cell in accordance with a national or international standard, such as IEC 60086-1 (Primary Batteries), or an equivalent standard. Taxpayers can reference the United States Advanced Battery Consortium (USABC) Battery Test Manual for additional guidance.(iii)Credit amount. For a battery cell, the credit amount is equal to the product of $35 multiplied by the capacity of such battery cell, subject to the limitation provided in paragraph (e)(5) of this section. The capacity of a battery cell is expressed on a kilowatt-hour basis.(4)Battery module definitions and applicable rules-(i)Battery module defined. The term battery module means a module described in paragraph (e)(4)(i)(A) or (B) of this section with an aggregate capacity of not less than 7 kilowatt-hours (or, in the case of a module for a hydrogen fuel cell vehicle, not less than 1 kilowatt-hour). (A)Modules using battery cells. A module using battery cells, is a module with two or more battery cells that are configured electrically, in series or parallel, to create voltage or current, as appropriate, to a specified end use, meaning an end-use configuration of battery technologies. An end-use configuration is the product that combines cells into a module such that any subsequent manufacturing is done to the module rather than to the cells. Where multiple points in a supply chain may be eligible under this section, the first module produced and sold that meets the requirements of this section and the kilowatt-hour requirement in paragraph (e)(4)(i) of this section will be the only module eligible.(B)Modules with no battery cells. A module with no battery cells means a product with a standardized manufacturing process and form that is capable of storing and dispatching useful energy, that contains an energy storage medium that remains in the module (for example, it is not consumed through combustion), and that is not a custom-built electricity generation or storage facility. For example, neither standalone fuel storage tanks nor fuel tanks connected to engines or generation systems qualify as modules with no battery cells.(ii)Capacity measurement-(A)Modules using battery cells. Taxpayers must measure the capacity of a module using battery cells with a testing procedure that complies with a national or international standard published by a recognized standard setting organization. The capacity of a battery module may not exceed the total nameplate capacity of the battery cells in the module. Taxpayers must measure the capacity of a battery cell in accordance with a national or international standard, such as IEC 60086-1 (Primary Batteries), or an equivalent standard. Taxpayers can reference the USABC Battery Test Manual for additional guidance. (B)Modules with no battery cells. Taxpayers must measure the capacity of a module with no battery cells with a testing procedure that complies with a national or international standard published by a recognized standard setting organization. Taxpayers producing thermal and thermochemical battery modules described in paragraph (e)(4)(i)(B) of this section must convert the energy storage to a kilowatt-hour basis and provide both methodology and testing regarding this conversion. Such conversion of the kilowatt-hour basis cannot exceed the total direct conversion of the total nameplate capacity of the thermal battery module to kilowatt-hours.(C)Substantiation of capacity measurement. Taxpayers must maintain the testing standard and methodology with respect to the capacity measurement described in paragraphs (e)(4)(ii)(A) and (B) of this section as part of books and records under section 6001 and § 1.6001-1 . The testing procedure and methodology must consistently be used, subject to any updated standard of the same methodology and testing, for battery modules (with or without cells) sold in the taxpayer's trade or business.(iii)Credit amount- (A)Modules using battery cells. For a battery module with cells, the credit amount is equal to the product of $10 multiplied by the capacity of such battery module, subject to the limitation provided in paragraph (e)(5) of this section. The capacity of each battery module is expressed on a kilowatt-hour basis. (B)Modules with no battery cells. For a battery module without cells, the credit amount is equal to the product of $45 multiplied by the capacity of such battery module, subject to the limitation provided in paragraph (e)(5) of this section. The capacity of each battery module is expressed on a kilowatt-hour basis.(5)Limitation on capacity of battery cells and battery modules - (i)In general. For purposes of paragraphs (e)(3)(iii) and (e)(4)(iii) of this section, the capacity determined with respect to a battery cell or battery module must not exceed a capacity-to-power ratio of 100:1.(ii)Capacity to power ratio. For purposes of paragraph (e)(5)(i) of this section, capacity-to-power ratio means, with respect to a battery cell or battery module, the ratio of the capacity of such cell or module to the maximum discharge amount of such cell or module.(f)Phase out rule - (1)In general. Except as provided in paragraph (f)(3) of this section, in the case of any eligible component sold after December 31, 2029, the amount of the section 45X credit determined with respect to such eligible component must be equal to the product of- (i) The amount determined under this section with respect to such eligible component, multiplied by(ii) The phase out percentage under paragraph (f)(2) of this section. (2)Phase out percentages. The phase out percentage is equal to- (i) 75 percent for eligible components sold during calendar year 2030;(ii) 50 percent for eligible components sold during calendar year 2031;(iii) 25 percent for eligible components sold during calendar year 2032, and(iv) Zero percent for eligible components sold after calendar year 2032.(3)Exception for applicable critical minerals. The phase out rules described in paragraphs (f)(1) and (2) of this section apply to all eligible components except applicable critical minerals.(g)Applicability date. This section applies to eligible components for which production is completed and sales occur after December 31, 2022, and during a taxable year ending on or after October 28, 2024.Correction published at 89 FR 93171